اللائحة الخاصة بالبرامج العلمية المتخصصة

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سكندريةإلجامعة ا

كلية الھندسة

بنظام الساعات المعتمدة للبرامج الجديدة موحدةالالئحة ال بكلية الھندسة جامعة اإلسكندرية

للحصول على البكالوريوس فى الھندسة درجة

جامعة االسكندرية –كلية الھندسة

.وكيماوياتالغاز والبتربرنامج ھندسة -1

.علوم الموادبرنامج ھندسة -2

برنامج الھندسة الكھروميكانيكية. - 3

التشييد.و العمارةبرنامج ھندسة - 4

برنامج ھندسة الحاسبات واإلتصاالت. - 5

.ھندسة منصات البترول البحرية وھندسـة الشواطئبرنامج -6

2013 يونيو

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األول الباب

مقدمة

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مقدمة والقيم أوال: الرؤية والرسالة

الرؤية:ة ة الھندس ون كلي كندرية –أن تك ة اإلس ط –جامع رق األوس توى الش ى مس ية عل وم الھندس ي العل دة ف رائ

ك من خالل تمي ع وذل ة المجتم ا وأفريقيا في مجال التعليم والبحث العلمي وخدم دريس بھ ة الت ز أعضاء ھيئ انيات المتميزة المرتبطة بالبيئة المحيطة خاصة الصحراوية والبحرية.وتوفير برامج التعليم والبحث واإلمك

الرسالة:

اعي واتأھيل الكوادر الھندسية المتمي يم إلزة القادرة على العمل الجم داع من خالل مواصلة التعل ار واإلب بتكة والمھ ة والتعلم والتدريس والبحث العلمي وتداول المعرفة وفق أفضل المعايير األكاديمي ة لخدم حتياجات إني

راد المجتمع المحلي والقومي والدولي وتشجيع النشر العلمي والتقني واإلسھام في تنمية القدرات المعرفية ألف المجتمع ومؤسساته وتمكينھا من التعليم المستمر.

القيم:وقإلا رام حق ة واحت طة الكلي ع أنش ي جمي ة ف ة والمھني ة األكاديمي يم النزاھ ادئ وق زام بمب ة لت ة الفكري الملكية إلوا ة لكاف ذاتي والمعرف وفير المعلومات عن األداء ال ات وت لتزام بالموضوعية في الممارسات وإتاحة البيان

ة ة حاكم د أخالقي ادئ وقواع وي مب ة تح ي منظوم ة بتبن زام الكلي ة والت اته المختلف ع ومؤسس راد المجتم أفاالت و ف المج ي مختل تويات ف ة المس ى كاف ات عل وابط للممارس وعية وض اد والموض مان الحي نظم لض ال

ات وا لوكيات والممارس ة بالس بة المرتبط ة والمحاس داع إلوأدوات للمراجع ز واإلب الجودة والتمي زام ب لت والتطوير وحرية الفكر والبحث.

ثانيا: أھداف الكليةضيات، الفيزياء، ) ھي المھنة التي تطبق فيھا المعرفة بالعلوم األساسية (الرياEngineeringالھندسة (

الكيمياء، وغيرھا)بجانب المعرفة المكتسبة من خالل الدراسة الھندسية والخبرة والممارسة من أجل تطوير وابتكار الطرق واألساليب واآلالت واألجھزة لالستخدام األمثل لمواد وموارد وقوى الطبيعة لنفع المجتمع

.يالبشرة التى تغطى معظم التخصصات التى يحتاج إليھا سوق العمل على لذلك تعمل الكلية من خالل أقسامھا العلمي

تحقيق األھداف اآلتية:

.إعداد خريج ملم بالحديث من العلوم األساسية والھندسية واإلنسانية

.أعداد خريج ملم بوسائل التكنولوجيا الحديثة وتكنولوجيا المعلومات وكيفية التعامل معھا

رار والتعامل مع األزمات و المشاكل.إعداد خريج قادر على اتخاذ الق

.تزويد الطالب بالقدرات اللغوية الالزمة لالستفادة من عولمة المعرفة

إعداد خريج قادر على المنافسة فى سوق العمل فى ظل الظروف الجديدة والمتغيرة للمجتمع الدولى.

االستنباط ولديه الرغبة إعداد خريج قادر على تطبيق أساليب التفكير العلمي الھندسي والتحليل و والقدرة على التعلم المستمر.

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المساھمة في إعداد كوادر علمية قادرة على البحوث األكاديمية والتطبيقية في التخصصات الھندسية المختلفة.

المساھمة في خدمة المجتمع والبيئة عن طريق المشاركة فى وضع الحلول العملية والرؤى الالزمة للتنمية المستدامة خاصة في البيئتين الصحراوية والبحرية. المستقبلية واالستراتيجيات

ثالثا :المخرجات المتوقعة: الھندسة ). –العلوم –القدرة على استيعاب العلوم األساسية فى المجاالت ( الرياضة - 1 القدرة على عمل التجارب العلمية وكذلك استخالص وتحليل النتائج . - 2 والعمليات التى تحقق المتطلبات بعينھا. –األجزاء المختلفة –القدرة على تصميم النظم - 3 القدرة على العمل فى فريق من تخصصات مختلفة. - 4 إستنباط وحل المشاكل الھندسية. –القدرة على تحليل - 5 القدرة على فھم المھنة وتقاليد المھنة. - 6 القدرة على التواصل مع األخرين بصورة جيدة - 7 أثير الحلول الھندسية على المجتمع والبيئة المحلية والعالمية. القدرة على الفھم الواسع وت - 8 اإلقتناع بالحاجة إلى التعليم المستمر كأساس للتقدم المھنى للخريج. - 9

القدرة على إستخدام الطرق التكنولوجية الحديثة والمھارات واالدوات الھندسية للتطبيقات الھندسية. -10

العلميةرابعا: تطور إنشاء الكلية وأقسامھا

1941 1942 1942 1946 1953 1960 1961 1963 1964 1974 1974

أنشأت كلية الھندسة بجامعة القاھرة فرعا لھا باإلسكندرية. بإنشاء جامعة اإلسكندرية. 1942لسنة 32صدور مرسوم بقانون رقم

بداية الدراسة بالسنة اإلعدادية والسنة األولى (عمارة، مدنى، ميكانيكا، باء).كھر

إنشاء قسم الھندسة الصحية والبلديات. أنشاء قسم الھندسة الكيميائية.

إنشاء قسمى ھندسة القوى الميكانيكية وھندسة الغزل والنسيج. إنشاء قسم الھندسة البحرية.

إنشاء قسم ھندسة اإلنتاج. إنشاء قسم الھندسة النووية.

إنشاء قسم اآلالت الحاسبة والتحكم اآللى.

:اآلتية العلمية من األقسامحاليا كليةالتتكون قسم الرياضيات والفيزياء الھندسية- 1 قسم الھندسة المعمارية -2 قسم الھندسة اإلنشائية-3 قسم ھندسة الرى والھيدروليكا-4 قسم ھندسة المواصالت-5 قسم الھندسة الصحية-6

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ھندسة الميكانيكيةالقسم -7 قسم ھندسة الغزل والنسيج-8 ندسة اإلنتاجقسم ھ-9

قسم الھندسة البحرية وعمارة السفن-10 قسم الھندسة الكھربية-11 ھندسة الحاسبوالنظم قسم-12 واإلشعاعية قسم الھندسة النووية-13 قسم الھندسة الكيميائية-14

:تدريس المقررات اآلتية اختصاص كل قسم فييدخل

قسم الرياضيات والفيزياء الھندسية: -1 حصاء، الميكانيكا، الفيزياء، الرسم الھندسى، اإلسقاط الھندسى.اإل، اضياتيالر

قسم الھندسة المعمارية: -2مبادئ التصميم المعمارى، إنشاء معمارى،الدراسات البصرية ونظرية األلوان، الحاسب اآللى فى العمارة، نظريات العمارة، الظل والمنظور، التحكم البيئى فى المبانى، التصميم المعمارى،

التصميمات التنفيذية، األنظمة التقنية فى المبانى، التصميم الداخلى، تنسيق المواقع، الفنون دارة مشروعات البناء، إالمعاصرة، الحفاظ على العمران، العمارة والبيئة، دراسات تحليل المواقع،

دول النامية، تكنولوجيا البناء والتشييد، دراسات الجدوى اإلقتصادية للمشروعات، اإلسكان فى الالجغرافية الحضرية، الفراغات الحضرية، البنية األساسية الحضرية، ،تصميم المجتمعات الريفية

التخطيط العمرانى واإلسكان، الكميات اإلقتصاد الحضرى، نظم المعلومات الجغرافية، المواصفات، البحوث ووضع البرامج،نظريات العمارة والنقد، مشروعات اإلسكان، نظريات و

.وإقتصاديات اإلسكان، مشروعات التصميم الحضرى، نظريات التصميم الحضرى

قسم الھندسة اإلنشائية: - 3نظرية اإلنشاءات، خواص المواد واختبارھا، ميكانيكا التربة، ھندسة األساسات، خراسانة

مواد مسلحة، ھندسة التشييد، تحليل إنشائى بالطرق الحديثة، إدارة المشروعات الھندسية، ھندسةمتقدمة، المنشآت المعدنية، تصميم المنشآت الصناعية والمبانى العالية، منشآت وكبارى خرسانية،

العقود والكميات والمواصفات,التفتيش وضبط الجودة والترميم، منشآت وكبارى معدنية.

قسم ھندسة الرى والھيدروليكا: - 4ھيدرولوجيا تطبيقية، ھندسة الرى ھيدرولوجيا، الھيدروليكا، تصميم نظم الرى المتطورة،

والصرف، ھيدروليكا تطبيقية، تصميم خطوط وشبكات المواسبر، تصميم منشآت الرى، تطبيقات الحاسب اآللى فى المنشآت الھيدروليكية، المنشآت الھيدروليكية.

قسم ھندسة المواصالت: - 5، يساحة والفوتوجرامترالم، المساحة والطبوغرافية، الرسم المدني، الجيولوجيا الھندسية

تخطيط النقل وھندسة المرور، المساحة الجيوديسية، تطبيقات التقنيات واألجھزة الحديثة فى المساحة،التخطيط والتوقيع المساحى لمشروعات الھندسة المدنية، ھندسة السكك الحديدية، ھندسة

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شواطئ، تطبيقات الحاسب الموانى والمنشآت البحرية، ھندسة الطرق، تخطيط نظم النقل، ھندسة ال الھندسة المدنية. ياآللى ف

قسم الھندسة الصحية: - 6 ھندسة اإلمداد بالمياه، الھندسة الصحية، ھندسة الصرف الصحى.

ھندسة الميكانيكية:القسم - 7ميكانيكا المواد، مبادئ وقياسات السريان والحرارة، رسم ميكانيكى، ميكانيكا آالت، رسم

ثرموديناميكا، تطبيقات الحاسب اآللى فى الھندسة الميكانيكية، تصميم ميكانيكى بالحاسب،ميكانيكى، ميكانيكا الموائع، أسس ھندسة اإلحتراق، إھتزازات ميكانيكية، محركات إحتراق داخلى، إنتقال حرارة، ديناميكا غازات، تحكم آلى، محطات قوى حرارية، آالت ھيدروليكية، تبريد وتكييف

األمثل، تصميم المعدات الحرارية، ميكانيكا الموائع الصناعية، توربينات غازية، ھواء، التصميممقدمة فى الميكاترونيك، تشغيل وإدارة محطات القوى الحرارية، آالت الموائع، موضوعات متقدمة فى ھندسة اإلحتراق، تريبولوجى، تطبيقات فى الھندسة الحرارية، دوائر ھيدروليكية، ھندسة

بيئة والطاقة. سيارات، ال

قسم ھندسة الغزل والنسيج: - 8والنسيج، آالت الغزل ونظرية تصميمالشعيرات، رسم وإنشاء ماكينات، خامات و طبيعة

الخيوط واختباراتھا، مراقبة ، طبيعةالمنسوجات تكنولوجيا، تحضيرات النسيج ،تكنولوجيا الغزلفى تطبيقات الحاسب اآللية وتراكيب اقمشة، جودة الغزل والنسيج، تكنولوجيا انتاج الخيوط، طبيع

والنسيج، تكنولوجيا غزل اآللياف ميكانيكا آالت الغزلالصناعات النسيجية، نظم المعلومات، ، المالبس الجاھزة، االقمشة الغير الخيوط الصناعيةانتاج تكنولوجيا ، تكنولوجيا النسيجالصوفية،

، تكنولوجيا انتاج الخيوط الصناعية المضخمة، منسوجة، تصنيع واستخدام االقمشة الصناعيةنظريات الغزل، نسيج وتريكو، ھندسة المالبس، تكنولوجيا انتاج الخيوط الغير تقليدية، تكنولوجيا انتاج االقمشة الغير تقليدية، التحكم اآللى والربوت فى الصناعات النسيجية، تكنولوجيا التجھيز،

حديثة.نظم الغزل الحديثة، نظم النسيج ال

قسم ھندسة اإلنتاج: - 9تكنولوجيا اإلنتاج، تكنولوجيا المواد، رسم عناصر آالت القطع، السباكة واللحام، بحوث عمليات، عمليات تشغيل، تكنولوجيا التشكيل، نظرية قطع المعادن، ميكانيكا الجوامد، قياسات

لمعادن، نظرية وتصميم آالت بعدية، تصميم عناصر آالت القطع، نظرية اآلالت، اللدونة وتشكيل االقطع، المترولوجيا الھندسية، تخطيط وتصميم المنشآت، تخطيط ورقابة االنتاج، ماكينات تشغيل

إلكترونية، تكنولوجيا المواد المتقدمة، متقدمة، التحكم اآللى، انظمة القياس المتقدمة، االنظمة الميكالحبيبات الناحتة، االختبارات الالإتالفية، عمليات ضبط الجودة، ديناميكا آالت االنتاج، التشغيل با

التشغيل الالتقليدية، االدارة الھندسية والتنظيم، تحسين وادارة الجودة، اختيار المواد الھندسية، ھندسة المعرفة، انظمة القياس باستخدام الحاسب، تكنولوجيا التشغيل المتقدمة، تحليل االنھيار، آالت

مى، اسس وتطبيقات انظمة التحكم فى الضوضاء، نمذجة ومحاكاة النظم القطع ذات التحكم الرق الصناعية، تصميم االسطمبات، تكنولوجيا الصيانة (مراقبة حالة الماكينات).

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قسم الھندسة البحرية وعمارة السفن: -10رسم ماكينات وآالت سفن، عمارة بحرية، تحليل إنشائى للسفن، رسم سفن وآالتھا، ميكانيكا

موائع، إنشاء السفن، برمجة الحاسب اآللى، ميكانيكا الموائع وآالت ھيدروليكية، تكنولوجيا المواد، التصميم إنشائى للسفن، ھيدروديناميكا السفن،منظومات دفع السفن، الطرق اإلحتمالية فى المنظومات

ات البحرية، البحرية،تكنولوجيا بناء السفن، تصميم السفن، محطات قوى بحرية، ديناميكا الوحدتجھيزات السفن، ھندسة ماوراء الشواطىء، تصميم السفن بإستخدام الحاسب اآللى، تحليل المخاطرة، ھندسة ترسانات، إنتقال حرارة وتبريد وتكييف، ديناميكا اإلنشاءات البحرية، ماكينات

مساعدة.

قسم الھندسة الكھربية: -11إلى أنظمة الطاقة، القياسات الكھربية واإللكترونية، الدوائر الكھربية، الفيزياء الحديثة، مدخل

النبائط والدوائر اإللكترونية، مدخل إلى الدوائر المنطقية والبرمجة، تحليل الدوائر الكھربية، مبادئ المعالجات الدقيقة، المجاالت الكھرومغناطيسية، ھندسة اإللكترونيات، ھندسة القوى الكھربية،

التحكم وتطبيقات الحاسب اآللى، نظم القياسات، مقدمة للدوائر المتكاملة، ھندسة اآلالت الكھربية، إلكترونيات القوى، وقاية نظم القوى، ھندسة التحكم اآللى، ھندسة المواد الكھربية، اإلتصاالت لمنظومات القوى الكھربية، معالجة اإلشارات لنظم القوى الكھربية، تحليل نظم القوى

صناعية وھندسة التنفيذ لنظم القوى، آالت كھربية خاصة، الميكاترونيات الكھربية،التطبيقات الواآلليات، األتمته الصناعية، ھندسة الضغط العالى، التحريك الكھربى، تشغيل وتخطيط نظم القوى الكھربية، التحريك بإستخدام الجوامد، التحكم فى اآلالت والقوى الكھربية،إلكترونيات الجوامد،

اإللكترونية، تصميم الدوائر المنطقية، اآلالت الكھربية وأنظمة القوى، النبائط شبه تحليل الدوائرالموصلة، المعالجات الدقيقة، الموجات الكھرومغناطيسية والصوتيات، اإلشارات والنظم، الدوائر المتكاملة التشابھية، أوساط النقل الميكروموجية والبصرية، اإلتصاالت التشابھية، نظم التحكم ومكوناتھا، النبائط الميكروموجية، النبائط البصرية، القياسات اإللكترونية والميكروموجية، نظم اإلتصاالت البصرية، الدوائر المتكاملة الرقمية، ھندسة الھوائيات، معالجة اإلشارات الرقمية،نظم

صاالت المتقدمة، اإلتصاالت، نمذجة وتصميم الدوائر المتكاملة ذوات التكامل الكبير جدا، نظم اإلت الھندسة البيوطبية، شبكات اإلتصاالت، نظم التحكم الرقمى واإلنساليات، اإلتصاالت الرقمية.

: ھندسة الحاسب والنظمقسم -12الحاسبات والبرمجة، برمجة، نظرية اإلحتماالت وتطبيقتھا فى الحاسبات، ھياكل البيانات،

ق اإلحصائية للحاسبات، نظم رقمية، رياضيات أساسيات الحاسبات، الرياضيات للحاسبات، الطرالتحليل العددى وتطبيقاتھا فى الحاسبات، برمجة النظم والمكونات، نظم التحكم الخطى، نظم

خطى، تحليل الخوارزميات، خوارزميات معالجة ونقل ميكرووية، نظم التحكم الرقمى الالت، النظم المدمجة، عمارة الحاسب، اإلشارات الرقمية، نظم التشغيل، بحوث العمليات والحاسبا

لغات البرمجة والمترجمات، نظم قواعد البيانات، اإلتصاالت وشبكات الحاسبات، ھندسة البرمجيات، الذكاء اإلصطناعى، الرسم بالحاسب، نظريةالتحويل ونماذج القابلية للحساب، التعرف

ھندسة الحاسب، موضوعات على األنماط، تقنيات الوصول للحلول المثلى، موضوعات خاصة فى خاصة فى نظم المعلومات والبرمجيات، نظم التحكم الحديث، النظم الموزعة وبرمجة الشبكات، موضوعات فى شبكات الحاسب، موضوعات خاصة فى ھندسة النظم، موضوعات خاصة فى علوم

الحاسب، تقييم أداء نظم الحاسبات.

8

:واإلشعاعية قسم الھندسة النووية -13ء حديثة، مقدمة علوم مواد ھندسية،مقدمة ھندسة نووية واشعاعية، خواص واختبار فيزيا

المواد النووية، فيزياء نووية، ديناميكا حرارية وكينتيكا الغازات، االمان االشعاعى، مواد المفاعالت النووية، كيمياء اشعاعية، انتقال حرارة، طرق تشخيص المواد، بيولوجيا اشعاع، محاكاة

النووية، ميكانيكا الكم، النظرية الكھرومغناطيسية والبالزما، فيزياء المفاعالت النووية، المحطاتالكشف عن االشعاع، محطات قوى حرارية، الطرق الحسابية فى المواد،مبادئ محاكاة انتقال االشعة، امان المفاعالت النووية، تحليل المفاعالت النووية، تصميم الدروع االشعاعية، التحكم

آللى فى المفاعالت، دورات الوقود النووى، االختبارات الغير اتالفية، مقدمة فى التصوير الطبى ااالشعاعى، محطات القوى النووية، كيناتيكا المفاعالت، تطبيقات النظائر المشعة، التصوير

.اإلشعاعى للمواد، الفيزياء الصحية االشعاعية، قياسات المحطات النووية

الكيميائية: قسم الھندسة -14الكيمياء الھندسية، الحسابات المبرمجة للمھندسين الكيميائيين، كيمياء عضوية، كيمياء غير عضوية،كيمياء فيزيائية،كيمياء السطوح وإتزان األطوار، كيمياء غير عضوية وتحليلية، علوم

ناميكا الحرارية فى مواد، العمليات الكيميائية، ھندسة الفلزات، أساسيات الھندسة الكيميائية، الديالھندسة الكيميائية، إنتقال الحرارة، ھندسة سريان الموائع، عمليات الفصل، ھندسة التآكل، النمذجة والمحاكاة فى الھندسة الكيميائية، معالجة المياه، الھندسة الكيميائية الحيوية، ھندسة الوقود

ئية، العمليات الكھروكيميائية، تكنولوجيا واإلحتراق،مصادر الطاقة البديلة، ھندسة التفاعالت الكيميااألسمدة، صناعات سيليكاتية، الفلزات اإلستخالصية، تكنولوجيا األلياف الطبيعية واألنسجة، تكنولوجيا الزيوت والدھون، مواد الصباغة وتجھيز المنسوجات، العمليات الميكانيكية المشتركة،

ترول، ھندسة الغاز الطبيعى، معالجة مياه الصرف، صناعات العمليات الكيميائية، ھندسة تكرير البمعالجة المخلفات الغازية والصلبة، التحكم فى العمليات الكيميائية، تصميم العمليات الكيميائية، تحلية المياه، ھندسة األمان والمفرقعات، الموائع الغير نيوتونية، ھندسة البلمرات، المواد المركبة

والمقواه، البتروكيماويات.

9

خامسا: النظرة المستقبليةاقة في إنشاء التخصصات الجديدة والتي يحتاجھا كانت كلية الھندسة بجامعة األسكندرية دائما سب

المجتمعالمحلى واإلقليمي والدولي مثل قسم الھندسة الكيميائية وقسم ھندسة الغزل والنسيج وقسم الھندسة والنظم وتنفرد بتواجد قسم الھندسة النووية و اإلشعاعية. ومع البحرية وعمارة السفن وقسم ھندسة الحاسب

التقدم الصناعي في المجاالت المختلفة على المستوى المحلي والمستوى اإلقليمي والدولي فلقد برزت الحاجة إلى إنشاء عدد من البرامج التخصصية لمنح درجة بكالوريوس الھندسة في التخصصات التالية :

.وم الموادھندسة وعل برنامج - .ھندسة الغاز والبتروكيماويات برنامج - برنامج الھندسة الكھروميكانيكية. - التشييد.و العمارةبرنامج ھندسة - .واالتصاالتبرنامج ھندسة الحاسبات - ھندسة منصات البترول البحرية وھندسـة الشواطئ. نامجرب -

10

الثانى الباب

الالئحة المنظمة درجة البكالوريوسللحصول على

و نظام الدراسة بالبرامج العلمية المتخصصة (نظام الساعات المعتمدة)

11

لغة الدراسة بالبرامج العلمية المتخصصة ھى اللغة االنجليزية )1مادة ( وتضع الكلية نظاما للتأكد من مستوى الطالب في اللغة اإلنجليزية.

ع المقررات الدراسية بالبرامج العلمية يطبق نظام الساعات المعتمدة فى جمي )2مادة (ساعات 3 ساعتان أو تحسبوالمتخصصة. تحسب ساعة المحاضرة بساعة معتمدة

خطة يلم يذكر غير ذلك ف وذلك بصورة عامة ما معتمدةتمرين/معمل تعادل ساعة .الدراسة

ما يعادلھا، يسمح بالقيد للحاصلين على شھادة الثانوية العامة شعبة رياضيات، أو )3مادة (من المحولين من قبول بالجامعات، أو الممن تم توزيعھم عن طريق مكتب تنسيق

كليات أخرى بحيث ال يقل مجموع درجات الطالب فى شھادة الثانوية العامة أو ما يعادلھا عن الحد األدنى الذى قبله قطاع الدراسات الھندسية للشروط التي وطبقا

تضع الكلية قواعد عامة للقبول وفي كل الحاالت .عاتيضعھا المجلس األعلى للجامبحيث تكون رغبة الطالب ومبدأ تكافؤ الفرص ھي األساس في قبول الطالب بنظام

الدراسة بالساعات المعتمدة.

كانت والتي اإلعداديةالفرقة يالطالب الباقين لإلعادة ف قبول تحويليجوز ال )4مادة ( .ية فى العام السابقبنظام الفصول الدراس دراستھم

الھندسة درجة البكالوريوس فى على طلب مجلس كلية اتمنح جامعة اإلسكندرية بناء )5مادة ( أحد التخصصات اآلتية بنظام الساعات المعتمدة:

ھندسة وعلوم المواد برنامج - 1 ھندسة الغاز والبتروكيماويات برنامج - 2 برنامج الھندسة الكھروميكانيكية. - 3 التشييد.العمارة ورنامج ھندسة ب - 4 .واالتصاالتبرنامج ھندسة الحاسبات - 5 برنامج ھندسة منصات البترول البحرية وھندسـة الشواطئ. - 6

وتمنح الدرجة فى ثالث فصول خالل العام (الفصل الخريفى والربيعى

والصيفى)

بنجاح الطالب اجتيازيشترط للحصول على درجة البكالوريوس من كلية الھندسة وساعة وذلك لجميع البرامج العلمية 175عدد من الساعات المعتمدة ال تقل عن ويطلب من الطالب تقديم مشروع 2.00المتخصصة وبمتوسط نقاط ال يقل عن

للتخرج ويجوز على فصلين دراسيين ويتخرج الطالب بعد أن يكون المشروع مقسما .سھا الطالب بما فيھا المشروعفى كل المقررات التى در استيفاء شروط النجاح

وتعرف مستويات الدراسة وموقع الطالب بنظام الدراسة على اساس نسبة عدد الساعات المعتمدة التى اجتازھا الطالب طبقا للجدول التالى:

المستوى الدراسى

تعريف موقع الطالب بنظام الدراسة

نسبة عدد الساعات العتمدة التى اجتازھا الطالب

0 Freshman 20 حتىو % 0من% 1 Sophomore 40 حتىو% 20من ثر اك% 2 Junior 60 حتىو% 40اكثر من%

12

3 Senior-1 80 حتىو% 60اكثر من%

4 Senior-2 100 حتىو% 80اكثر من%

13

يجوز إنھاء متطلبات الدراسة للحصول على درجة البكالوريوس خالل عشرة فصول ) 6مادة (والطالب الذي يجتاز مقررات في فى خالل خمس سنوات دراسية يسيةرئدراسية

كحد فصول صيفية يمكنه إنھاء المتطلبات قبل ذلك بفصل دراسي واحد على األكثر دراسيا فصال عشرونسنوات ( عشرأدنى والحد األقصى للدراسة ) ويفصل رئيسيا

.اذا لم يحقق شروط التخرج الطالب بعدھا

عدد الساعات المعتمدة التى يسجل فيھا الطالب فى الفصل الدراسى الواحد عن ال تقل )7مادة ( بحيث يكون الحد االقصى للساعات عشرين ساعةو واحد اثنتى عشرة وال تزيد عن

ھا الطالب فى الفصل الواحد ھى:لالتى يسج المعتمدة 3ساعة معتمدة للطالب الحاصل على معدل تراكمى اكبر من أو يساوى 21 -واكبر من 3ساعة معتمدة للطالب الحاصل على معدل تراكمى أقل من 18 -

2أو يساوى 2من ساعة معتمدة للطالب الحاصل على معدل تراكمى أقل 14 -

تتكون السنة الدراسية من ثالثة فصول دراسية: )8مادة ( التقل عن أربعةومدته ى)الخريف( األول الرئيسي فصلال -أ ويبدأ عشر أسبوعا

.شھر سبتمبرل فى أوائ ويبدأ التقل عن أربعةومدته (الربيعي) الرئيسي الثاني فصلال -ب عشر أسبوعا

.فبرايرشھر فى أوائل يو نشھر يو فى أواخرأسابيع ويبدأ ةبعسال تقل عن فصل الصيف ومدته -.

تمنح للدراسة وال مكمال يعتبر التدريب الصيفي العمـلي داخل أو خـارج الكلية جزءا )9مادة (درجة البكالوريوس إال بقضاء فترة تدريب إجمالية خالل سنوات الدراسة ال تقل عن

مظمنبرنامج المشرف على إدارة البرامج شھرين. ويحدد مجلس يللتدريب الصيف اوال تحسب خالل الفصل الصيفى وينفذ تحت إشراف ھيئة التدريس بالبرنامج. يالعمل

نقاط عند حساب المعدل التراكمى للطالب. للتدريب الصيفى أو الندوات أى

تطرح الكلية بعض المقررات لتقديمھا فى الفصل الصيفى. ويمكن للطالب التسجيل ) 10مادة ( يف لقواعد الكلية بشرط عدم التعارض مع التدريب مقررين منھا على األكثر تبعا

.الصيفى

من الفصل األسبوع الخامس واألسبوع التاسعأعمال فصلية في كل من امتحانيعقد ) 11مادة ( .الرئيسى و في كل من األسبوع الثالث واألسبوع الخامس من الفصل الصيفى

ال تقل درجته عن ي فى نھاية الفصل الدراس نھائي تحريري امتحانيعقد لكل مقرر ) 12مادة (ت ومقررا مشروع التخرج باستثناء% من مجموع درجات تقييم المقرر، 40

.لھا امتحانات شفوية يعقد التصميم المشابه له والتى فى وال يعتبر الطالب ناجحا% من 30متحان التحريري على درجات ال تقل عن االالمقرر اال إذا حصل فى

% من مجموع درجات 60درجات التحريرى، وفى المقرر على درجات ال تقل عن المقرر.

اعة معتمدة بمعرفة الجامعة بناء على إقتراح مجلس سقررة لكل يتم تحديد الرسوم الم) 13مادة ( على اقتراح مجلس بناءا ، و يمكن زيادة الرسوم على الطالب الجدد الكلية سنويا

الجامعة.

التى تقترحھا الكلية، و توافق يوقع الطالب على تعھد باإللتزام بسداد الرسوم المقررة ) 14مادة ( إللتزام بنفس الرسوم للطالب منذ إلتحاقه و حتى تخرجه.عليھا الجامعة، مع ا

14

، و تقدر بعدد الساعات المعتمدة يتحصل الرسوم المقررة مع بداية كل فصل دراس) 15مادة (و ال يعتبر تسجيل الطالب نھائيا اال بعد سداد الرسوم التى يسجل فيھا الطالب

.المقررة

شدا تعين الكلية لكل طالب مر )16مادة ( من أعضاء ھيئة التدريس لمعاونة الطالب فى أكاديميا وإلرشاده فى و معاونته فى إختيار المقررات بكل فصل دراسى إجراءات التسجيل

جميع األمور التى تتعلق بالدراسة

قبل بداية الدراسة خالل فترة التسجيل ييتم تسجيل الطالب عند بداية كل فصل دراس) 17مادة (بعد إستيفاء شروط القيد وسداد الرسوم المقررة. إدارة البرامج ددھا مجلس التى يح

يختار الطالب المقررات تحت إشراف المرشد األكاديمى الذى يجب أن يوافق على العبء الدراسى قبل التسجيل

مجلس إدارة البرامجيسمح بالتسجيل للطالب المتأخرين عن الموعد المعلن من قبل ) 18مادة (الل األسبوع األول من الدراسة بشرط موافقة كل من المرشد األكاديمى و عميد خ

الكلية.

من بداية الفصل أسبوعين خالل فترة ال تجاوز للطالب أن يضيف أو يسقط مقررا ) 19مادة (على أن يظل الرئيسى وقبل اسبوع من بداية الفصل الدراسى الصيفى الدراسىبشرط موافقة كل من المرشد األكاديمى و د المسموح به ء الدراسى فى الحدوالعب

عميد الكلية.

الرئيسى نسحاب من دراسة أى مقرر قبل إنتھاء الفصل الدراسىإلا يللطالب الحق ف) 20مادة (بشرط موافقة كل من وقبل اسبوع من انتھاء الفصل الدراسى الصيفى بثالثة أسابيع

W. ويكون تقديرالطالب فى المقرر المنسحب منه المرشد األكاديمى و عميد الكليةعلى التقدير الذي حققه هويحصل في فيه متحاناالو تهدراس ةوعلى الطالب اعاد ،

. عند اإلعادة

ه قبل انتھاء ل يجوزبعذر مقبول ، في مقررفى حالة عدم دخول االمتحان النھائى )21مادة (خالل فترة ال تجاوز األسبوعين يمتحان فإلا لدخول أن يتقدم بطلب فترة االمتحانات

المشرف من بداية الفصل الدراسى التالى للذى كان يدرس به المقرر، بشرط موافقة .للعذر عميد الكلية قبولو االكاديمى

يطلب وضع الطالب وله أن يلتزم المرشد األكاديمي بمتابعة أداء الطالب )22مادة ( فى نھاية أى فصل. 2.00 ه العام عن إذا انخفض معدل تحت المالحظة

يكاديمأنذار إ فى أى فصل يوجه له 2.00 إذا انخفض معدله العام عن ، .على األقل 2.00معدله التراكمي الى ليقضي بضرورة رفع الطالب

من الكلية الطالب المنذر اكاديميا يفصل اذا تكرر انخفاض معدله نھائيا راسية رئيسية متتابعة.ستة فصول د 2.00التراكمى عن

يجوز لمجلس الكلية أن ينظر فى إمكانية منح الطالب المعرض للفصلفرصة على االقل 2.00ن رفع معدله التراكمى الى نتيجة عدم تمكنه م

واحدة وأخيرة مدتھا فصلين دراسيين رئيسيين لرفع معدله التراكمى الى على % 80اح دراسة وتحقيق متطلبات التخرج اذا كان قد أتم بنج 2.00 طلوبة للتخرج.ممن الساعات الاالقل

15

يجب على الطالب متابعة المحاضرات النظرية والتمارين النظرية والمعملية لكل )23مادة (% من دروس كل مقرر على حدة. 75مقرر، وعلى أال تقل نسبة حضوره عن

ء االمتحان وبناء على طلب المجلس المختص بالبرنامج يحرم الطالب من أداھذه الحالة يفيھا النسبة المقررة للحضور وف يالنھائى فى المقررات التى لم يستوف

متحان فيھا. وإذا قدم إلالمقررات التى يحرم من أداء ا يف يعتبر الطالب راسبابعذر فيعتبر الطالب غائبا إدارة البرامج عن تغيبه ويقبله مجلس الطالب عذرا

مقبول.

خارج ذات البرنامج العلمى من المقررات المطروحةطالب دراسة مقررين لل وزيج )24مادة (باألقسام العلمية للكلية، وذلك بموافقة المطروحة أو المتخصص المسجل به الطالب

من ضمن ھذين المقررين حسب ي وال ،المرشد األكاديمى وإعتماد عميد الكلية الساعات المعتمدة المخصصة لتخريج الطالب.

الحد األدنى لعدد الطالب المسجلين لكل مادة إختيارية، مجلس إدارة البرامج يحدد ) 25ة (ماد .لإلمكانات المتاحة بالكلية و البرامج العلمية وذلك وفقا

بأحد التقديرات يوالتراكم يالتقدير الفصل ير نجاح الطالب فى المقررات وفيقد )26مادة ( اآلتية:

التقدير عدد النقاط ظرةالنسبة المئوية المنا

% فأكثر97 %97 أقل من % حتى93 %93 أقل من % حتى89

4.00 4.00 3.70

A+ A A-

%89 أقل من % حتى84 %84 أقل من % حتى80 %80 أقل من % حتى76

3.30 3.00 2.70

B+ B B-

%76 أقل من % حتى73 %73 أقل من % حتى70 %70 أقل من % حتى67

2.30 2.00 1.70

C+ C C-

%67 أقل من % حتى64 %64 أقل من % حتى60

1.30 1.00

D+ D

F 0.00 %60أقل من

لطالب كاآلتى:لويتم حساب النقاط والمعدلين الفصلى والتراكمى التى حصل عيھا الطالب فى كل مقرر على أنھا عدد المعدل تحسب نقاط -

طبقا التى حصل عليھا الطالب الساعات المعتمدة للمقرر مضروبة فى النقاط .للجدول السابق

Semester- GPA(المعدل الفصلى)يحسب متوسط نقاط أى فصل دراسى - التى حصل عليھا الطالب فىالمعدل أنه ناتج قسمة مجموع نقاط على

مقسوما على مجموع الساعات المعتمدة لھذه ،ھذا الفصل مقررات المقررات.

Cumulative- GPAى (المعدل التركمى) التراكم يحسب متوسط النقاط -التى المعدل نقاطكل أنه ناتج قسمة مجموع علىفصل دراسى كلفى نھاية

، مقسوما على فى كل المقررات التى درسھا الطالب حصل عليھا الطالب مجموع الساعات المعتمدة لھذه المقررات.

16

) 27مادة ( عم إذا تضمنت درجات أحد المقـررات شقا ليا باإلضافة إلى األعمال أو شفـوياتقدير الطالب يحسب على أساس مجموع ن فإي، متحان التحريرإلالفصلية ودرجات ا

يالدرجات الت ويشترط لكى يعد الطالب ناجحا أن يحصل .حصل عليھا فيھا جميعاحصل فى االمتحان وأن ي % على االقل من مجموع درجات المقرر،60على

،% من درجات التحريرى30على درجات ال تقل عن ھاية الفصل فى نالتحريري يمتحان التحريرإلا ييعتبر الطالب الغائب فكما المقرر وال ترصد له يف غائبا

درجات.

) 28مادة ( يمتحان النھائإلالمقرر إذا تغيب بدون عذر مقبول عن ا يف يعتبر الطـالب راسبا كما Absسم المقرر إويكتب أمام إذا تغيب بعذر مقبول ويكتب أمام أسم يعتبر راسبا

نقاط . يأى من الحالتين على أ ي، وال يحصل ف Eالمقرر

طبقا للمادة لمقرر يللطالب إذا طلب تأجيل اإلمتحان النھائ يال يحسب التقدير الفصل )29مادة (عند اإلنتھاء من حصل عليه الطالب ين التقدير الذويدو Iسم المقرر إويكتب أمام )21(

الرئيسى يأداء اإلمتحان وبحد أقصى فى نھاية األسبوع الثانى من بداية الفصل الدراسسم إتبر راسبا فى المقرر ويكتب أمام يع. وإذا لم يتقدم الطالب لإلمتحان يالتال

.Absالمقرر

يحصل و Fأو Absأو Eعلى الطالب إعادة المقررات التى حصل فيھا على تقدير )30مادة ( المعدلوعند حساب +Bأقصى بحد حققه عند اإلعادة يير الذفيھا على التقد

التراكمى يحتسب للطالب التقدير االخير فقط، على أن تذكر جميع التقديرات التى حصل عليھا الطالب فى سجله االكاديمى.

رض تحسين يجوز للطالب إعادة دراسة بعض المقررات التى سبق نجاحه فيھا بغ )31مادة (عن طريق التسجيل ودفع الرسوم دراسة وامتحانا المعدل التراكمى وتكون اإلعادة

ويحتسب له التقدير الذى حصل عليه فى المرة األخيرة لدراسة المقرر ، المقررة وذلك بحد أقصى خمسة مقررات اال اذا كان التحسين لغرض رفع اإلنذار االكاديمى

يذكر التقديرين فى سجل الطالب األحوالفى جميع و .أو تحقيق متطلبات التخرجوال يؤخذ بتقدير التحسين عند ترتيب الطلبة المتفوقين للتعيين فى احدى االكاديمى

.وظائف المعيدين بالكلية

،بما فيھا المشروع،خطة الدراسة يعلى الطالب اجتياز جميع المقررات المطلوبة ف) 32مادة (وعلى أال يقل المعدل شرط للحصول على درجة البكالوريوسعلى األقل ك Dبتقدير

. 2.00التراكمي للطالب عن

خالل جميع فصول 3.3تمنح مرتبة الشرف للطالب الذي ال يقل معدله التراكمي عن )33مادة (من البرامج ذات الفصلين الدراسة ببرامج الساعات المعتمدة أو عند التحاقه

مقاصة ويشترط لمنح مرتبة الشرف أال يكون الطالب قد بعد عمل الدراسيين وذلك بالكلية أو خارج الكلية. الجامعية في أي مقرر خالل دراسته Fحصل على تقدير

الشروط والضوابط الالزمة لتحويل يكل فصل دراسمجلس إدارة البرامج يحدد ) 34مادة (ية المتخصصة بالكلية أو ونقل قيد الطالب من الكليات األخرى على البرامج العلم

أو من البرامج التى تطرحھا ةيبين البرامج العلمية المتخصصة التى تطرحھا الكل وفقا لما يلى: الكلية بنظام الفصول الدراسية

يجوز التحويل إلى البرامج محل ھذه الالئحة من البرامج التى تطرحھا كلياتالساعات المعتمدة أخرى بنفس النظام، و بشرط عدم نقل أكثر من ثلثى

لمتطلبات التخرج و بعد موافقة مجلسى الكليتين. يالخاصة بالبرامج العلمية المتخصصة المقررات التكميلية التتحدد المجالس

الكلية المحول منھا / أو ييجب على الطالب المحول دراستھا لعدم دراسته لھا ف

17

ات التى يعفى منھا البرنامج العلمى المتخصص المحول منه، كما تحدد المقررالكلية المحول منھا / أو البرنامج العلمى المتخصص المحول يلدراسته لھا ف

. لإلعتمادمجلس إدارة البرامج منه وذلك للعرض على من البرامج بنظام الفصول الدراسية التى تطرحھا الكلية أو الطالب يجوز تحويل

بشرط أن يكون ناجحا الى البرامج بنظام الساعات المعتمدة كليات أخرىبعد إجراء المقاصة بين المقررات ويفضل عدم التحويل بعد السنة االولى وذلك

، بحيث ينقل على الدراسية التى درسھا الطالب ومقررات البرنامج المحول إليهوذلك على األقل)، ستة فصول دراسية اساسية(يدرس خامسللفصل الاألكثر

.حسب الجدول اآلتيج مجلس إدارة البرامبعد موافقة

نظام الساعات المعتمدة نظام الفصلين الدراسيين عدد النقاط التقدير المناظر النسبة المئوية

From 95 to 100% A+ 4.00 From 90 to < 95 A 4.00 From 85 to < 90 A- 3.70 From 80 to < 95 B+ 3.30 From 75 to < 80 B 3.00 From 71 to < 75 B- 2.70 From 68 to < 71 C+ 2.30 From 65 to < 68 C 2.00 From 60 to < 65 C- 1.70 From 55 to < 60 D+ 1.30 From 50 to < 55 D 1.00 From 0 to < 50 F 0.00

البرامج بنظام الىمن البرامج بنظام الساعات المعتمدة الطالب يجوز تحويل

% 60طالما لم يجتاز أو كليات أخرى يةالتى تطرحھا الكل ينالدراسي لينالفصبعد موافقة الجھة المحول وذلك من اجمالى الساعات المعتمدة الالزمة للتخرج

فى نظام الطالب اجتازھابعد إجراء المقاصة بين المقررات الدراسية التى و اليھاالبرنامج المحول إليه حسب لھا فى المكافئة مقررات تحدد الو الساعات المعتمدة

لجدول اآلتي. ا

نظام الفصلين الدراسيين نظام الساعات المعتمدة المناظرة النسبة المئويةالتقدير د النقاطدع

4,00 A+ 98% 4,00 A 93% 3,70 A- 88% 3,30 B+ 83% 3,00 B 78% 2,70 B- 73% 2,30 C+ 70% 2,00 C 67%

18

1,70 C- 63% 1,30 D+ 58% 1,00 D 53% 0,00 F -

ال يجوز تحويل طالب الفصلين الدراسيين المفصولين الستنفاذ مرات الرسوب

الى نظام الدراسة بالساعات المعتمدة.فى السنة االعدادية او السنوات الالحقة ال يجوز تحويل الطالب من نظام الساعات المعتمدة الى نظام الفصلين الدراسيين

الدراسيين عند التحاقه بالكلية. اذا لم يحقق شروط القبول لنظام الفصلين

اذا –يجوز تسجيل بعض الطالب من داخل البرامج كمستمعين في بعض المقررات ) 35مادة (مع سداد الرسوم المقررة وال يحق لھم دخول –توافرت أماكن بتلك المقررات

اإلمتحان النھائي أو الحصول على شھادة بتلك المقررات وال تدخل في حساب . ويجوز تسجيل بعض الطالب من AUتوسط النقاط و يكتب أمام إسم المقرر م

مع سداد –اذا توافرت أماكن بتلك المقررات –خارج البرامج في بعض المقررات الرسوم المقررة، وفي ھذه الحالة يحق للطالب من الخارج طلب استخراج شھادة تفيد

الرسوم المقررة لھذه الشھادة. بحضوره المقرر والتقدير الذي حصل عليه مع سداد

شعبة –عند التحاق أى من الطالب الثالثين اآلوائل فى الثانوية العامة المصرية ) 36مادة (رياضيات ببرامج الساعات المعتمدة ، يعفى من كافة المصروفات الدراسية خالل

لطالب على الفصل الدراسى التالى اللتحاقه ويظل ھذا االعفاء ساريا طالما حصل ا أو اكثر. 3.60معدل تراكمى يساوى

) 37مادة (

) 38مادة (

تضع الكلية نظاما لتشجيع المتفوقين علميا ورياضيا ، ولمراعاة ذوى الحاالت االجتماعية عن طريق تخفيض المصروفات الدراسية بنسب متدرجة مع المعدل

اعية وتعلن فى بداية كل فصل التراكمى والبطوالت الرياضية والحالة االجتمدراسى عن اسماء الطالب المتفوقين المستفيدين ونسب تخفيض المصروفات لكل

طالب.

تحدد عدد الساعات المعتمدة موزعة على نوعية المتطلبات ونوعية المقررات كما يلى (موضحة فى الجداول التالية):

:طبقا لنوعية المتطلبات

لى كل الطالب بالجامعةمتطلبات المقررات العامة ع - متطلبات المقررات المشتركة بين جميع الطالب بالكلية - متطلبات التخصص العام لكل برنامج - متطلبات التخصص الدقيق لكل البرنامج -

:طبقا لنوعية المقررات

العلوم االنسانية - العلوم االساسية -العلوم الھندسية االساسية -

19

العلوم الھندسية التطبيقية والتصميم - طبيقات الحاسب اآللى ونظم المعلوماتت - المشروع -

(%) جدول نوعية المتطلباتمتطلبات كود البرنامج البرنامج

الجامعةمتطلبات التخصص متطلبات الكلية

العاممتطلبات التخصص

الدقيقهندسة الغاز والبتروكيماويات

GPE 11.24 26.97 25.28 26.4

هندسة وعلوم المواد

MSE 11.5 26.5 24.5 30.5

الهندسة الكهروميكنيكية

EME 11.11 26.67 25 27.2

هندسة العمارة والتشييد

CAE 11.11 26.67 25.56 25.56

هندسة الحاسبات واالتصاالت

CC 11 27.5 25.5 24

هندسة منصات البترول البحرية وهندسة الشواطئ

OCE 11 27 28 34

NARS (appr.)

20% 25% 25% 30%

البرنامج يرمز الى مسمى البرنامج باللغة االنجليزية: كود

1- Gas and Petrochemical Engineering (GPE). 2- Materials Science and Engineering (MSE). 3- Electromechanical Engineering (EME). 4- Architectural and Construction Engineering (CAE). 5- Computer and Communications Engineering (CC). 6- Offshore and Coastal Engineering (OCE).

20

(%) جدول نوعية المقرراتالعلوم الهندسية العلوم االساسية العلوم االنسانية البرنامج

االساسيةالعلوم الهندسية

التطبيقية والتصميم

تطبيقات الحاسب االلى

ونظم المعلومات

المشروع

ز هندسة الغا والبتروكيماويات

11.24 26.97 25.2 26.4 3.37 3.9

هندسة وعلوم المواد

11.5 15 11.5 30.5 1.7 4.6

الهندسة نيكيةاالكهروميك

11.11 26.5 25 27.22 3.33 3.9

هندسة العمارة والتشييد

11.11 26.67 25.56 25.56 3.33 7.22

هندسة الحاسبات واالتصاالت

11 14 27 24 3.9 5.56

هندسة منصات البترول البحرية وهندسة الشواطئ

11 20 24 25 7 6

21

الثالثالباب

خطط الدراسة للبرامج

.غاز والبتروكيماوياتالبرنامج ھندسة - 1 برنامج ھندسة وعلوم المواد. - 2 .برنامج الھندسة الكھروميكانيكية - 3 التشييد.العمارةوبرنامج ھندسة - 4

تصاالت.إلدسة الحاسبات وابرنامج ھن - 5 ھندسة منصات البترول البحرية وھندسـة الشواطئ.برنامج - 6

22

1-PROPOSED STUDY PLAN FOR THE GAS AND PETROCHEMICALS ENGINEERING PROGRAM

Code Fall Credit Hours

Lec Tut Lab Tot Code Spring Credit Hours

Lec Tut Lab Tot Le

vel-

0

MP101 Mathematics I 3 3 1 - 4 MP102 Mathematics II 3 2 2 1 5 MP103 Mechanics I 3 3 1 - 4 MP104 Mechanics II 3 3 1 - 4 MP105 Engineering Graphics I 3 2 2 1 5 MP106 Engineering Graphics II 3 2 3 - 5 HS102 Human Rights 1 1 - - 1 PE102 Production Engineering 3 2 1 2 5 GPE101 Engineering Chemistry 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 MP107 Physics I 3 2 1 2 5 MP108 Physics II 3 2 2 1 5 HS101 English Language 2 2 - - 2 HS103 History of Engineering Sciences 1 1 - - 1

18 15 6 5 26 19 14 10 6 30

Leve

l-1

MP201 Mathematics (III) 3 3 1 0 4 MP202 Mathematics (IV) 3 3 1 0 4 GPE205 Physical Chemistry 3 3 0 1 4 EME203 Thermodynamics I 3 2 2 0 4 GPE203 Organic Chemistry I 3 3 0 1 4 GPE204 Organic Chemistry II 3 3 0 1 4 GPE211 Fundamentals of Mass Balance 3 3 1 0 4 GPE212 Fundamentals of Energy Balance 3 3 1 0 4 GPE201 Principles of Materials Science and

Engineering 3 3 0 1 4 EME206 Fluid Mechanics I 3 2 2 1 5

HS201 Technical Writing 2 2 0 0 2 HS202 Engineering Economics 2 2 0 0 2 17 17 2 3 22 17 15 6 2 24

Leve

l-2

MP301 Probability and Statistics for Engineers 3 2 2 0 4 GPE313 Heat Transfer 3 3 1 0 4 GPE301 Principles of Polymer Eng. & Science 3 3 1 0 4 GPE315 Engineering Metallurgy 3 3 0 1 4 GPE311 Separation Processes I 4 3 2 1 6 GPE312 Separation Processes II 4 3 2 1 6 GPE 321 Applied Thermodynamics 3 3 1 0 4 MP314 Numerical Methods 3 2 1 2 5 EME207 Electric Circuits 3 2 2 1 5 ELE Elective (1) 3 3 1 0 4 HS301 Project Management 2 2 0 0 2 HS302x Humanities 2 2 0 0 2 18 15 8 2 25 18 16 5 4 25

Leve

l-3

GPE401 Introduction to Natural Gas Engineering 3 3 1 0 4 GPE422 Petrochemical Industries I 3 3 1 0 4 GPE421 Kinetics and Reactions Engineering 4 3 2 1 6 GPE424 Natural Gas Treatment and Purification 3 3 1 0 4 GPE423 Petroleum Refining Engineering 3 3 0 1 4 GPE412 Mechanical Unit Operations 4 3 2 1 6 GPE413 Corrosion Engineering 3 3 0 1 4 GPE426 Modeling and Simulation 3 2 2 1 5 ELE Elective (2) 3 3 1 0 4 ELE Elective (3) 3 3 1 0 4 HS401 Law and Engineering Ethics 2 2 0 0 2 HS402x Humanities 2 2 0 0 2 18 17 4 3 24 18 16 7 2 25

Leve

l-4

GPE521 Petrochemical Industries II 3 3 1 0 4 GPE522 Natural Gas Liquefaction 3 3 1 0 4 GPE523 Hazardous Process & Safety Engineering 3 3 1 0 4 GPE524 Process Design 3 3 1 0 4 GPE525 Process Dynamics and Control 3 2 2 1 5 ELE Elective (5) 3 3 1 0 4 ELE Elective (4) 3 3 1 0 4 ELE Elective (6) 3 3 1 0 4 GPE551 Project I 3 1 2 3 6 GPE552 Project II 4 2 1 4 7 HS501x Humanities 2 2 0 0 2 HS502x Humanities 2 2 0 0 2

17 14 7 4 25 18 16 5 4 25

Credits Distribution (%): University 20 (11.24%), Faculty 48 (26.97%), Principal 45 (25.28%), Core 47 (26.4%), Elective 18 (10.11%) Total: 178 Credit Hours

23

2- PROPOSED STUDY PLAN FOR THE MATERIALS SCIENCE AND ENGINEERING PROGRAM

Fall Credit Hours

Lec Tut Lab Tot Spring Credit Hours

Lec Tut Lab Tot

Leve

-0

MP101 Mathematics-1 3 3 1 0 4 MP102 Mathematics-2 3 2 2 1 5 MP103 Engineering Mechanics-1 3 3 1 0 4 MP104 Engineering Mechanics-2 3 3 1 0 4 MP105 Engineering Graphics-1 3 2 2 1 5 MP106 Engineering Graphics-2 3 2 3 0 5 GPE101 Engineering Chemistry 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 MP107 Physics-1 3 2 1 2 5 MP108 Physics-2 3 2 2 1 5 HS101 English Language 2 2 0 0 2 PE102 Production Engineering 3 2 1 2 5 HS102 Human Rights 1 1 0 0 1 HS103 History of Engineering Sciences 1 1 0 0 1

18 15 6 5 26 19 14 10 6 30

Leve

l-1

MP201 Mathematics III 3 2 2 0 4 MP202 Mathematics IV 3 2 2 0 5

MSE201 Principles of Material Science and Engineering 3 2 2 2 6 EME207 Electric circuits 3 2 2 1 5

GPE203 Organic Chemistry I 3 2 2 2 6 MSE202 Strength of Materials I 3 2 1 1 4 HS201 Technical Writing 2 2 0 0 2 EME206 Fluid Mechanics I 3 2 2 1 5 MSE203 Properties of Materials I 3 2 1 2 5 MSE204 Engineering Metallurgy 3 2 2 2 6 MSE205 Structural composition of Materials I 3 2 0 2 4 HS 202 Engineering Economics 2 2 0 0 2 17 12 7 8 27 17 12 9 5 26

Leve

l-2

MP301 Probability & Statistics for Engineers 3 2 2 0 4 MSE302 Characterization of Materials 3 2 0 3 5

MSE301 Modern Physics 3 2 3 0 5 MSE304 Strength of Materials II 3 2 3 0 5 MSE303 Ceramic Materials 3 2 0 3 5 MSE306 Polymer Engineering 3 2 2 1 5 EME203 Thermodynamics I 3 2 2 0 4 MP314 Numerical Methods 3 2 1 2 5 MSE305 Electronic & Microwaves Measurements 3 2 2 1 5 MSE308 Technology of Fibers & Tissues 3 2 2 1 5

HS301 Project Management 2 2 0 0 2 HS302x Humanities (Elective) 2 2 0 0 2 17 12 9 4 25 17 12 8 7 27

Leve

l-3

MSE401 Plasticity & Material Forming 3 2 3 0 5 MSE402 Design of Materials (1) 3 2 2 1 5 MSE403 Composite Materials 3 2 0 3 5 MSE404 Processing of Composite Materials 3 2 0 3 5 ELE1 (Elective) 3 2 3 0 5 GPE413 Corrosion Engineering 3 2 2 2 6 MSE405 Computational Methods for Material Science 3 2 0 3 5 MSE408 Electrical, Optical & Magnetic Materials 3 2 2 1 5 ELE2 (Elective) 3 2 0 3 5 ELE3 (Elective) 3 2 0 3 5

HS 401 Law & Engineering Ethics 2 2 0 0 2 HS402x Humanities (Elective) 2 2 0 0 2 17 12 6 9 27 17 12 6 10 28

Leve

l-4

MSE501 Failure Theories of Materials 3 2 0 3 5 MSE502 Fracture Mechanics 3 2 0 3 5 MSE503 Smart Materials 3 2 3 0 5 MSE504 Nanomaterials 3 2 3 0 5 ELE4 (Elective) 3 2 3 0 5 MSE506 QC of Materials & Processes 3 2 3 0 5 MSE505 Design of Materials II 3 2 3 0 5 HS502x Humanities (Elective) 2 2 0 0 2 HS501x Humanities (Elective) 2 2 0 0 2 MSE508 Thermal Materials 3 2 3 0 5 MSE551 Project I 4 2 5 0 7 MSE552 Project II 4 2 5 0 7 18 12 14 3 29 18 12 14 3 29 Humanities: 20 Credits (11.5%) Basic Sciences: 27 Credits (15%) Basic Engineering: 20 Credits (11.5%) Core Program Courses 107 credits (62%)

- Principal 42 Credits (24.5%) - Applied: - Compulsory 53 Credits (30.5%) - Electives 12 Credits (7%) TOTAL PROGRAM CREDITS: 174 Credits

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3- Proposed Study Plan for the Electromechanical Engineering Program Fall Cr. Hrs Lec Tut Lab Tot Spring Cr. Hrs Lec Tut Lab Tot

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MP101 Mathematics I 3 3 1 0 4 MP102 Mathematics II 3 2 2 1 5 MP103 Mechanics I 3 3 1 0 4 MP104 Mechanics II 3 3 1 0 4 MP105 Engineering Graphics I 3 2 2 1 5 MP106 Engineering graphics II 3 2 3 - 5 GPE101 Engineering Chemistry 3 2 1 2 5 PE102 Production Engineering 3 2 1 2 5 MP107 Physics I 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 HS102 Human Rights 1 1 0 0 1 MP108 Physics II 3 2 2 1 5 HS101 English language 2 2 0 0 2 HS103 History of Engineering Sciences 1 1 - - 1 18 15 6 5 26 19 14 10 6 30

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MP201 Mathematics III 3 3 1 0 4 MSE202 Strength of Materials I 3 2 1 1 4 EME201 Machine Drawing 3 2 0 3 5 EME204 Logic Circuits and Microprocessors 3 2 1 1 4 EME203 Thermodynamics I 3 2 2 0 4 EME206 Fluid Mechanics I 3 2 2 1 5 EME205 Properties and Testing of Electro Mechanical

Materials 3 2 1 1 4 MP202 Math IV 3 3 1 0 4

EME207 Electric Circuits 3 2 2 1 5 EME208 Analysis and Simulation of Electric Circuits

3 2 1 1 4

EME209 Electrical Measurements and Instrumentation 3 2 1 2 5 EME210 Electronic Devices and Circuits 3 2 2 1 5 HS201 Technical Writing 2 2 0 0 2 HS202 Engineering Economics 2 2 0 0 2 20 15 7 7 29 20 15 8 5 28

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EME301 Fluid Mechanics II 3 2 2 1 5 EME302 Thermodynamics II 3 2 3 0 5

EME303 Mechanics of Machinery 3 2 2 0 4 EME304 Mechanical Vibrations 3 2 2 0 4 EME307 Heat Transfer 3 2 2 1 5 EME306 Industrial Electronics 3 2 2 2 6 EME309 Electrical Power Systems 3 2 2 1 5 EME308 Electrical Machines 3 2 2 2 6 EME311 Design of Mechanical Systems 3 2 2 0 4 EME310 Theory of Combustion 3 2 2 1 5

HS301 Project Management 2 2 0 0 2 HS302x Humanities 2 2 0 0 2 17 12 10 3 25 17 12 11 5 28

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EME401 Thermal Power Plants 3 2 2 1 5 EME402 Internal Combustion Engines 3 2 2 1 5 EME403 Fluid Machinery 3 2 2 1 5 EME404 Protection of Electromechanical 3 2 2 0 4 EME405 Automatic Control of Electromechanical 3 2 2 1 5 EME406 Electromechanical Drives 3 2 2 1 5 EME407 Measuring Systems and Data Acquisition 3 2 1 2 5 ELE Elective II 3 2 2 1 5 ELE Elective 1 3 2 2 1 5 ELE Elective III 3 2 2 1 5

HS401 Law & Engineering Ethics 2 2 0 0 2 HS402x Humanities 2 2 0 0 2

17 12 9 6 27 17 12 10 4 26

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EME501 Safety of Electromechanical Systems 3 2 2 1 5 EME502 Computer Applications in Industry 3 2 1 2 5 EME503 Solid State Drives 3 2 2 2 6 ELE Elective V 3 2 2 1 5 ELE Elective IV 3 2 2 1 5 EME504 Refrigeration and Air Conditioning 3 2 2 1 5 EME505 Fluid Power Systems 3 2 2 1 5 ELE Elective VI 3 2 2 1 5 HS501x Humanities 2 2 0 0 2 HS502x Humanities 2 2 0 0 2 EME507 Project I 3 3 0 1 4 EME508 Project II 4 4 0 1 5 17 13 8 5 27 18 14 7 6 27

Credits Distribution (%): University 20 (11.11%),Faculty 48 (26.67%), Principal 45(25%), Core 49 (27.22%), Elective 20 (10%)Total: 180 Credit Hours

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4- PROPOSED STUDY PLAN FOR ARCHITECTURAL AND CONSTRUCTION ENGINEERING PROGRAM

Fall Credit Hours Lec Tut Lab Tot Spring Credit

Hours Lec Tut Lab Tot

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MP101 Mathematics-1 3 3 1 0 4 MP102 Mathematics-2 3 2 2 1 5 MP103 Engineering Mechanics-1 3 3 1 0 4 MP104 Engineering Mechanics-2 3 3 1 0 4 MP105 Engineering Graphics-1 3 2 2 1 5 MP106 Engineering Graphics-2 3 2 3 0 5 GPE101 Engineering Chemistry 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 MP107 Physics-1 3 2 1 2 5 MP108 Physics-2 3 2 2 1 5 HS101 English Language 2 2 0 0 2 PE102 Production Engineering 3 2 1 2 5 HS102 Human Rights 1 1 0 0 1 HS103 History of Engineering Sciences 1 1 0 0 1

18 15 6 5 26 19 14 10 6 30

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CAE201 Structural Analysis-1 3 2 2 0 4 CAE206 Engineering Material & Stress Analysis 3 2 2 1 4 CAE202 Construction Surveying 3 2 1 2 5 MP202 Mathematics-4 3 3 1 0 4 MP201 Mathematics-3 3 3 1 0 4 CAE207 Construction Materials-1 3 2 1 2 5 CAE203 History and theory of Architecture-1 2 2 0 0 2 HS202 Engineering Economics 2 2 0 0 2 HS201 Technical Writing 2 2 0 0 2 CAE208 Visual Design 3 2 2 0 4 CAE204 Architectural Drafting 2 0 6 0 6 CAE209 Environment-1 (Climate & Environment) 2 2 0 0 2 CAE205 Building Technology 3 2 3 0 5 CAE210 Architectural Design Fundamentals 3 0 9 0 9 18 13 13 2 28 19 13 14 3 30

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CAE301 Structural Analysis-2 3 2 2 0 4 CAE307 Design Studio-2 3 0 11 0 11 CAE302 Design Studio-1 3 0 11 0 11 CAE308 History and Theory of Architecture-2 2 2 0 0 2 HS301 Project Management 2 2 0 0 2 CAE309 Elective Course-1 3 2 2 0 4 CAE303 Hydraulics for Civil Engineers 3 2 2 0 4 CAE310 Soil Mechanics 3 2 2 1 5 CAE304 Transportation Engineering & Urban planning 3 2 2 0 4 HS302x Elective Course-2 2 2 0 0 2 CAE305 Construction Management-1 2 2 0 0 2 CAE311 Tender-1 (Cost Estimation & Control) 2 2 0 0 2 CAE306 Construction Engineering Drawings 3 2 2 1 5 CAE312 Urban Design and Landscape 3 2 2 0 4 19 12 19 1 32 18 12 17 1 30

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CAE401 Design of R.C. Structures-1 3 2 2 0 4 CAE406 Theory of Architecture-1 2 2 0 0 2

CAE402 Environment-2 (Environmental & Sanitary Engineering) 3 2 2 0 4 CAE407 Design of Foundations & Retaining Structures 3 2 2 0 4

CAE403 Methods & Equipment for Construction-1 3 2 2 0 4 CAE408 Design of R.C. Structures-2 3 2 2 0 4 HS401 Law and Engineering Ethics 2 2 0 0 2 EME212 Environment-3 (Fund. of Mech. & Elec. System) 3 2 2 0 4 CAE404 Design of Metallic Structures-1 3 2 2 0 4 CAE410 Computer Applications in Construction Eng. 3 2 0 4 6 CAE405 Design studio-3 3 0 11 0 11 CAE411 Elective Course-3 3 2 2 0 4 17 10 19 0 29 17 12 8 4 24

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CAE501 Elective Course-4 3 2 2 0 4 CAE 505 Methods & Equipment for Construction-2 3 2 2 0 4 CAE502 Theory of Architecture-2 2 2 0 0 2 CAE 506 Quality Control, and Repair of Structures 3 2 2 0 4 HS501x Elective Course-5 2 2 0 0 2 CAE 507 Elective Course-8 3 2 2 0 4 CAE503 Elective Course-6 3 2 2 0 4 CAE 508 Elective Course-9 3 2 2 0 4 HS502x Elective Course-7 2 2 0 0 2 CAE 509 Elective Course-10 2 2 1 0 3 HS503x Elective Course-11 2 2 0 0 2 CAE 510 Project-2 4 2 6 0 8 CAE504 Project-1 3 2 4 0 6 17 14 8 0 22 18 12 15 0 27

University Requirements: 11.11% Faculty Requirements: 26.67% Principal Courses: 25.56% Core Courses: 25.56% Elective Courses: 11.11%

Total: 180 credit hours

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5-PROPOSED STUDY PLAN FOR COMPUTER AND COMMUNICATIONS ENGINEERING PROGRAM

Code Fall Credit Hours

Lec Tut Lab Tot Code Spring Credit


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MP101 Mathematics I 3 3 1 - 4 MP102 Mathematics II 3 2 2 1 5 MP103 Mechanics I 3 3 1 - 4 MP104 Mechanics II 3 3 1 - 4 MP105 Engineering Graphics I 3 2 2 1 5 MP106 Engineering Graphics II 3 2 3 - 5 HS102 Human Rights 1 1 - - 1 PE102 Production Engineering 3 2 1 2 5 GPE101 Engineering Chemistry 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 MP107 Physics I 3 2 1 2 5 MP108 Physics II 3 2 2 1 5 HS101 English Language 2 2 - - 2 HS103 History of Engineering Sciences 1 1 - - 1 18 15 6 5 26 19 14 10 6 30

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MP201 Mathematics III 3 3 1 - 4 MP202 Mathematics IV 3 3 1 - 4 CC271 Programming I 3 3 - 1 4 CC331 Signals and Systems 3 3 1 - 4 MP204 Modern Physics 3 2 2 1 5 CC202 Electrical Circuit II 3 2 2 1 5 EME207 Electrical Circuits I 3 2 2 1 5 CC212 Digital Logic Circuits I 3 2 1 2 5 MP301 Probability and Statistics for Eng. 3 2 2 - 4 CC273 Data Structure I 3 3 - 1 4 CC181 Discrete Structures for

Computing 3 3 1 - 4 HS201 Technical Writing 2 2 - - 2

HS301 Project Management 2 2 - - 2 20 17 8 3 28 17 15 5 4 24

9

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CC361 Control Systems 3 3 1 - 4 CC376 Data Structure II 3 3 - 1 4 CC272 Programming II 4 3 2 1 6 CC332 Digital Signal Processing 3 3 1 - 4 CC301 Electronic Circuit Analysis 3 2 2 1 5 CC372 Systems Programming 3 3 1 - 4 CC312 Digital Logic Circuits II 3 2 1 2 5 CC421 Microprocessors Systems 3 3 - 1 4 CC321 Computer Organization 3 3 1 - 4 CC322 Computer Architecture 3 3 1 - 4 HS401 Law and Engineering Ethics 2 2 - - 2 HS202 Engineering Economics 2 2 - - 2 18 15 7 4 26

8 17 17 3 2 22

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CC441 Analog Communication Theory 3 2 2 1 5 CC471 Database Systems 4 3 1 1 5 CC371 Analysis and Design of Algorithms 3 3 1 - 4 CC461 Embedded Systems 3 3 - 1 4 CC373 Operating Systems 3 2 2 1 5 CC442 Digital Communications 3 2 2 1 5 CCxxx Elective (1) 3 3 1 - 4 CC451 Computer Networks 4 3 1 1 5 CCxxx Elective (2) 3 3 1 4 CCxxx Elective (3) 3 3 1 4 HSxxx Humanities 2 2 - - 2 HSxxx Humanities 2 2 - - 2 17 15 7 2 24 19 16 5 4 25

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CC541 Communication Systems 3 2 2 1 5 CC551 Computer and Network Security 3 3 1 - 4 CC552 Net-Centric Computing 3 3 1 - 4 CC581 Performance Evaluation 3 3 1 - 4 CCxxx Elective (4) 3 3 1 - 4 CCxxx Elective (6) 3 3 1 - 4 CCxxx Elective (5) 3 3 1 - 4 CCxxx Elective (7) 3 3 1 - 4 HSxxx Humanities 2 2 - - 2 HSxxx Humanities 2 2 - - 2 CC591 Senior Project I 3 2 2 - 4 CC592 Senior Project II 4 3 1 1 5 17 15 71 23 18 17 51 3 6 23

0 University Requirements: 11 % Faculty Requirements: 27.5% Principal Courses: 25.5% Core Courses: 24% Elective Courses: 12%

Total: 180 credit hours

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6- PROPOSED STUDY PLAN FOR OFFSHORE AND COASTAL ENGINEERING PROGRAM

Fall Credit Hours Lec Tut Lab Tot Spring Credit


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MP101 Mathematics I 3 3 1 0 4 MP102 Mathematics II 3 2 2 1 5 MP103 Mechanics I 3 3 1 0 4 MP104 Mechanics II 3 3 1 0 4 MP105 Engineering Graphics I 3 2 2 1 5 MP106 Engineering Graphics II 3 2 3 0 5 GPE101 Engineering Chemistry 3 2 1 2 5 PE102 Production Engineering 3 2 1 2 5 MP107 Physics I 3 2 1 2 5 CSE102 Computer Programming 3 2 1 2 5 HS101 English Language 2 2 0 0 2 MP108 Physics II 3 2 2 1 5 HS102 Human Rights 1 1 0 0 1 HS103 History of Engineering Sciences 1 1 - - 1 18 15 6 5 26 19 14 10 6 30

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MP201 Mathematics III 3 3 1 0 4 MP202 Mathematics IV 3 3 1 0 4 EME206 Fluid Mechanics I 3 2 2 2 6 EME203 Thermodynamics I 3 2 2 2 6 OCE211 Buoyancy and Stability 3 2 2 1 5 OCE213 Marine Hydraulics 3 2 1 2 5 OCE212 Civil and Marine Drawing 3 2 2 0 4 OCE222 Marine Structural Analysis I 3 2 2 0 4 MSE201 Principles of Material Science and Engineering 3 2 1 2 5 CSE 202 Advanced Programming and Applications 3 2 0 4 6 HS201 Technical Writing 2 2 0 0 2 HS202 Engineering Economics 2 2 0 0 2 17 13 8 5 26 17 13 6 8 27

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MP301 Probability and Statistics for Engineers 3 2 2 0 4 OCE302 Harbor Planning and Coastal Structures 4 3 2 0 5 OCE301 Marine Foundations 4 3 1 2 6 OCE303 Marine Structural Analysis II 3 2 2 1 5 OCE311 Water Wave Theory 3 2 2 1 5 OCE312 Marine Machinery and Systems 3 2 2 0 4 OCE323 Marine Hydrodynamics I 3 2 2 0 4 OCE304 Introduction to Oceanography 3 2 0 2 4 EME207 Electric Circuits 3 2 2 1 5 OCE3E1 Elective Course (1) 3 2 2 0 4 HS301 Project Management 2 2 0 0 2 HS3E2 Elective Course (2) 2 2 0 0 2 18 13 9 4 26 18 13 8 3 24

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OCE401 Advanced Coastal Structures I 3 2 2 0 4 OCE424 Marine Hydrodynamics II 3 2 2 1 5 OCE402 Sediment Transport and Littoral Processes 3 2 2 1 5 OCE422 Construction of Marine and Offshore Structures 3 3 0 0 3 OCE413 Measurements and Control Systems 4 3 1 2 6 OCE403 Design of Reinforced Concrete and Steel

Structures 4 3 2 0 5

OCE421 Introduction to Offshore Engineering 3 3 0 0 3 OCE423 Physical Modeling 3 2 2 0 4 OCE4E3 Elective Course (3) 3 2 2 0 4 OCE4E4 Elective Course (4) 3 2 2 0 4 HS401 Law and Engineering Ethics 2 2 0 0 2 HS4E5 Elective Course (5) 2 2 0 0 2 18 14 7 3 24 18 14 8 1 23

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OCE501 Offshore Oil and Gas Production 3 3 0 0 3 OCE502 Surveying in the Marine Field 3 2 2 1 5 OCE511 Design of Offshore Platforms 3 2 2 0 4 OCE512 Marine Production Technology 3 3 0 0 3 OCE534 Computer Applications in the Marine Field 3 2 2 0 4 OCE5E8 Elective Course (8) 3 2 2 0 4 OCE5E6 Elective Course (6) 3 2 2 0 4 OCE5E9 Elective Course (9) 3 2 2 0 4 OCE551 Project I 3 1 2 3 6 OCE552 Project II 4 1 3 6 10 HS5E7 Elective Course (7) 2 2 0 0 2 HS5E10 Elective Course (10) 2 2 0 0 2 17 12 8 3 23 18 12 9 7 28

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Humanities and Social Sciences 20 Credits (11%) Elective Courses 26 Credits (15%) Mathematics and Basic Sciences 36 Credits (20%) Basic Engineering Sciences 42 Credits (24%) Applied Engineering and Design 45 Credits (25%) Computer Applications and ICT 13 Credits (7%) Projects and Practice 10 Credits (6%) Institution Character-Identifying Subjects 12 Credits (7%) Total: 178 Credits

29

رابعالباب ال

المحتوى العلمي للمقررات الدراسية

30

القسم األول

متطلبات الجامعة

University Requirements

31

LIST OF COURSES

1) Compulsory Courses

Code Course Title Credit Hours

HS101 English Language 2 HS102 Human Rights 1 HS103 History of Engineering Sciences 1 HS201 Technical Writing 2 HS202 Engineering Economics 2 HS301 Project Management 2 HS401 Law and Engineering Ethics 2 Total 12

2) Elective Courses (Student selects four courses from the following)


HS302a Human Resource Management 2 HS302b Strategic Management 2 HS302c Computer and Society 2 HS302d Accounting 2 HS402a Foundations of Marketing 2 HS402b Introduction to Finance 2 HS402c Human Computer Interaction 2 HS501a Specifications and Feasibility Studies 2 HS501b Analytical Skills and Critical Thinking 2 HS501c Communication Laws and Codes 2 HS501d Construction Contracts and Law 2 HS502a Professional Communication Skills 2 HS502b Principles of Industrial Health 2 HS502c Social Risks and Security of Computer Systems 2

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COURSES DESCRIPTION HS101 English language 2(2,0,0) A review of grammar rules and composition mechanisms, some composition rules, active sentences and their characteristics, most common mistakes in writing technical English sentences, making paragraph and main ideas, types of paragraphs, reading and analyzing some parts of technical writing in various engineering fields to improve communicating skills . HS102 Human Rights 1(1,0,0) The general theory of human rights, Definitions of human rights, Egyptian and international laws, Islamic legislature, Nature of human rights, Recognition of Human rights, Resources of human rights, Types of human rights: Freedom of bodies – Freedom of ideas, Economical rights, Social rights, Protection of human rights: Legislature protection, Legal Protection, Administration Protection, Syndicative protection, Constitutional and Administrational legacy. HS103 History of Engineering Sciences 1(1,0,0) Definition of Art, Science, Engineering and Technology, Development of civilizations and their relation with natural sciences and humanities, history of technology and engineering in different disciplines , Historical relation between science and technology, the relation between engineering development and the development of environment socially and economically, examples of the development of Engineering activities HS201 Technical Writing2(2,0,0) Types of reports, contents of reports, reduced reports, detailed reports, importance and object of reports, text writing, means of graphs representation, means used for representation of report writing principles of speech, types and contents of representation screens for speech, means of research references, references, training on writing the technical reports and speech. HS202 Engineering Economics 2(2,0,0) Principles of Economics, Economical Analysis, Cost estimation, Comparison between alternatives, Present worth method, Future worth, Depreciation, Taxes, Inflation, Risk and uncertainty, Introduction to Engineering cost analysis and budgeting. HS301 Project Management 2(2,0,0) Project Planning, Scheduling, and control, Project activities and network construction, Critical path method, PERT, Introduction to Resource scheduling, Project Economy. HS302a Human Resource Management 2(2,0,0) Recruitment and maintenance of the labor force within an organization, Tools and techniques, Selection, Training and Development, Performance appraisal, Wage and salary administration, Unions, Human resource planning and forecasting. HS302b Strategic Management 2(2,0,0) Analytical methods for strategic management, Factors characterizing and encouraging innovation, Managing and integrating new technology into the strategic process, Case studies analyzing and demonstrating the several elements of strategic management of technology.

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HS302c Computers and Society 2(2,0,0)

History of computing and the information industry, Social context of computing, Economic issues in computing , Intellectual property, Copyright, patents, trade secrets issues, Professional and ethical responsibilities, Codes of ethics, Current trends of computer applications in industry and management, Impact of information revolution on the society, e-society, e-business, e-commerce and e-government. HS302d Accounting 2 (2, 0, 0) Basic accounting concepts: Accounting Terms and Assumptions, Accounting Methodology: balance sheet, income statement, cash flow statement. Income Determination: Cash Effects, Basis of Accounting. Accounting ratio – measuring the performance – cost concepts – cost accumulation – cost allocation – cost/volume/profit analysis – budgets – forecasting. Cost Accounting. HS401 Law and Engineering Ethics 2(2,0,0) Definition of law and its duties, Principles and regulations of statutes, Highlights on the civil law(general principles with emphasis on contracts and compensations), Highlights on criminal law (criminal responsibility on the engineer as a professional), Highlights on the laws of syndicates (responsibilities, disciplines, charter of honor), Highlight on the law of enterprises (foundation, individual enterprises, incentive and guarantee for the investment), Highlight on the laws of taxes and their types, Highlights on law of environment protection, Investigation and litigation. Scope and objectives of the ethics of the engineering profession, Theories for duties and rights, Nature of the engineering professions (experimentation, safety, risk and carelessness), Professional behavior, Responsibilities towards customers and supervisors, Rules, Rights of Engineers, Codes of Ethics, Engineers as Managers, Consultants and Leaders HS402a Foundations of Marketing 2(2,0,0) Definition of marketing, Objective of marketing systems, Hierarchy of marketing systems, Role of marketing for the economic unit with planning strategy, Concepts and practices in strategic marketing, Process of marketing, Marketing information system, 4 ”P´s” of marketing(product, price, place, promotion), Consumer markets and purchasing behavior, Pricing strategy, Marketing channels, Communication marketing means: advertising and promotion. HS402b Introduction to Finance 2(2,0,0) Principles of investments, Financial analysis of corporate projects, Cost of capital, and Capital structure and financing policies. HS402c Human Computer Interaction 2(2,0,0) History and overview, Foundations of human-computer interaction, Graphical user interface, I/O technologies, Human-centered software evaluation, Human-centered software development, Interactive graphical user-interface design, Graphical user-interface programming. HS501a Specifications and Feasibility Studies 2(2,0,0) Methods for retrieving quantities, methods for accounting and cost analysis, Preparation of quotations, Preparation of conditions and specifications, Applications and case studies, Management: basics types of projects. Definition of feasibility study, Project development procedure, Project-environment relation, Basic feasibility studies (marketing, regulation, environment, and technical) Comparison of alternatives, Economical analysis, Project evaluation, Applications. HS501b Analytical Skills and Critical Thinking 2(2,0,0) Evaluation of reasoning, Recognition and evaluation of assumptions, Clarification of expressions and ideas, Production of pieces of reasoning appropriate to given task, Identification of reasons and explanations,

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Ethical concepts, Complex issues, Ethical problems facing leaders, Ethical outcomes in the corporate-level decision making process, Identification of the ethical dimension in the process of formulating and implementing engineering policies and strategies. HS501c Communication Laws and Codes 2(2,0,0) Codes for communication and electronic commerce activities. Laws and codes for intellectual rights for communications, internet and electronic signature. Laws and rules concerning the use of electronic equipment. Safety rules for communication systems and electronic equipment. Rules and conditions for installing mobile base stations. Laws and rules of communication regularization authorities HS501d Construction Contracts and Law 2 (2, 0, 0) Principles and basics of construction contorting. Types of construction contracts, selection of construction contract, Contract documents, example of some international contract forms, project delivery systems, introduction to building and construction law, Legal aspects associated with construction projects, Claims. HS502a Professional Communication Skills 2(2,0,0) Communication as a tool, Developing and maintaining open channels of communication, Reading: understanding the written word. Writing: conveying a clear message through written communication. Listening: active participation in the listening process to ensure the total sharing of meaning. Speaking: conveying a clear and effective message through the spoken word. HS502b Principles of Industrial Health 2(2,0,0) Principles of protecting health of workers, Environmental and chemical monitoring, Risk assessment and occupational epidemiology; Elements of physiology and toxicology. HS502c Social Risks and Computer Security 2(2,0,0) Social implication of networked communication and the Internet, Risks and liabilities of safety-critical systems, Privacy and civil liberties, Computer crimes, Economic issues in computing , Methods and tools for safety and security.

35

متطلبات الكلية

Faculty Requirements

36

FACULTY REQUIREMENTS

a- Basic Sciences

Code Course Name Credit Hours

MP101 Mathematics I 3 MP102 Mathematics II 3 MP201 Mathematics III 3 MP202 Mathematics IV 3 MP107 Physics I 3 MP108 Physics II 3 MP103 Mechanics I 3 MP104 Mechanics II 3 GPE101 Engineering Chemistry 3

TOTAL 27

b- Basic Engineering (18-21 credit hours for each program)


MP105 Engineering Graphics I 3 MP106 Engineering Graphics II 3 CSE102 Computer Programming 3 PE102 Production Engineering 3 EME203 Thermodynamics I 3 EME207 Electric Circuits 3 EME206 Fluid Mechanics I 3 EME212 Fundamentals of Electrical and Mechanical

Engineering in Construction 3

CAE201 Structural Analysis-1 3

37

COURSE DESCRIPTION

MP101 Mathematics I 3(3,1,0) Calculus of integration and differentiation: Functions, limits and continuity, algebraic and periodic functions, calculating differentials, inverse functions, parametric forms, Leibniz theory, Maclaurin's and Taylor's expansions, the mean value of curvature theory, inverse differentials. Linear algebra: matrices, algebraic operations on matrices, hermetian and orthogonal matrices, ordinary operations, ordinary matrices, equivalence of matrices, graded matrix, systems of linear equations, rank of a matrix, eigenvalues and Cayley-Hamilton theory, linear spaces, binomial theory, partial fractions.

MP102 Mathematics II 3(2,2,1) PrerequisiteMP101 Mathematics I Calculus of integration and differentiation: Methods of integration, applications of definite integration ( areas, volumes, circular surfaces, length of curvature, central points) first order ordinary differential equations, introduction to probability theory: sample space, probability axioms, some basic theories, counting methods, conditional probability, random variables, mathematical expectation, some discrete and continuous distributions, Analytical geometry : shifting and rotating of axes, conic sections and their specifications : parabola, ellipse, hyperbola. Introduction to MATLAB.

MP103 Mechanics I 3(3,1,0) Statics: vector algebra, analytical and geometrical solutions for: reduction of different systems of forces ( intersecting or non-intersecting ) in two dimensions, operations of force analysis in two dimensions, equivalence of force systems, body equilibrium, rigid bodies, equilibrium of ideal systems: groups of bodies, groups of rigid bodies and its applications friction: volplane, loop, applications on the real mechanical systems.

MP104 Mechanics II 3 (3, 1, 0) PrerequisitesMP103 Mechanics I, MP101 Mathematics I Dynamics : introduction in vector analysis, a simple review on second order ordinary differential equations, kinematics of bodies, motion analysis in one dimension, body kinematics and motion analysis in two dimensions in Cartesian and intrinsic forms, some engineering applications in kinematics, : relation between force and acceleration, static integration of motion ( relation between energy and work ), time integration of motion ( relation between impulse and momentum ) engineering applications : motion of body in one dimension in a conservative or non-conservative fields, external plasticity in a conservative field. Motion of bodies under ideal wraps, orthogonal and inclined impact, motion of vibrating bodies, other engineering applications suitable for the level of students in mathematical analysis.

MP105 Engineering Graphics I 3 (2, 2, 1) Engineering Drawing: Drawing instruments and their uses, lettering and dimensioning. Geometrical constructions, conic sections and special curves (Involutes, Cycloid, Archimedean, Spiral, Helix). Theory of projection with applications in machine drawing, Isometric and oblique projections. Introduction to computer aided drafting using Autocad program in 2D and 3D drawings. Geometrical Projection: Mongean projection (representation of points, straight lines, planes). Positional problems and metrical problems. Representation of surfaces of revolution (Sphere, Cone, Cylinder). Intersection and development of surfaces of revolution. MP106 Engineering Graphics II 3 (2, 3, 0) Prerequisites: MP105 Engineering Graphics I Engineering Drawing: Sectional views. Intersection of engineering surfaces. Civil drawing including retaining walls and some steel points. Some applications in architectural drawing.

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Geometrical Projection: Indexed projection (representation of points, straight lines, planes, intersection of planes). Applications of indexed projection (problems of cut and fill). CSE102 Computer Programming 3 (2, 1, 2) Historical introduction, computer classification, computer and society, data representation, number systems, computer components, operating systems, programming, flowcharts, structured programming, algorithms for engineering applications, high-level languages. Laboratory: practical experience using operating systems and application programs.

MP107 Physics I 3 (2, 1, 2) Properties of matter: systems of standard units and conversion constants between them, dimensional analysis and its applications , moment of inertia, angular displacement, velocity and acceleration of angular motion, torque, angular kinetic energy, work and power for angular motion, angular momentum, relation between angular and linear motion ,theory of perpendicular and parallel axes , moments of inertia for symmetrical bodies about rotational axes, stress, strain, modulus of elasticity, Hooke's law, Poisson ratio, relation between young's modulus, bulk modulus and shear modulus , energy stored in strain bodies, fluid statics : continuity equation, Bernoulli's equation and its applications, viscosity ,stock's equation, viscosity of gases, Newton's gravitational law, determination of gravitational constant, gravitational field, gravitational potential and its potential energy, coefficient of surface tension, tangential angel, capillarity phenomenon, work and energy for thin membrane, Thermodynamics: internal energy, specific internal energy, temperature, heat energy, heat capacity, specific heat, phase change, latent heat, heat transfer, conduction convection and radiation, one dimensional Fourier equation in steady state, ( thermal equilibrium ), heat conduction coefficient, heat resistance, applications of Fourier equations on simple walls, methods of heat transfer by convection, Newton's cooling law, total heat transfer coefficient, black body radiation, emissivity, Steven and Boltzmann law for radiation, ability of heat radiation, work and heat energy, first law of thermodynamics , heat content function, simple operations of thermodynamics in ideal gases, Transitional operations, molecular diffusion on gases, heat conduction energy, viscosity, first and second Fik's laws, steady state .

MP108 Physics II 3(2,2,1) PrerequisitesMP107 Physics I, MP101 Mathematics I Electricity : electric charge, conductors and insulators, coulomb's law, electric field of a point charge, electric field of distributed charges, motion of point charges in uniform field, electric dipole, electric flux, gauss law and its applications in calculation of electric field produced by simple distributions of electric charges, Electrical potential energy and potential difference, electric potential of point charge, electric potential of distributed charges ,insulators, breakdown under high voltage, capacitors, calculating capacitance for different shapes, inserting capacitors in electric circuits, energy stored in charged capacitors, electrical insulating materials, induced point charges, electrical displacement factor and polarization, current density, electric current calculation in conductors, resistivity, temperature dependence of resistivity atomic model for electrical conduction. Magnetism : permanent and electric magnetic fields, magnetic force on moving charges, magnetic forces on a current carrying electrical conductor, torque on a coil in a uniform magnetic field, motion of point charges in uniform magnetic fields, magnetic dipole, Biot–Savart law and its applications, Ampere's law and its applications magnetic force between two current carrying parallel wires, magnetic force for atoms magnetic intensity vector, magnetic field vector , intensity vector magnetic induction, gauss law in magnetism, diamagnetic materials, hystresses loop, Maxwell's equations, electromagnetic spectrum, Optics: reflection refraction, Snell's law, Ferrmat principle, total internal reflection, fiber optics, images produced through spherical surfaces, thin lenses, magnification, focal length of thin lenses, defects of images produced through curvature surfaces, spherical diffraction and color diffraction.

39

MP201 Mathematics III3(3,1,0) PrerequisiteMP102 Mathematics II Methods of Integration, some special techniques, successive reduction method, improper integrals, mean value theorem special function: the error, gamma and beta functions of several variables, limits and continuity, partial derivatives, chain rule directional derivatives, Taylor expansions of functions of several variables, extreme, differentiation under integral sign. Ordinary differential equation. First order equations. Non-linear first order differential equations. Operator methods. Methods of variation of parameters. Series solutions of differential equations. MP202 Mathematics IV 3 (3, 1, 0) Prerequisite MP201 Mathematics III Sequences, series, convergence and convergence tests, uniform convergence. Fourier series expansions of general periodic functions, expansions of even and odd functions, convergence and remarks. Laplace transform. Conditions for the existence of LP. Inverse LP. Applications of the transform to solve differential and integral equations. Vector algebra. Scalar and cross product. Identities, application. Lines and planes in space. Spherical and cylindrical systems. Quadratic surfaces. Line, surface and volume integral. Green’s and Stock’s and Divergence theorems. PE102 Production Engineering 3(2,1,2) Prerequisite MP105Engineering Graphics I Introduction, Types of industries, Casting processes: Main steps of sand casting, Pattern design, Melting of metals, Cleaning and inspection of casting, Metal forming processes: Forging, Rolling, Extrusion, Drawing, Bending, Joining Processes: Temporary and permanent joints, Welding techniques, Cutting Processes: Principles and elements of cutting processes, Basic cutting and machines (Turning-Drilling-Milling…), Cutting time, Engineering Materials, Measurements, Introduction to management and industrial systems, Production techniques, Factory planning, Costing and Break even analysis, Principles of production planning and control, Introduction to quality control. EME206 Fluid Mechanics I 3 (2,2,1) Prerequisite MP102 Mathematics II Fundamental notions; Stress at a point, fluid statics. Foundations of flow analysis; basic laws for finite systems and finite control volumes, differential forms of the basic laws, dimensional analysis and similitude analysis of Important Types of Flow: Incompressible viscous flow through pipes ,General viscous flows , Potential flow. EME207 Electric Circuits 3 (2,2,1) Prerequisite MP108 Physics II DC circuit analysis: reduction methods, mesh/loop and node methods, transformation methods, Network theorems. First-order transients. AC circuit analysis: sinusoids and phasors, steady state conditions, impedance and admittance, power and energy, Balanced and unbalanced three-phase circuits. Computer applications. EME203 Thermodynamics I 3(2,2,0) Prerequisite MP108 Physics II Heat and work, First Law of Thermodynamics, Properties .of Steam and Gases, Steam Tables and Charts, Entropy, Second Law, Air Standard Cycle, Compressors, Psychrometry of Gas Mixtures – Reversibility, Availability and Second Law Efficiency. Real Gases. GPE101 Engineering Chemistry 3 (2, 1, 2) Stoichiometry, gases, properties of solutions, chemical equilibrium, acid-base equilibrium, chemistry of the environment, electrochemistry, chemistry of cement.

40

Details: Chemical equations, formula mass, Avogadro's number and the mole, empirical formula from analysis, General equations of gases, Dalton’s law, Kinetic molecular theory, Graham’s law, saturated solution and solubility, colligative properties, solubility of gases in liquids, Raoult’s law, ideal solutions, chemical equilibrium, Le Chatelier’s principle, the law of mass action and its application, acid-base equilibrium, strong acids and bases, dilution law and ionic product of water, pH, solubility product, galvanic cells and metal corrosion, Nernst ’s theory, electrode potential, water treatment, air pollution. CAE201 Structural Analysis-1 3 (2, 3, 0) Prerequisites: MP 104 Definition of a structure, its support condition and its various structural forms in addition various loading conditions that a structure must support. Study the stability and determinacy of structures. Basic concepts of structural analysis. Calculation of reaction forces. Calculation of the internal forces (normal forces, shear forces and bending moments) and its distribution on statically determinate beams, frames and arches. Member forces in trusses. Influence lines and its use to calculate the maximum response functions in structures.

41

القسم الثالث

متطلبات البرنامج

Program Requirements

42

برنامج هندسة الغاز والبتروآيماويات -1

43

PROPOSED STUDY PLAN FOR THE GAS AND PETROCHEMICALS ENGINEERING PROGRAM (continued)

The distribution of credit hours is as follows:

Topic areas Credit hours %

University Requirements 20 11.24Faculty Requirements 48 26.97Program Requirements: Principal 45 25.28 Applied 47 26.4 Electives 18 10.11TOTAL Credit Hours for GPE 178 100

44


*Prerequisites of Elective Courses depend on the topic that will be studied.

Code Fall Prerequisites Credit Hours Code Spring Prerequisites Credit

Hours

Leve

l-0

MP101 Mathematics I 3 MP102 Mathematics II MP101 3 MP103 Mechanics I 3 MP104 Mechanics II MP103,MP101 3 MP105 Engineering Graphics I 3 MP106 Engineering Graphics II MP105 3 HS102 Human Rights 1 PE102 Production Engineering MP105 3 GPE101 Engineering Chemistry 3 CSE102 Computer Programming 3 MP107 Physics I 3 MP108 Physics II MP107,MP101 3 HS101 English Language 2 HS103 History of Engineering Sciences 1

18 19

Leve

l-1

MP201 Mathematics (III) MP102 3 MP202 Mathematics (IV) MP201 3 GPE205 Physical Chemistry GPE101 3 EME203 Thermodynamics I MP108 3 GPE203 Organic Chemistry I GPE101 3 GPE204 Organic Chemistry II GPE203 3 GPE211 Fundamentals of Mass Balance GPE101 3 GPE212 Fundamentals of Energy Balance GPE211 3 GPE201 Principles of Materials Science and

Engineering GPE101 3 EME206 Fluid Mechanics I MP102 3

HS201 Technical Writing 2 HS202 Engineering Economics 2 17 17

Leve

l-2

MP301 Probability and Statistics for Engineers MP201 3 GPE313 Heat Transfer GPE212 3 GPE301 Principles of Polymer Eng. & Science GPE201,GPE204 3 GPE315 Engineering Metallurgy GPE201 3 GPE311 Separation Processes I GPE212 4 GPE312 Separation Processes II GPE212 4 GPE 321 Applied Thermodynamics EME203,GPE212 3 MP314 Numerical Methods MP202 3 EME207 Electric Circuits MP108 3 ELE Elective (1) * 3 HS301 Project Management 2 HS302x Humanities 2 18 18

Leve

l-3

GPE401 Introduction to Natural Gas Engineering 3 GPE422 Petrochemical Industries I GPE312,GPE204,GPE423 3 GPE421 Kinetics and Reactions Engineering GPE205 4 GPE424 Natural Gas Treatment and Purification GPE401,GPE312 3 GPE423 Petroleum Refining Engineering GPE312 3 GPE412 Mechanical Unit Operations GPE312,EME206 4 GPE413 Corrosion Engineering GPE315 3 GPE426 Modeling and Simulation GPE421,MP314 3 ELE Elective (2) * 3 ELE Elective (3) * 3 HS401 Law and Engineering Ethics 2 HS402x Humanities 2 18 18

Leve

l-4

GPE521 Petrochemical Industries II GPE422 3 GPE522 Natural Gas Liquefaction GPE321,GPE424 3 GPE523 Hazardous Process & Safety Engineering GPE422 3 GPE524 Process Design GPE523 3 GPE525 Process Dynamics and Control GPE426 3 ELE Elective (5) * 3 ELE Elective (4) * 3 ELE Elective (6) * 3 GPE551 Project I GPE401,GPE422,GPE423

+129 cr.hrs 3 GPE552 Project II GPE551 4

HS501x Humanities 2 HS502x Humanities 2 17 18

45


Prerequisites of Elective Courses

No Code Course name Prerequisites 1 GPE331 Industrial Water Treatment N/A 2 GPE332 Environmental Science and Engineering N/A 3 GPE333 Introduction to engineering Design N/A 4 GPE334 Wastewater Treatment N/A 5 GPE336 Heat transfer operations GPE313 6 GPE337 Combustion Technology GPE212 7 GPE338 Instrumental Method Of analysis 8 GPE431 Natural Gas Production and Measurement GPE401,EME206

9 GPE432 Measurements EME206 10 GPE433 Biochemical Engineering GPE204,GPE421 11 GPE434 Principles of Industrial Electrochemistry GPE413 12 GPE435 Operation Research MP301, MP314 13 GPE436 Mechanics of Materials GPE201 14 GPE532 Petroleum Recovery Technology EME206,GPE423 15 GPE531 Materials Selection in the Petrochemicals Industry GPE413,GPE422 16 GPE533 Engineering Instrumentation GPE525, EME207 17 GPE534

Natural Gas Handling and Networking GPE424, GPE312

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CORE PROGRAM COURSES 1) Principal Courses


GPE201 Principles of Materials Science and Engineering 3 GPE203 Organic Chemistry I 3 GPE204 Organic Chemistry II 3 GPE205 Physical Chemistry 3 GPE211 Fundamentals of Mass Balance 3 GPE212 Fundamentals of Energy Balance 3 MP301 Probability and Statistics of Engineers 3 GPE301 Principles of Polymer Eng. & Science 3 GPE313 Heat Transfer 3 MP314 Numerical Methods 3 GPE315 Engineering Metallurgy 3 GPE401 Introduction to Natural Gas Engineering 3 GPE413 Corrosion Engineering 3 GPE426 Modeling and Simulation 3 GPE523 Hazardous Processes and Safety Engineering 3

TOTAL 45

2) Applied Engineering Courses

a. Compulsory Courses

Code Course Credit Hours

GPE311 Separation Processes I 4 GPE312 Separation Processes II 4 GPE321 Applied Thermodynamics 3 GPE412 Mechanical Unit Operations 4 GPE421 Kinetics and Reactions Engineering 4 GPE422 Petrochemical Industries I 3 GPE423 Petroleum Refining Engineering 3 GPE424 Natural Gas Treatment and Purification 3 GPE521 Petrochemical Industries II 3 GPE522 Natural Gas Liquefaction 3 GPE524 Process Design 3 GPE525 Process Dynamics and Control 3 GPE551 Senior project I 3 GPE552 Senior project II 4

TOTAL 47

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b. Elective Courses


GPE331 Industrial Water Treatment 3 GPE332 Environmental Science and Engineering 3 GPE333 Introduction to Engineering Design 3 GPE334 Wastewater Treatment 3 GPE336 Heat transfer operations 3 GPE337 Combustion Technology 3 GPE338 Instrumental Methods of Analysis 3 GPE431 Natural Gas Production and Measurement 3 GPE432 Measurements 3 GPE433 Biochemical Engineering 3 GPE434 Principles of Industrial Electrochemistry 3 GPE435 Operation Research 3 GPE436 Mechanics of Materials 3 GPE531 Materials Selection in the Petrochemicals Industry 3 GPE532 Petroleum Recovery Technology 3 GPE533 Engineering Instrumentation 3 GPE534 Natural Gas Handling and Networking 3

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COURSE DESCRIPTION

GPE201 Principles of Materials Science and Engineering 3(3,0,1) Prerequisite: GPE101 Introduction to materials science, atomic structure, bonds, crystalline structure, mechanical properties of materials, metals, ceramics, polymers, composites, electrical, thermal, and magnetic properties of materials, materials selection for engineering applications. GPE203 Organic Chemistry I 3(3,0,1) Prerequisite: GPE101 An introduction to organic structures, reactions, and reaction mechanisms. Type of carbon-carbon bonds, electronic theory of valency, aromatic hydrocarbons, resonance and electron displacement, study of paraffins, olefins, acetylenes, alcohols, phenols, structural isomerism. GPE204 Organic Chemistry II 3(3,0,1 Prerequisite:GPE203 Mechanisms and synthesis applications of organic reactions: Sulfonation, nitration, halogenations, oxidation, intermediate organic compounds, mechanism of polymerization, analysis of organic compounds using ultraviolet rays, Chromatography, magnetic resonance. GPE205 Physical Chemistry 3(3,0,1) Prerequisite: GPE101 Order of a reaction, reactions of the first order, reactions of the second order, reactions of the third order, Reactions occurring in stages, the rate determining step, parallel reactions, consecutive reactions, chain reactions, opposing reactions and equilibrium, determination of reaction order, method of trial, time to complete a definite fraction of the reaction, the differential method. Theory of reaction rates, Arrhenius equation, the collision theory of reaction rates, The activated-complex theory of reaction rates. Heterogeneous reactions, catalysis. Ionic equilibria, electrolytic conductance, Ostwald dilution law, ionic product of water, common ion effect, solubility product, hydrolysis, buffer solutions. GPE211 Fundamentals of Mass Balance 3(3,1,0) Prerequisites: GPE101 Processes system and its variables, mass, volume, flow rates, chemical composition, pressure, fundamentals of material balance (batch and continuous), single and multiple unit calculations; recycle, bypass and purge calculations; balance for reactive systems, balances on reactive systems, balances on single phase systems, balances on multiple systems, balances on liquid solution, balances on adsorption processes.

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GPE212 Fundamentals of Energy Balance 3(3,1,0) Prerequisite: GPE211 Fundamentals of energy balance, forms of energy, the first law of thermodynamics, closed and open systems, thermodynamic tables, energy balance for non-reactive systems, pressure and temperature change, mixing operations, energy balance for reactive systems, heat of reactions, heat of formation, heat of combustion. GPE301 Principles of Polymer Engineering and Science 3(3,1,0) Prerequisites GPE201, GPE204 Definition and importance of engineering polymers, classification, molecular weights, structure of polymers, Nature and types of polymers and copolymers, crystalline and non-crystalline state, Polymerization: condensation, free radical, ionic, stereo-specific. Thermal characteristics, mechanical properties, effect of time and heat on polymers properties, rheology. Structure and properties of polymeric materials, plastics, fibers, elastomers. MP301 Probability and Statistics for Engineers 3(2,2,0) Prerequisite: MP201 Descriptive statistics: description of sample data, statistical measures (location and dispersion), review on probability axioms and counting techniques. Conditional probabilities and bays formula, stochastic independence and applications, random variables and probability distributions. Mathematical expectation, mean, variance and moments. Some standard distribution: binomial, Poisson, negative binomial, hyper geometric, normal, gamma, exponential and chi-square distribution. The T and F distribution. Joint distributions, properties, marginal distributions, covariance and correlation coefficient. GPE311 Separation Processes I 4(3,2,1) Prerequisite:GPE212 Phase Equilibria (fundamentals), binary and multicomponent distillation, design of plate fractionating columns, types of distillation, Evaporation: heat transfer coefficients, multi-effect evaporation, vacuum producing equipment, nucleate boiling, forced convection boiling, Crystallization: fundamentals and theoretical background, Adsorption, isotherms, Ion exchange: theory, types of ion exchangers. GPE312 Separation Processes II 4(3,2,1) Prerequisite: GPE311 Principles of mass transfer, Diffusion: types of diffusion - Gas-absorption: two-film theory, capacity of packed towers, values of transfer coefficients, absorption with chemical reaction - Liquid-liquid extraction: general considerations of process, calculation of number of stages, continuous extraction in column apparatus- Drying: principles, humidity chart, rate of drying, theories of drying. GPE313 Heat Transfer 3(3,1,0) Prerequisite: GPE212 Modes of heat transfer: Conduction, the rate and field equations, steady conduction for one, two, and three-dimensional shapes, Numerical and graphical solution of unsteady-state heat conduction problems. Classifications, applications and optimization of thermal insulations. Convection, the rate equation, the overall heat transfer coefficient;

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the mean temperature difference, dimensional analysis as applied to convection (natural convection, forced convection, condensing vapours, boiling liquids, molten metals, ....). Heat exchangers: the overall heat transfer coefficient, fouling factors, and types of heat exchangers. MP314 Numerical Methods 3(2,1,2) Prerequisite:MP202 Numerical analysis (Gauss elimination method, numerical solution of nonlinear algebraic equations, numerical integration, interpolation, numerical solution of differential equations, error analysis). GPE315 Engineering Metallurgy 3(3,0,1) Prerequisite: GPE201 Crystalline structure of metals,, internal defects, Miller indices, thermal equilibrium diagrams, binary systems, plastic deformation, recovery and recrystallization. Age hardening, Plain carbon steel, cast iron, heat treatment of steels, alloy steels, stainless steels, copper and its alloys, aluminum and its alloys GPE321 Applied Thermodynamics 3(3,1,0) Prerequisites: EME203, GPE212 Power and refrigeration cycles, vapor cycles, Carnot, Rankine, reheated, regenerative, gas power cycle, gas turbine, reciprocating engine cycles. Refrigeration and heat pump cycles, vapor compression cycle, absorption refrigeration cycle, thermodynamic tables. GPE401 Introduction to Natural Gas Engineering 3(3,1,0) Natural gas, composition, classification, treatment processes, gas – vaopr equlibrium, distillation, hydrates, its effect and control, vapour and gases removal, gaseous treatment, gaseous acids injection, sulphur recovery, nitrogen removal, liquid hydrocarbons recovery. GPE412 Mechanical unit operations 4(3,2,1) Prerequisites: GPE312, EME206 Flow of fluids past particles: flow of fluids through granular beds, filtration, centrifugation. Operations involving relative motion between fluid and particles: sedimentation, fluidization, gas cleaning. Mixing and agitation: mixing of solids and pastes. GPE413: Corrosion Engineering 3(3,0,1) Prerequisite: GPE 315 Corrosion, its economic effect, environmental and metallurgical aspects, mechanism of corrosion, types of cells responsible for corrosion e.g. dissimilar metal corrosion cells, differential aeration cells, differential strain cells, stress corrosion cracking, stray corrosion current, atmospheric corrosion, corrosion and protection of metals against corrosion,, the H2 scale, the e.m.f, Nernst equation. thermodynamics of galvanic cells, corrosion resistance: coating (metallic coating, inorganic coating, organic and temporary coating), Inhibitors (cathodic inhibitors, anodic inhibitors and adsorption

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inhibitors), cathodic protection, anodic protection, selection of the suitable material of construction. GPE421 Kinetics and Reactions Engineering 4(3,2,1) Prerequisite: GPE205 Kinetics of chemical reactions, order and molecularity of reactions, reactions of the first order, reactions of the second order, reactions of the third order, complex reactions, temperature effect, Activation energy, entropy, catalytic reactions, engineering principles of reactor design, design of batch and continuous tubular reactors, design of continuous stirred tank reactors, catalytic reactors, isothermal and adiabatic reactions, concentration and flow rate effect on residence time, recycling and its effect on reactor volume. GPE422 Petrochemical Industries I 3(3,1,0) Prerequisites: GPE312, GPE204, GPE 423 Introduction to petrochemical industry; raw materials, classification of petroleum chemicals according to source; unit processes in organic chemical synthesis based on acetylene, ethylene, propylene, butadiene, petroleum aromatics, etc., as thermal and catalytic cracking, manufacture of food, synthetic detergents and other materials from petroleum. Fertilizers. GPE423 Petroleum Refining Engineering 3(3,0,1) Prerequisite: GPE 312 Chemical composition of crude petroleum oil, classification methods, petroleum products properties and methods of analysis, different unit operations in a refinery distillation. Thermal and analytical cracking and catalytic reforming. Refining of different petroleum products by physical and chemical methods. Treatments. GPE424 Natural Gas Treatment and Purification 3(3,1,0) Prerequisites: GPE312, GPE401 Mercury removal, Water-hydrocarbon system - hydrate formation and inhibition, Dehydration and sweetening, Equipment sizing, selection and design. GPE426 Modeling and Simulation 3(2,2,1) Prerequisites GPE421, MP314 Importance of modeling and simulation in chemical engineering, programming, Mathematical formulation of the problems, The continuity equation, the energy equation, the equation of motion, transport equations, equations of chemical and physical equilibria, chemical kinetics equations. Examples on the use of mathematical models in solving engineering problems. GPE521 Petrochemical Industries II 3(3,1,0) Prerequisite : GPE 422 Industrial polymerization method, . Processing of plastic materials, crystallinity and stereoisomer in some thermoplastic, general purpose thermoplastic, engineering thermoplastic, elastomers, deformation and strengthening of plastic materials.

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GPE522 Natural Gas Liquefaction 3(3,1,0) Prerequisites :GPE321, GPE 424 Fundamentals of gas liquefaction, Liquefaction cycles: Joule-Thompson, turbine expansions and external refrigeration, Hydrocarbon recovery units, Materials, equipment performance and selection, Natural gas liquefaction plants, LNG storage and regasification plants. GPE523 Hazardous Processes and Safety Engineering 3(3,1,0) Prerequisites: GPE422 Fundamentals of fire explosion, hazardous materials, hazardous operations, fire protection systems, explosion protection systems, accident insurance. Chemistry and Technology of propellants, chemistry and technology of high explosives, chemistry and technology of initiators, initiator ballistics, chemical warfare. GPE524 Process Design 3(3,1,0) Prerequisite : GPE523 Process design development; the design approach; feasibility, flow diagram; the preliminary design; general design considerations (plant location, plant layout), scale up, fluid transfer in pipes, raw materials, intermediate compounds and products deposition. Introduction to optimization and computer-aided design. Application of Chemical and Engineering design principles to the design of a major chemical and gas plant. Students work in groups to produce a preliminary practical process flowsheet, equipment and plant design, and economic analysis GPE525 Process Dynamics and Control 3(2,2,1) Prerequisite : GPE426 Mathematical tools for control systems analysis, Laplace transform solution procedure, Linearization and deviation variables, Linear open-loop systems, response of first-order system, physical examples of first order system, response of first-order systems in series, higher order system: transportation lag. Linear closed-loop systems. The control system, controller and final control elements, block diagrams, closed-loop transfer functions, transient response of simple control systems, stability, root locus GPE551 Project I 3(1,2,3) Prerequisites GPE 401,422, GPE423 + Total credit 130 GPE552 Project II 4(2,1,4) Prerequisites GPE551

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Elective Courses GPE331 Industrial Water Treatment 3(3,1,0) Impurities in natural waters, External water treatment, clarification, carbon filtration, lime treatment, ion exchange treatment, reverse osmosis. Internal water treatment, corrosion control, deposit control, microbiological control, treatment of cooling water, treatment of boiler feed water. GPE332 Environmental Science and Engineering 3(3,1,0) Introduction on water resources, water pollution and sources of pollutants, Surface water, Dissolved oxygen, Biological oxygen demand, Chemical oxygen demand, Properties of water in lakes and reservoirs, Ground water and its pollutants, Water quality control, Drinkable water, Water treatment systems, Dangerous and toxic wastes and their treatment, Ground waste dumping, Air pollution, Reference measure for air pollutants, Types of air pollutants, Transportation exhausts, Sound pollution. GPE333 Introduction to Engineering Design 3(3,1,0) Introduction to active learning: team work, team dynamics, team norms and communication, conducting effective meetings and quality assessment. Problem solving procedure: problem definition, generation of solutions, selection methodology, solution implementation, assessment of implementation. Levels of learning and degrees of internalization. Ethical decision. Organization of the work and design notebook. Reverse engineering and design projects. GPE334 Wastewater Treatment 3(3,1,0) Sources and characteristics of wastewater, measurement of toxicity, waste control in plants, water reuse, wastewater treatment operations, primary treatment, sedimentation, coagulation and clarification, precipitation and heavy metal removal, aeration and material transport, fundamentals of aerobic biological oxidation, biological wastewater treatment, adsorption, ion exchange, chemical oxidation, sludge handling and treatment. GPE336 Heat Transfer Operations 3(3,1,0) Prerequisite: GPE313 Analysis of engineering operations involving heat transfer; conductive, convective and radiative heat exchange with and without phase change; general design and operation of heat-exchange equipment. GPE337 Combustion Technology 3(3,1,0) Prerequisite: GPE212 Combustion fundamentals. Properties of fuels (gaseous, liquid and solid fuels). Chemical kinetics and combustion thermodynamics and how fuel properties, operating conditions, and furnaces design impact environmental and operational performance such as emissions (NOx, SOx, Soot). Technology, facilities, flame stabilization techniques and reduction of emissions. Calculation methods in combustion.

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GPE338 Instrumental Method of Analysis 3(3,1,0) Coulometric methods, potentiometric methods, x-ray spectroscopy, gas chromatography, high performance liquid chromatography, infrared absorption spectroscopy, Thermal methods. GPE431 Natural Gas Production and Measurements 3(3,1,0) Prerequisites: GPE401, EME206

Theory design and method of production and measurement of natural

gas, Transportation, transmission and distribution pipeline network. GPE432 Measurements 3(3,1,0) Prerequisite: EME206 Fluid flow measurements (Introduction; general equation for internal flow meters; Orifice meter; Venturimeter; Notches, concept of area meters: rotameter; Local velocity measurement: Pitot tube. Hot wire anemometer. Mouth pieces, Weirs, Flow under sluice gates. Time of empting tanks with or without inflow, Flow of liquid from one vessels to another. Temperature measurements (including Hg, alcohol, infrared, thermistor, thermocouple, Bourdon gauge, liquid crystal). Pressure measurements (Simple mercury barometer- Pressure measuring devices- Piezometer tube - Simple U-tube manometer- Differential manometer – Micrometer). Concentration measurements GPE433 Biochemical Engineering 3(3,1,0) Prerequisites: GPE204, GPE421 Biochemical & Bioprocess Engineering, Biology & Biochemistry, Enzyme Kinetics & Immobilization, Genetics & Cellular Control Systems, Genetic Engineering, Metabolism , Stoichiometry, Cell Growth Kinetics, Bioreactor Design & Operation, Scale-up, Heat/Mass Transfer, Instrumentation, Control, Product Purification & Recovery, Mixed Culture . GPE434 Principles of Industrial Electrochemistry 3(3,1,0) Prerequisite: GPE413 Electrical energy storage, classification of batteries, primary cells, secondary cells Faraday's law and current efficiency, concentration polarization, mechanism of mass transfer during electrolysis, activation polarization and charge transfer controlled reactions, electrochemical reactor design and operations, arrangement of cells in the plant, specifications of the accessory equipment, theory of electrodeposition of metals, electrowinning, electrorefining, electroplating, electrochemical machining and electroreforming, chloro alkali production; pollution control by electrochemical methods. GPE435 Operations Research 3(3,1,0) Prerequisites:MP301,MP314 Definition, Area of application, Linear programming: formulation, graphical solution, simplex method, sensitivity analysis, duality, Transportation, Assignment, Goal programming, Introduction to Queuing theory, Solving operations research problems using available software.

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GPE436 Mechanics of Materials 3(3,1,0) Prerequisite: GPE201 Basic principles of Stresses and strains, True stresses and strains, Thermal stresses, Compound bars, Bending and deflection, Torsion, Principal stresses in two dimensions, Three dimensional stresses, Three dimensional strains, Stress strain relationships in the elastic range, Strain energy and yield criteria, Thin and Thick cylinders, Residual stresses, Theory of plasticity -Experimental stress analysis (Strain gauges), An introduction to fracture mechanics. GPE531 Materials Selection in the Petrochemicals Industry 3(3,1,0) Prerequisite: GPE413,GPE422 Materials design parameters, classes of materials; Design concepts including function, material, shape and process, Fundamentals of materials selection, Property charts for materials selection for the petrochemicals industry, Shape factors in material selection, Materials selection under multiple constraints, Selection of materials processing and design, Case studies GPE532 Petroleum Recovery Technology 3(3,1,0) Prerequisites: EME206,GPE 423 Reservoir rock properties- flow of fluid through porous media- drilling- production- storage and handling of petroleum fluids. GPE533 Engineering Instrumentation 3(3,1,0) Prerequisites: GPE525, EME207 Sensors, transmitters and control valves. Sensors: pressure sensors, flow sensors, level sensors, temperature sensors and composition sensors. Transmitters, pneumatic transmitter, electronic transmitter, types of control valves, reciprocating stem, rotating stem, Gas sampling and analysis. GPE534 Natural Gas Handling and Networking 3(3,1,0) Prerequisites: GPE424, GPE312 Natural Gas Transportation chains: Pipelines, LNG, Chemical Conversion, Electricity. Natural Gas Pipelines: Design, Construction, Operations, Offshore.

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برنامج هندسة وعلوم المواد -2

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CORE PROGRAM COURSES

1) Principal Courses

Code Title Credit Hours

MSE 201 Principles of Materials Science and Engineering 3 MSE 202 Strength of Materials I 3 GPE203 Organic Chemistry I 3 MSE 203 Properties of Materials I 3 MSE 205 Structural Composition of Materials I 3 MP301 Probability and Statistics for Engineers 3 MSE 302 Characterizations of Materials 3 MSE 308 Technology of Fibers and Tissues 3 MP314 Numerical Methods 3 MSE 402 Design of Materials I 3 MSE404 Processing of Composite Materials 3 GPE413 Corrosion Engineering 3 MSE 501 Failure Theories of Materials 3 MSE 502 Fracture Mechanics 3

TOTAL 42

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2) Applied Engineering Courses

a. Compulsory Courses


MSE204 Engineering Metallurgy 3 MSE 301 Modern Physics 3 MSE 303 Ceramic Materials 3 MSE 304 Strength of Materials II 3 MSE 305 Electronic and Microwave Measurements 3 MSE 306 Polymer Engineering 3 MSE 401 Plasticity and Metal Forming 3 MSE 403 Composite materials 3 MSE 405 Computational Methods for Material Science 3 MSE 408 Electrical, Optical & Magnetic Properties of Materials 3 MSE 503 Smart Materials 3 MSE 504 Nanomaterials 3 MSE 506 Quality Control of Materials and Processes 3 MSE 508 Thermal Materials 3 MSE 505 Design of Materials II 3 MSE551 Project I 4 MSE552 Project II 4

TOTAL 53

b. Elective Courses


ELE 1 - EME302 Thermodynamics II 3 ELE 1 - MSE407 Theory of Elasticity 3 ELE 2 - MSE409 Properties of Concrete Materials 3 ELE 2 -MSE411 Properties of Textile Materials 3 ELE 3 -MSE410 Structural composition of Materials II 3 ELE 3 -MSE412 Manufacturing and Use of Industrial Fabrics 3 ELE 4 - MSE507 Medical Materials 3 ELE 4 -MSE509 Super conductors 3

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COURSE DESCRIPTION

MSE 201 Principles of Materials Science and Engineering Introduction to materials science, atomic structure, bonds, crystalline structure, mechanical properties of materials, metals, ceramics, polymers, composites, electrical, thermal, and magnetic properties of materials, materials selection for engineering applications. MSE 202 Strength of Materials I Statics: moment and force resultants, equilibrium. Mechanics of deformable bodies: stress/strain, classification of material behavior, generalized Hooke's law. Engineering applications: axial loads, torsion of circular rods and tubes, bending and shear stresses in beams, deflection of beams, combined stresses, stress and strain transformation

GPE203 Organic Chemistry I An introduction to organic structures, reactions, and reaction mechanisms. Type of carbon-carbon bonds, electronic theory of valency, aromatic hydrocarbons, resonance and electron displacement, study of paraffins, olefins, acetylenes, alcohols, phenols, structural isomerism

MSE 203 Properties of Materials I Mechanical properties of engineering materials, stress, strain, strength, ductility, toughness, resilience - Testing machines - Calibration devices - Strain gages- Axial static tension, mechanical properties in tension, shape of failure, tensile tests - Static compression, mechanical properties in compression, mode of failure - Static bending, elastic and inelastic bending mechanical properties, bending mode of failure, bending tests- Static shear and Torsion - Hardness, hardness tests.

MSE 204 Engineering Metallurgy Crystalline structure of metals,, internal defects, Miller indices, thermal equilibrium diagrams, binary systems, plastic deformation, recovery and recrystallization. Age hardening, Plain carbon steel, cast iron, heat treatment of steels, alloy steels, stainless steels, copper and its alloys, aluminum and its alloys.

MSE 205 Structural Composition of Materials (1)

Introductory course to engineering materials. Properties (mechanical, thermal and electrical of metals polymers and ceramics. Correlations of these properties with: 1-their internal structures (atomic, molecular, crystalline, micro-and macro), 2-service conditions (mechanical, thermal, chemical, electrical, magnetic and radiation and 3-Processing

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MP301 Probability & Statistics for Engineers Descriptive statistics: description of sample data, statistical measures (location and dispersion), review on probability axioms and counting techniques. Conditional probabilities and bays formula, stochastic independence and applications, random variables and probability distributions. Mathematical expectation, mean, variance and moments. Some standard distribution: binomial, Poisson, negative binomial, hyper geometric, normal, gamma, exponential and chi-square distribution. The T and F distribution. Joint distributions, properties, marginal distributions, covariance and correlation coefficient. MSE 301 Modern Physics Special relativity. Quantum effects: particle aspect of electromagnetic radiation and wave aspects of material particles. Atomic physics. Introduction to nuclear, molecular and solid-state physics. Introduction to crystallography. MSE 302 Characterizations of Materials Atomic structure and type of bonding. Crystalline and amorphous states. Crystal structures, and fundamental aspects of crystallography(space lattice, miller indices, symmetry elements). Crystal defects (point, line and planar). Basic principles of structure determination by x-ray diffraction. Microscopic techniques (light and electron optical), thermal analysis, detection instrumentations and their application to material characterization.

MSE 303 Ceramic Materials Chemistry, structure, processing, micro-structure and property relationships and their applications in the design and production of ceramic materials. The course is designed to introduce students to the fundamentals of polymer engineering and performance. This includes polymerization and structure, characterization, glass-transition, cystallinity and mechanical behavior. MSE 304 Strength of Materials II Energy methods; buckling of columns, including approximate methods; bending of beams of asymmetrical cross-section; shear center and torsion of thin-walled sections; membrane stresses in axisymmetric shells; elastic-plastic bending and torsion; axisymmetric bending of circular plates. Introduction to failure theories of materials. Review of energy methods; Betti's reciprocal theorem; elastic, thermoelastic, and elastoplastic analysis of axisymmetric thick cylinders and rotating discs; bending of rectangular and circular plates, including asymmetric problems; beams on elastic foundations; axisymmetric bending of cylindrical shells; torsion of prismatic bars. Elements of solid mechanics; historical development of fracture mechanics; energy release rate of cracked solids; linear elastic fracture mechanics, and elastic-plastic fracture mechanics. MSE 305 Electronic and Microwave Measurements Microwave passive components, scattering parameters. Microwave measurements. Computer controlled measurement. Other topics in modern electronic measurements and equipment which may include: spectrum and network analyzers, ultra-sonic

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imaging, nuclear magnetic resonance, ECG, CAT Scan, etc. Time and frequency measurements, magnetic and digital recording. MSE 306 Polymer Engineering Definition and importance of engineering polymers, classification, molecular weights, structure of polymers, crystalline and non-crystalline state, thermal characteristics, mechanical properties, effect of time and heat on polymers properties, rheology.

MSE 308 Technology of Fibers and Tissues Reaction of lignin and hemi celluloses during pulping processes. Material balance of pulping. Material balance of evaporation and chemical recovery. Stock preparation processes e.g. digestion, washing, screening. etc...., flow to paper machinery. HB pressing and drying calculations. Leather tanning, structure of protein fibers, keratin and collagen, curing and preservation of hides and skins. Structure of mineral and vegetable tanning agents e.g. chromium salts, processing of hides and skins. Technology of production, steps of upper leather and sole leather, physical and chemical properties of finished leather. Studying the properties and characterization of synthetic fibers.

MP 314 Numerical Methods 3(2,1,2) Prerequisite Mathematics IV Numerical analysis (Gauss elimination method, numerical solution of nonlinear algebraic equations, numerical integration, interpolation, numerical solution of differential equations, error analysis). MSE 401 Plasticity and Metal Forming Introduction, Stress, strain relations in the plastic range, effect of strain-rate, Empirical equations, Slab method for calculation of forming loads, Plane strain and slip-line fields, Effect of friction, Upper bound theory, Visu-plasticity, Finite element analysis in plasticity, Applications (upsetting, flat rolling, extrusion, drawing, bending), Sheet formability.

MSE 402 Design of Materials (1) Introduction to the manufacturing processes for various materials classification of manufacturing industry. Processing of polymers, glass and ceramics refining materials, Temperature treatment. Sadle metallurgy, injection refining design with various materials: Metals, plastic, ceramics

MSE 403 Composite Materials Definition, uses, classification of composite materials, constituents of composite materials and their roles, mechanical and thermal properties, some models used in design, micromechanical and macro mechanical calculations, methods of preparation, applications, new materials, nanotechnology.

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MSE404 Processing of Composite Materials

Processing, properties, and structural applications of composites. Emphasis is on the chemical and physical processes currently employed and expected to guide the future development of the technology.

MSE 405 Computational Methods for Materials Science Mathematical and computational skills required for an understanding of materials science principles. The topics to be discussed include vector and tensor calculus, with applications to crystallography and materials properties, solution of differential equations, emphasizing rate equations and the diffusion equation, integral transforms for solving differential equations and computation of scattering intensities, statistics and experimental design, and numerical methods and computer simulation. Cargill and Rickman. MSE 407 Theory of Elasticity This course will introduce basic definitions of strain and stress tensors, derive strain-deformation relationships for finite and small deformations, derive compatibility conditions for strain tensors, and derive equilibrium equations, constitutive properties of orthotropic and isotropic elastic materials. Introduce the Airy stress potentials for in 2-D plane stress and plane strain problems in Cartesian and cylindrical coordinate systems. A few examples in 3-D stress analysis will be provided. The homework exercises will train students in the use of principles of elasticity theory for developing simple and quick estimates of stress and displacement fields for use in structural design. The tensor representation of equations will also be presented to facilitate the student in reading papers. MSE 408 Electrical, Optical & Magnetic Properties of Materials Application of solid state phenomena in engineering structures such as microelectronics, magnetic and optical devices. Microelectronics, magnetic and optical properties of devices, fabrication and process methods. Special attention given to semiconductor manufacturing including front-end, back-end technology and packaging.

MSE 409 Properties of Concrete materials Non-metallic part: Fresh concrete properties: workability, consistency, bleeding, air-entrained, and factors that affect fresh properties and their corresponding tests. Concrete manufacturing: mixing, casting, transporting, finishing, concrete joints and formwork removal. Design of concrete mixes using different approaches. Introduction to concrete admixtures: accelerators, retarders, air-entraining admixtures water and high water reducing admixtures,. Introduction to concrete durability: permeability, chemical attack. Steel corrosion, sea-water attack. Hardened concrete properties: strength, elasticity, shrinkage, creep, compressive strength, splitting tensile strength, modulus of rupture, bond with reinforcement, shear strength, failure mechanism, including factors affecting these behavior and their relevant tests. MSE 410 Structural Composition of Materials II Basic principles and fundamental tool of materials science and engineering, including bonding, structure, microstructure, thermodynamics, and kinetics.

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MSE 411 Properties of Textile Materials

Studying the properties and characteristics of fibers, yarns & fabrics used in Materials Science. Characterizations of Textile Materials. Applications of Textile Materials in Traditional & Industrial Engineering.

MSE 412 Manufacturing and Use of Industrial Fabrics Concepts of industrial fabrics - comparison on between conventional fabric and industrial fabrics -material used for fabric manufacturing - manufacturing and application of industrial fabric in buildings structures, in filter manufacturing, geotextile, medical fabrics, protective fabrics, in paper industry in special sport equipment, in transport. GPE413 Corrosion Engineering Corrosion, its economic effect, environmental and metallurgical aspects, mechanism of corrosion, types of cells responsible for corrosion e.g. dissimilar metal corrosion cells, differential aeration cells, differential strain cells, stress corrosion cracking, stray corrosion current, atmospheric corrosion, corrosion and protection of metals against corrosion, the H2 scale, the e.m.f, Nernst equation. Thermodynamics of galvanic cells,

corrosion resistance: coating (metallic coating, inorganic coating, organic and temporary coating), Inhibitors (cathodic inhibitors, anodic inhibitors and adsorption inhibitors), cathodic protection, anodic protection, selection of the suitable material of construction. MSE 501 Failure theories of materials Studies of stress and strain, failure theories, and yield and placidity criteria; fracture criteria, flexure and torsion theories for solid- and thin-walled members; and energy methods. Fatigue failure, traditional and fracture theories, life-cycles expectancy, retardation effect and random loading. MSE 502 Fracture mechanics Introduction to the mechanics of fracture of linear and nonlinear materials. Crack stress and deformation fields; stress intensity factors; crack tip plastic zone; fracture toughness testing; energy release rate; J-integral. Criteria for crack growth initiation/stability; application to design.

MSE 503 Smart Materials

Introduction of smart materials. Selection and design of smart applications. Different applications of smart materials.

MSE 504 Nanomaterials This introductory course presents both theoretical concepts and practical applications in the field of Nanotechnology. A nanometer (nm)is one billionth of a meter. Nanostructures, that is objects on the length scale of 1 to100nm, often exhibit properties that are inconsistent with bulk properties. For example, bulk gold has a golden color, but gold nanoparticles with diameters 15 nm are red and 40nm gold nanoparticles are

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purple. The phenomenon of size effects is critical to nanoscience and nanotechology. Characterization methods specific to the nanoscale are discussed, including scanning probemicroscopies. The course describes both top-down and bottom-up fabrication methods for making Nanostructures. Subsequently, the underlying nanoscale science is presented in connection with selected nanotechnologies, including smart materials, sensors, and molecular electronics.

MSE 505 Design of Materials II Processing of bulk, thin film and nanoscale materials for applications in electronic, magnetic electromechanical and photonic devices and microstystems. Topics include growth of bulk, thin-film, nanoscale single crystals via vapor and liquid phase processes; formation, patterning and processing of thin films, with emphasis on relationships among processing, structure and properties and processing of systems of nanoscale materials. Examples from materials processing for applications in high-performance integrated electronic circuits. Integrated sensors, and data storage systems.

MSE 506 Quality Control of Materials and Processes Introduction to engineering methods for monitoring, control, and improvement of quality. Statistical models of quality measurements, statistical process control, acceptance sampling, and quality management principles. Some laboratory exercises. MSE507 Medical Materials The engineering characters ties of materials, including metals, ceramics, polymers, composites, coatings, and adhesives, that are used in the human body. Emphasizes the need of materials that are considered for implants to meet the material requirements specified for the device application (e.g., strength, modulus, fatigue and corrosion resistance, conductivity) and to be compatible with the biological environment (e.g., non-toxic, non-carcinogenic, resistant to blood clotting if in the cardiovascular system.

MSE 508 Thermal Materials Principles of behavior of materials at high temperatures. Microstructure-property relationships including phase stability and corrosion resistance to high temperature materials. Fracture and fatigue at elevated temperatures. Damage accumulation behavior and engineering applications of service life techniques.

MSE 509 Super Conductors Introduction to super conductors. Properties and characterization of super conductors. Applications of Super conductors.

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برنامج الهندسة الكهروميكانيكية -3

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EME Program Courses Prerequisites Fall Prerequisites Cr. Hrs Spring Prerequisites Cr. Hrs

Leve

l-0

MP101 Mathematics I 3 MP102 Mathematics II MP101 3 MP103 Mechanics I 3 MP104 Mechanics II MP103 3

MP105 Engineering Graphics I 3 MP106 Engineering graphics II MP105 3

GPE101 Engineering Chemistry 3 PE102 Production Engineering 3

MP107 Physics I 3 CSE102 Computer Programming 3

HS102 Human Rights 1 MP108 Physics II MP107 3

HS101 English language 2 HS103 History of Engineering Sciences 1

18 19

Leve

l-1

MP201 Mathematics III MP102 3 MSE202 Strength of Materials EME205 3

EME201 Machine Drawing MP105 3 EME204 Logic Circuits and Micro processors EME207 3 EME203 Thermodynamics I MP107 3 EME206 Fluid Mechanics I MP107 3 EME205 Properties and Testing of Electro Mechanical Materials 3 MP202 Math IV MP201 3 EME207 Electric Circuits MP108 3 EME208 Analysis and Simulation of Electric Circuits EME207 3 EME209 Electrical Measurements and Instrumentation MP108 3 EME210 Electronic Devices and Circuits EME207 3 HS201 Technical Writing 2 HS202 Engineering Economics 2

20 20

Leve

l-2

EME301 Fluid Mechanics II EME206 3 EME302 Thermodynamics II EME203 3

EME303 Mechanics of Machinery MP104 3 EME304 Mechanical Vibrations EME303 3 EME307 Heat Transfer EME203 3 EME306 Industrial Electronics EME 210 3

EME309 Electrical Power Systems EME207 3 EME308 Electrical Machines EME207 3

EME311 Design of Mechanical Systems EME201, MSE202 3 EME310 Theory of Combustion EME307 3

HS301 Project Management 2 HS302x Humanities 2 17 17

Leve

l-3

EME401 Thermal Power Plants EME302,EME310 3 EME402 Internal Combustion Engines EME310 3

EME403 Fluid Machinery EME301 3 EME404 Protection of Electromechanical Systems EME309, EME401 3

EME405 Automatic Control of Electromechanical Systems EME308,EME304 3 EME406 Electromechanical Drives EME308, EME303 3

EME407 Measuring Systems and Data Acquisition EME 209 3 ELE Elective II 3

ELE Elective 1 3 ELE Elective III 3

HS401 Law & Engineering Ethics 2 HS402x Humanities 2 17 17

Leve

l-4

EME501 Safety of Electromechanical Systems EME404 3 EME502 Computer Applications in Industry EME306 3

EME503 Solid State Drives EME306 3 ELE Elective V 3

ELE Elective IV 3 EME504 Refrigeration and Air Conditioning EME307 3

EME505 Fluid Power Systems EME301 3 ELE Elective VI 3

HS501x Humanities 2 HS502x Humanities 2

EME507 Project I 3 EME508 Project II EME507 4

17 18

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EME Elective Courses Prerequisites

Code Course Title Prerequisites Credit Hours

EME410 Computer Aided Manufacturing PE102, CSE102 3

EME411 Renewable Energy EME302, EME309 3

EME412 Advanced Materials EME205 3

EME413 Advanced Industrial Electronics EME306 3

EME414 Codes and Specification of Electrical Systems EME207 3

EME415 Gas Dynamics EME310 3

EME416 Turbomachinery EME403 3

EME417 Applied Automatic Control EME405 3

EME418 Mechanical Power Transmission EME311 3

EME510 Electrostatic and Electromagnetic Fields EME207 3

EME511 Communications Engineering EME510 3

EME512 Electromechanical Motion Devices EME304,EME406 3

EME513 Computer Controlled Systems EME417 3

EME514 Electro-hydraulic circuits EME301 3

EME515 Robotics EME303 3

EME516 Automotive Engineering EME402 3

EME517 Design of Thermal and Fluid Systems EME301,EME302,EME307 3

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Math I Mechanics I Eng Graphics I

Eng Chemistry Physics I Human Rights English Lang

Math II Mechanics II Eng Graphics II

Production Eng

Physics II Computer Programming History

Math III Machine Drawing

Thermodynamics I

Properties and Testing

of EM Materials

Electric Circuits

Technical Writing

Math IV Strength of Materials

Logic Circuits and

Micro processors

Fluid Mechanics I

Analysis and Simulation of Electric Circuits

Electronic Devices and

Circuits

Fluid Mechanics II

Mechanics of Machinery

Heat Transfer

Electrical Power

Systems

Design of Mechanical Systems

Project Management

Thermodynamics II

Mechanical Vibrations

Industrial Electronics

Electrical Machines

Theory of Combustion

Humanities

Thermal Power Plants

Fluid Machinery

Automatic Control of

EM Systems

Measuring Systems and

Data Acquisition

Elective I Law & Engineering

Ethics

Internal Combustion

Engines

Protection of EM Systems

EM Drives Elective II Elective III Humanities

Safety of EM Systems

Solid State Drives

Fluid Power Systems

Project I Elective IV Humanities

Computer Applications in Industry

Refrigeration and Air

Conditioning

Project II Elective V Elective VI Humanities

Electrical Measurements

& Instrumentation

Engineering Economics

Electromechanical Engineering Program Plan

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PROGRAM REQUIREMENTS

a- Principal Courses


MSE202 Strength of materials 3

EME201 Machine Drawing 3

EME204 Logic Circuits and Micro Processors 3

EME205 Properties and Testing of Electro mechanical materials 3

EME208 Analysis and Simulation of Electric Circuits 3

EME209 Electrical Measurements and Instrumentation 3

EME210 Electronic Devices and Circuits 3

EME301 Fluid Mechanics II 3

EME302 Thermodynamics II 3

EME303 Mechanics of machinery 3

EME304 Mechanical Vibrations 3

EME307 Heat Transfer 3

EME309 Electrical Power Systems 3

EME310 Theory of Combustion 3

EME311 Design of Mechanical Systems 3

TOTAL 45

a- Compulsory Courses


EME306 Industrial Electronics 3 EME308 Electrical Machines 3 EME401 Thermal Power Plants 3 EME402 Internal Combustion Engines 3 EME403 Fluid Machinery 3 EME404 Protection of Electro Mechanical Systems 3 EME405 Automatic Control of Electromechanical Systems 3 EME406 Electromechanical Drives 3 EME407 Measuring Systems and Data Acquisition 3 EME501 Safety of Electro Mechanical Systems 3 EME502 Computer Applications in Industry 3 EME503 Solid State Drives 3 EME504 Refrigeration and Air conditioning 3 EME505 Fluid Power Systems 3 EME507 Project I 3 EME508 Project II 4

TOTAL 49

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b- Elective Courses (Student selects six courses from the following)


EME410 Computer Aided Manufacturing (CAM) 3 EME411 Renewable Energy 3 EME412 Advanced Materials 3 EME413 Advanced Industrial Electronics 3 EME414 Codes and Specification of Electrical Systems 3 EME415 Gas Dynamics 3 EME416 Turbomachinery 3 EME417 Applied Automatic Control 3 EME418 Mechanical Power Transmission 3 EME510 Electrostatic and Electromagnetic Fields 3 EME511 Communications Engineering 3 EME512 Electromechanical Motion Devices 3 EME513 Computer Controlled Systems 3 EME514 Electro-hydraulic circuits 3 EME515 Robotics 3 EME516 Automotive Engineering 3 EME517 Design of Thermal and Fluid Systems 3

TOTAL (Student selects six courses) 18

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Credit distribution and percentages in EME program University Faculty Principal Core Elective

First Term 3 15 0 0 0

Second Term 1 18 0 0 0

Third Term 2 9 9 0 0

Fourth Term 2 6 12 9 0

Fifth Term 2 0 15 3 0

Sixth Term 2 0 9 6 0

Seventh Term 2 0 0 12 3

Eighth Term 2 0 0 9 6

Ninth Term 2 0 0 9 3

Tenth Term 2 0 0 11 6 Total Credits 20 48 45 59 18

Credit Percentage 11.11 % 26.67 % 25 % 27.22 % 10 %

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Core Program Requirements EME 201 Machine Drawing 3 Cr [2.0.3] Prerequisites:MP106 A study of graphical representation of mechanical components involves graphical/CAD visualization, sketching, and geometric construction of mechanical components. The mechanical components includes fasteners and welded joints, pipelines and pipe fittings, valves and springs, keys and pins, gears and bearings, fits and tolerances. Students will layout and create 2D working industrial drawings that adhere to industry standards illustrated using CAD drawing construction techniques that implement graphical communication through the use of orthographic projection, section views, auxiliary views and the creation of assembly and detail mechanical components. The course also includes an introduction to 3D modeling. MSE 202 Strength of materials I 3 Cr [2.1.1] Prerequisites:EME205 Statics: moment and force resultants, equilibrium. Mechanics of deformable bodies: stress/strain, classification of material behavior, generalized Hooke's law. Engineering applications: axial loads, torsion of circular rods and tubes, bending and shear stresses in beams, deflection of beams, combined stresses, stress and strain transformation EME204 Logic circuit and microprocessors 3 Cr [2.1.1] Prerequisites:EME207 Number systems. Boolean algebra. Logic gates. Microcomputer structure. Microprocessor families. Memory systems and storage. Assembly language. Operating systems.

EME205 Properties and Testing of Electromechanical Materials 3 Cr[2.2.1] Introduction to engineering materials. Microstructure of solid materials. Imperfection of solids. Strengthening mechanisms. Types of Steel and their alloys. Non-ferrous metals and alloys. Polymers. Ceramics materials. Composites materials. Materials selection. Phase diagram. Mechanical properties of materials. Electrical and magnetic properties of materials. Optical properties of materials.

EME207 Electric Circuits 3 Cr[2.2.1] Prerequisites:MP108 DC circuit analysis: reduction methods, mesh/loop and node methods, transformation methods, Network theorems. First-order transients. AC circuit analysis: sinusoids and phasors, steady state conditions, impedance and admittance, power and energy, Balanced and unbalanced three-phase circuits. Computer applications. EME208 Analysis and simulation of Electric Circuits 3 Cr [2.1.1] Prerequisites:EME207 First and second order circuits. Lap lace transform in circuit analysis. Magnetically-coupled circuits. Fourier series. Filters and frequency response. Two-port networks. Computer packages applications (EWB, Pspice, Matlab, etc..)

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EME209 Electrical Measurements and Instrumentation 3 Cr [2.1.2] Prerequisites:MP108 Error analysis and accuracy. Analog measuring instruments. Measurement of Electric quantities. Comparisons methods for measurements. Active and reactive power measurements. Oscilloscopes. Digital multimeters. EME210 Electronic Devices and Circuits 3 Cr [2.2.1] Prerequisites:EME207 Motion of charged particles in electromagnetic fields. Semiconductor physics. Diodes. Transistors. Amplifiers circuits. Biasing and small signal analysis. Oscillators and timers. EME212 Fundamentals of Electrical & Mechanical Engineering 3 Cr [2.2.0] Prerequisites:MP108 Electrostatics. Electromagnet ethics. Transformers. Electromagnetic energy transformation. Properties and structures of electronic components including resistors, capacitors, diodes and transistors, c.c. and dc. circuits, electronic laboratory instruments, circuit analysis and design. Fundamentals of energy transformation and exchange systems, Sizing, matching and installation of electrical, mechanical, plumbing, heating, ventilation and air conditioning (HVAC) systems. EME301 Fluid Mechanics II 3 Cr [2.2.1] Prerequisites:EME206 This course is an introduction to the theory and application of continuum fluid mechanics. Fluid properties and state relations are studied. Incompressible laminar and turbulent flows are investigated using control volume, Reynolds Transport Theorem, and momentum and energy equations. Navier-Stokes Equations are developed. Dimensional analysis, Buckingham Pi Theorem and modeling are covered. Flow rate, pipe sizing and minor losses in pipe systems are addressed. Compressible flow and gas dynamics are introduced and include topics in boundary layer theory, Mach number, stagnation properties and shock waves. EME 302 Thermodynamics II 3Cr [2.3.0] Prerequisites:EME203 Reciprocating machines, gas turbine power cycles, steam turbine power cycles, combined gas-vapor power cycles, flow through nozzles, types of steam turbines, turbine governing and control, course project. EME 303 Mechanics of machinery 3 Cr [2.2.0] Prerequisites:MP104 A study of the fundamental concepts underlying the study of velocity, acceleration, and force analysis of machines; linkages, cams, gears, and flywheels; balancing of rotating and reciprocating machine elements; introduction to synthesis; computer simulation of mechanical systems. EME 304 Mechanical Vibrations 3 Cr [2.2.1] Prerequisites:EME303 The course initially develops a foundation in analyzing elementary single and two degree of freedom systems subjected to natural and various types of forced motion. Then using this foundation, multi-degree of freedom systems are investigated for both natural and forced motion. Modeling, damping, resonance, force transmissibility and modal analysis are discussed. Emphasis is placed on practical vibrations problems in several engineering fields. Design problems provide the opportunity to apply

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principles taught in the classroom to realistic problems encountered by practicing engineers. In class demonstrations supplement the theory development. EME306 Industrial Electronics 3 Cr [2.2.2] Prerequisites:EME210 Power semiconductor devices. Diode circuits and rectifiers. Converters. AC voltage controllers. DC choppers. EME 307 Heat Transfer 3Cr [2.2.1] Prerequisites:EME203 Steady one-dimensional heat conduction in: plane walls, cylinders and spheres, heat transfer from finned surfaces, heat transfer in common configurations, transient heat conduction. Forced convection: over flat plate, across cylinders, tube-banks and inside tubes; natural convection: over surfaces and inside enclosures. Radiation heat transfer: radiation properties, view factors and radiation exchange between gray surfaces. EME308 Electrical machines 3 Cr [2.2.2] Prerequisites:EME207 EMF and MMF equations. Synchronous machines. Three-phase Induction machines. Speed control. Single phase induction motors. EME309 Electrical power systems 3 Cr [2.2.1] Prerequisites:EME207 Introduction to power systems. Transmission lines. Cables. Power distribution systems. Low voltage distribution and switchgears. Power factor correction. Load study. EME310 Theory of Combustion 3Cr [2.2.1] Prerequisites:EME307 Theory of combustion: Heat of reaction, flame temperature and combustion products. Chemical equilibrium and reaction kinetics. Structure of flames and flame transmitting. Explosion and detonation. Flammability limits, ignition and quenching: Flame trap and flame stabilization. Laminar and turbulent gaseous flames. Combustion of liquid and solid fuels. Pollutant formation in combustion. Reduction of emission by modification of combustion parameters. Combustion principles and equipment: Industrial gas and liquid burners. EME311 Design of Mechanical Systems 3 Cr [2.2.1] Prerequisites:EME201, MSE202 A study of mechanical design principles emphasizing application of mechanical design to industrial machinery, component sizing and dimension determinations and design solution of a mechanical component problem. The course will include theories of failure and safety factors, design for static and fatigue strength, deflection and rigidity considerations. The course will also include column design, pressure vessels and springs, mechanical joints such as fasteners, welding, and rivets. Techniques of component solution design will include computer design solutions, Computer Aided Design, extensive use of handbooks, standards and manufacturers specifications and manufacturing for assembly.

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EME 401 Thermal Power Plants 3 Cr [2.2.1] Prerequisites:EME302, EME310 Introduction, a steam power cycles review, steam generators, steam generator controls, soot blowing and blow down, boiler materials, fuel system, reduction of emissions. Steam Turbines, Condensers, Cooling Towers, Combined cycles plants, heat recovery generators. Course Project. EME402 Internal Combustion Engines 3 Cr [2.2.1] Prerequisites:EME310 Advanced Injection systems in both spark-ignited and compression-ignited engines – pressure and flaw rate calculations in injection systems – fuel-air cycles and combustion charts – Chemical equilibrium and dissociation – Emission control – Energy balance of engines – testing and performance maps. EME403 Fluid Machinery 3 Cr [2.2.1] Prerequisites:EME301 Thermal and hydraulic design and analysis of pumps, fans, turbines and compressors. Component selection, system design and performance evaluations. EME404 Protection of Electromechanical systems 3 Cr [2.2.0] Prerequisites:EME309, EME401 Per-unit systems. Symmetrical components. Unbalance faults and short circuit calculation. Protection theory. Electromagnetic relays. Protection of power system components. Protection of integrated power systems. Relays coordination. Control and switchgears. EME405 Automatic control of electromechanical systems 3 Cr [2.2.1] Prerequisites:EME304, EME308 Introduction to control systems. Components. Modeling, Block diagram and signal flow graph. Transient response and steady-state accuracy. Stability. Root locus and Frequency response analysis. Introduction to design. EME406 Electromechanical Drives 3 Cr [2.2.1] Prerequisites:EME303, EME308 Fundamentals of conventional Drives. DC motor drives and control. Control of synchronous and induction motors. Special machine drives. EME407 Measuring systems and data acquisition 3 Cr [2.1.2] Prerequisites:EME209 Sensors and transducers. Signal conditioning. Measurement systems. A/D and D/A converters. I/O, 8255 and device interfacing. Interfacing I/O, ADC and sensors to a PC. Serial data Communication. EME501 Safety of electromechanical systems 3 Cr [2,2,1] Prerequisites:EME404 Sources of hazards and electric accidents. Hazardous locations. Selection of equipment in hazardous areas. Standards and codes of safety. Electromechanical equipment selection. EME502 Computer Applications in Industry 3 Cr [2.1.2] Prerequisites:EME306 Supervisory control and data acquisition (SCADA) systems. Distributed control systems (DCS). Programmable logic controllers (PLC).

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EME503 Solid state drives 3 Cr [2.2.2] Prerequisites:EME306 Inverters and cycloconverters. Adjustable speed DC motor drives. Adjustable speed AC motor drives. Vector control of AC motor drives. . Direct torque control of AC motor drives. Dc-link drives. Special types of drives. EME 504 Refrigeration and Air Conditioning 3 Cr [2.2.1] Prerequisites:EME307 Introduction of refrigeration cycles, simple vapor compression cycle, multi-pressure compression cycles, heating load calculations, psychometric chart, moist air psychometric processes, air conditioning cycles, cooling load calculations. Absorption refrigeration cycles, compressors, evaporators, condensers, expansion devices, cooling coils, humidifiers and dehumidifiers, chemical dryers, water-cooled and air-cooled chillers, equipment selection, design of air ducts, piping design, course project. EME505 Fluid Power Systems 3 Cr [2.2.1] Prerequisites:EME301 Introduction. Hydraulic fluids and transmission lines, Fluid power actuators, Hydraulic pumps, Control valves, Accumulators and pressure intensifiers. Hydraulic circuit design and analysis. Pneumatic systems and applications. EME507 Project 3 Cr [3,0,1] Electromechanical Engineering projects. EME508 Project 3 Cr [4,0,1] Prerequisites:EME507 Electromechanical Engineering projects.

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Elective Courses

EME410 Computer Aided Manufacturing 3 Cr [2,2,1] Prerequisites:PE102, CSE102 Introduction to computer-aided manufacturing processes. CNC machines, robot and PLC programming. Design for CIM. Fixed and flexible manufacturing systems. Process planning and scheduling. Simulation software for manufacturing systems. EME411 Renewable Energy 3 Cr [2,2,1] Prerequisites:EME302, EME309 Introduction to the broad range of renewable alternative energy systems available to relieve and reduce the use of pollution-producing fossil fuel-based energy systems in construction and transportation. Covers description and basic operation principles of Solar, Wind, Geothermal, Hydro Power, Biomass and Fuel Cells. Presents the advantages and disadvantages of each of the renewable energy systems and advantages of integrating these systems into usable power. Practical applications for renewable systems will be discussed in class lectures and further illustrated with hands-on laboratory backup experiments and field trip examples. EME412 Advanced Materials 3 Cr [2,2,1] Prerequisites:EME205 Introduction to the basic characteristics of engineering materials. The course will emphasize the selection of metals, plastics, ceramics, and composites for mechanical design purposes. The relationships of structure, material properties, and material selection to the design/ manufacturing process will be emphasized. The study will be enhanced by laboratory experience where the student will study mechanical testing equipment as well as chemical, mechanical and heat treatment effects on important material properties. The course will include the study of such areas as corrosion, strength, rigidity, wear resistance, thermal expansion, elasticity and plasticity principles of the common engineering materials. The course includes the use of equipment such as mechanical testing, light microscopes, electron microscopes, metallograph, furnaces and controllers. Data interpretation is also an EME413 Advanced Industrial Electronics 3 Cr [2,2,1] Prerequisites:EME306 Resonant converters. Power supply applications. Residential and industrial applications. Electric utility applications. Practical converter design considerations. EME414 Codes and Specifications of Electrical Systems 3 Cr [2,2,1] Prerequisites:EME207 International standards, IEC standards regarding the main specifications, testing, inspection and commissioning of electrical equipment and drives. EME415 Gas Dynamics 3 Cr [2,2,1] Prerequisites:EME310 Dynamics and thermodynamics of compressible fluid flow. One-dimensional isentropic flow, nozzles, diffusers, normal and oblique shocks. Flow with friction and heating. Two-dimensional Prandtl-Meyer flow and method of characteristics. Computer solutions to general gas dynamic flow.

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EME416 Turbomachinery 3 Cr [2,2,1] Prerequisites:EME403 Important aspects of design, selection, operation and maintenance of compressors, fans and blowers. Theory of each type (rotodynamic and positive displacement). EME417 Applied Automatic Control 3 Cr [2,2,1] Prerequisites:EME405 Root locus analysis and design. Frequency response analysis and design. Lead and lag compensation. PID controller design. EME418 Mechanical Power Transmission 3 Cr [2,2,1] Prerequisites: EME311 The course will include the study of mechanical power transmission systems and standards such as shaft design, gear system design and gear trains, belt and chain drives, power screw, antifriction bearing and plain bearings, clutches, couplings, brakes and flywheel components and cams. Techniques of component solution design will include computer design solutions, Computer Aided Design, system design and realization of mechanical plans. EME510 Electrostatic and Electromagnetic fields 3 Cr [2,2,1] Prerequisites:EME207 Vector analysis. Static electric fields. Steady electric currents. Static magnetic field. Varying fields and Maxwell's equations.

EME511 Communications Engineering 3 Cr [2,2,1] Prerequisites:EME510 Signals and systems. Modulation techniques. Transmitters and receivers. Switching. Noise and distortion. Tele-metering. Introduction to mobile communications.

EME512 Electromechanical motion devices 3 Cr [2,2,1] Prerequisites:EME304, EME406 Brushless DC machines. Stepper motors. Permanent magnet synchronous motors. Reluctance motors. Linear motors.

EME513 Computer controlled Systems 3 Cr [2,2,1] Prerequisites:EME405 Introduction. Discrete-time systems. Discrete equivalents. Digital control design using discrete equivalents. Design using state-space methods. Quantization effects. Applications.

EME514 Electro-hydraulic Circuits 3 Cr [2,2,1] Prerequisites:EME301 Basic hydraulic power systems, electric components, electro-hydraulic switches and switching circuitry, proportional and servo hydraulics, PLCs and hydraulic power. EME515 Robotics 3 Cr [2,2,1] Prerequisites:EME303 A basic study of robotics and automation. The course will emphasize applications of robotic devices and mechanisms in industrial and commercial applications. The study will be enhanced by laboratory experience where the student will study computer programming of robot mechanisms, and the different

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types of mechanisms by which robots are operated. The course will include the study of computer programming, electrical, electronic and microprocessor control and sensing detection devices and the mechanical and hydraulic linkage power devices involved in the robots. This course also explores the societal impact of robotics and automation in industry. EME516 Automotive Engineering 3 Cr [2,0,2] Prerequisites:EME402 Engine and associated systems (fuel, ignition, cooling, lubrication). Turbocharging. Transmission. Steering. Braking. Suspension. Emission-control systems. Recent advances. Thermodynamic analysis of fuel-air cycles. Combustion charts. Chemical equilibrium and dissociation. Control of exhaust emissions. Engine friction. Heat transfer. Engine energy balance. Testing and performance maps. EME517 Design of Thermal and Fluid Systems 3 Cr [2,2,0] Prerequisites:EME301, EME401 Integration of fundamental principles of thermodynamics, fluid mechanics, heat transfer and related subjects in the design of thermal and fluid systems. The design process is applied to pumps, fans, turbines, boilers, and heat exchangers using economics and optimization with case studies.

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Math I Mechanics I Eng Graphics I

Eng Chemistry Physics I Human Rights English Lang

Math II Mechanics II Eng Graphics II

Production Eng

Physics II Computer Programming History

Math III Machine Drawing

Thermodynamics I

Properties and Testing

of EM Materials

Electric Circuits

Technical Writing

Math IV Strength of Materials

Logic Circuits and

Micro processors

Fluid Mechanics I

Analysis and Simulation of Electric Circuits

Electronic Devices and

Circuits

Fluid Mechanics II

Mechanics of Machinery

Heat Transfer

Electrical Power

Systems

Design of Mechanical Systems

Project Management

Thermodynamics II

Mechanical Vibrations

Industrial Electronics

Electrical Machines

Theory of Combustion

Humanities

Thermal Power Plants

Fluid Machinery

Automatic Control of

EM Systems

Measuring Systems and

Data Acquisition

Elective I Law & Engineering

Ethics

Internal Combustion

Engines

Protection of EM Systems

EM Drives Elective II Elective III Humanities

Safety of EM Systems

Solid State Drives

Fluid Power Systems

Project I Elective IV Humanities

Computer Applications in Industry

Refrigeration and Air

Conditioning

Project II Elective V Elective VI Humanities

Electrical Measurements

& Instrumentation


Electromechanical Engineering Program Plan

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برنامج ھندسة العمارة التشييد - 4

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CAE Program Courses Prerequisites

Fall Credit Hours Prerequisites Spring Credit

Hours Prerequisites

Leve

l-0

MP101 Mathematics-1 3 N/A MP102 Mathematics-2 3 MP 101 MP103 Engineering Mechanics-1 3 N/A MP104 Engineering Mechanics-2 3 MP 103 MP105 Engineering Graphics-1 3 N/A MP106 Engineering Graphics-2 3 MP 105 GPE101 Engineering Chemistry 3 N/A CSE102 Computer Programming 3 N/A MP107 Physics-1 3 N/A MP108 Physics-2 3 MP 107 HS101 English Language 2 N/A PE102 Production Engineering 3 N/A HS102 Human Rights 1 N/A HS103 History of Engineering Sciences 1 N/A

Leve

l-1

CAE201 Structural Analysis-1 3 MP 104 CAE206 Engineering Material & Stress Analysis 3 CAE 201 CAE202 Construction Surveying 3 MP 102 MP202 Mathematics-4 3 MP 201 MP201 Mathematics-3 3 MP 101 , MP 102 CAE207 Construction Materials-1 3 N/A CAE203 History and Theory of Architecture-1 2 N/A HS202 Engineering Economics 2 N/A HS201 Technical Writing 2 N/A CAE208 Visual Design 3 MP 105 CAE204 Architectural Drafting 2 MP 105 CAE209 Environment-1 (Climate & Environment) 2 N/A CAE205 Building Technology 3 MP 105 CAE210 Architectural Design Fundamentals 3 N/A

Leve

l-2

CAE301 Structural Analysis-2 3 CAE 201 , CAE 206 CAE307 Design Studio-2 3 CAE 302 CAE302 Design Studio-1 3 CAE 203 , CAE 210 CAE308 History and theory of Architecture-2 2 CAE 203 HS301 Project Management 2 N/A CAE309 Elective Course-1 3 See Diagram CAE303 Hydraulics for Civil Engineers 3 MP 101 CAE310 Soil Mechanics 3 CAE 303 CAE304 Transportation Engineering & Urban planning 3 MP 104 HS302x Elective Course-2 2 N/A CAE305 Construction Management-1 2 N/A CAE311 Tender-1 (Cost Estimation & Control) 2 N/A CAE306 Construction Engineering Drawings 3 MP 105 CAE312 Urban Design and Landscape 3 CAE 209

Lvel

-3

CAE401 Design of R.C. Structures-1 3 CAE 206, CAE 301 CAE406 Theory of Architecture-1 2 CAE 308

CAE402 Environment-2 (Environmental & Sanitary Engineering) 3 CAE 303 CAE407 Design of Foundations & Retaining Structures 3 CAE 310

CAE403 Methods & Equipment for Construction-1 3 CAE 201 CAE408 Design of R.C. Structures-2 3 CAE 401 HS401 Law and Engineering Ethics 2 N/A EME212 Environment-3 (Fund. Of Mech. & Elec. System) 3 N/A CAE404 Design of Metallic Structures-1 3 CAE 206, CAE 301 CAE410 Computer Applications in Construction Eng. 3 N/A CAE405 Design studio-3 3 CAE 307 , CAE 308 CAE411 Elective Course-3 3 See Diagram

Leve

l-4

CAE501 Elective Course-4 3 See Diagram CAE 505 Methods & Equipment for Construction-2 3 CAE 403 CAE502 Theory of Architecture-2 2 CAE 406 CAE 506 Quality Control, and Repair of Structures 3 N/A HS501x Elective Course-5 2 See Diagram CAE 507 Elective Course-8 3 See Diagram CAE503 Elective Course-6 3 See Diagram CAE 508 Elective Course-9 3 See Diagram HS502x Elective Course-7 2 See Diagram CAE 509 Elective Course-10 2 See Diagram HS503x Elective Course-11 2 See Diagram CAE 510 Project-2 4 See Diagram CAE504 Project-1 3 See Diagram

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CAE Program and Elective Courses Prerequisites

Code Course Title Prerequisites

MP101 Mathematics-1 N/A MP103 Engineering Mechanics-1 N/A MP105 Engineering Graphics-1 N/A MP106 Engineering Graphics-2 MP105 GPE101 Engineering Chemistry N/A MP107 Physics-1 N/A HS101 English Language N/A MP102 Mathematics-2 MP 101 MP104 Engineering Mechanics-2 MP 103 PE102 Production Engineering N/A

CSE102 Computer Programming N/A MP108 Physics-2 MP 107 HS102 Human Rights N/A HS103 History of engineering sciences N/A

CAE201 Structural Analysis-1 MP 104 CAE202 Construction Surveying MP 102 MP201 Mathematics-3 MP 101 , MP 102

CAE203 History and theory of Architecture-1 N/A HS201 Technical Writing N/A

CAE206 Engineering Material & Stress Analysis CAE 201 MP202 Mathematics-4 MP 201

CAE207 Construction Materials-1 N/A HS202 Engineering Economics N/A

CAE208 Visual Design MP 105 CAE209 Environment-1 (Climate & Environment) N/A CAE210 Architectural Design Fundamentals N/A CAE301 Structural Analysis-2 CAE 201 , CAE 206 CAE302 Design Studio-1 CAE 203 , CAE 210

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HS301 Project Management N/A CAE303 Hydraulics for Civil Engineers MP 101 CAE304 Transportation Engineering & Urban planning MP 104 CAE305 Construction management-1 N/A CAE306 Construction Engineering Drawings MP 105 CAE307 Design Studio-2 CAE 302 CAE308 History and theory of Architecture-2 CAE 203 CAE310 Soil Mechanics CAE 303 CAE311 Tender-1 (Cost estimation & control) N/A CAE312 Urban Design and Landscape CAE 209 CAE401 Design of R.C. Structures-1 CAE 206, CAE 301

CAE402 Environment-2 (Environmental & Sanitary Engineering)

CAE 303

CAE403 Methods & Equipment for Construction-1 CAE 201 HS401 Law and Engineering Ethics N/A

CAE404 Design of Metallic Structures-1 CAE 206, CAE 301 CAE405 Design studio-3 CAE 307 , CAE 308 CAE406 Theory of Architecture-1 CAE 308 CAE407 Design of Foundations & Retaining Structures CAE 310 CAE408 Design of R.C. Structures-2 CAE 401 EME212 Environment-3 (Fund. Of Mech. & Elec. System) N/A CAE410 Computer Applications in Construction Eng. N/A CAE502 Theory of Architecture-2 CAE 406 CAE 505 Methods & Equipment for Construction-2 CAE 403 CAE 506 Quality Control, and Repair of Structures N/A HS302a Human resource Management N/A HS302b Strategic Management N/A HS302c Computer & Society N/A HS302d Accounting N/A HS402a Foundation of Marketing N/A HS402b Introduction to Finance N/A HS402c Human Computer Interaction N/A HS501a Specifications & Feasibility Studies N/A HS501b Analytical Skills & Critical Thinking N/A

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HS501c Communication Laws & Codes N/A HS501d Construction Contracts and Law N/A

CAE309a Computer Visualization CAE 204 , CAE 208 CAE309b Advanced Engineering Materials CAE 206 MP301 Probability & Statistics for Engineers N/A CAE411a Dynamics of Structures CAE 206, CAE 301 CAE411b Design Studio-4 CAE 308 CAE411c Tender 2 (Specifications & Codes) CAE 311

CAE501a Prefabricated Water and Pre-stressed Concrete Structures

CAE 408

CAE501b Projects Management-2 CAE 405 CAE501c Theory of Housing CAE 411b CAE503a Highway Engineering CAE 304 , CAE 310 CAE503b Advanced Interior Design CAE 210 CAE503c Construction Management 2 CAE 305 CAE507a Analysis and Design of Composite Structures CAE 404 , CAE 408 CAE507b Heritage Preservation CAE 308 CAE507c Project Planning and Scheduling N/A CAE 508a Advanced Environmental control CAE 209 CAE 508b Design of Metallic Structures-2 CAE 404 CAE 508c Site Analysis Study N/A CAE509a Concrete and Steel Bridges CAE 408 , CAE 508b CAE509b Geographical Information Systems CAE 509c CAE509c Theory of Urban Planning CAE 312

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متطلبات برنامج ھندسة العمارة والتشييد Program Requirements

a- Basic Engineering Sciences (Core Departmental Courses)


CAE202 Construction Surveying 3 CAE203 History & Theory of Architecture-1 2 CAE204 Architectural Drafting 2 CAE205 Building Technology 3 CAE207 Construction Materials-1 3 CAE208 Visual Design 3 CAE209 Environment-1 (Climate & Environment) 2 CAE210 Architectural Design Fundamentals 3 CAE301 Structural Analysis-2 3 CAE303 Hydraulics for Civil Engineers 3 CAE304 Transportation Engineering & Urban Planning 3 CAE305 Construction Management-1 2 CAE306 Construction Engineering Drawings 3 CAE308 History & Theory of Architecture-2 2 CAE310 Soil Mechanics 3 CAE312 Urban Design and Landscape 3 CAE403 Methods & Equipment for Construction-1 3

TOTAL 46 b- Applied Engineering Sciences (Core Departmental Courses)


CAE302 Design Studio-1 3 CAE307 Design Studio-2 3 CAE311 Tender-1 (Cost Estimation & Control) 2 CAE401 Design of RC Structures-1 3 CAE402 Environment-2 (Environmental and Sanitary Engineering) 3

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CAE404 Design of Metallic Structures-1 3 CAE405 Design Studio-3 3 CAE406 Theories of Architecture-1 2 CAE407 Design of Foundation and Retaining Structures 3 CAE408 Design of RC Structures-2 3 CAE410 Computer Application in Construction Engineering 3 CAE502 Theories of Architecture-2 2 CAE505 Methods and Equipment for Construction-2 3 CAE506 Quality Control and Repair of Structures 3 CAE504 Project-1 3 CAE510 Project-2 4

TOTAL 48

89

Applied Engineering Sciences (Departmental Elective Courses)


CAE309 Elective Course-1 3 CAE309a Computer visualization CAE309b Advanced Engineering Materials MP301 Probability & Statistics for Engineers CAE411 Elective Course-3 3 CAE411a Dynamics of Structures CAE411b Design Studio 4 CAE411c Tender 2 (Specifications & codes) CAE501 Elective Course-4 3 CAE501a Prefabricated Water and Pre-stressed Concrete Structures CAE501b Projects Management-2 CAE501c Theory of Housing CAE503 Elective Course-6 3 CAE503a Highway Engineering CAE503b Advanced Interior Design CAE503c Construction Management 2 CAE507 Elective Course-8 3 CAE507a Analysis and Design of Composite Structures CAE507b Heritage Preservation CAE507c Project Planning and Scheduling CAE 508 Elective Course-9 3 CAE 508a Advanced Environmental Control CAE 508b Design of Metallic Structures-2 CAE 508c Site Analysis Study CAE509 Elective Course-10 2 CAE509a Concrete and Steel Bridges CAE509b Geographical Information Systems CAE509c Theory of Urban Planning

TOTAL 20

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COURSE DESCRIPTION a- Basic Engineering Sciences (Departmental Courses) CAE 202 Construction Surveying 3(2,1,2) Prerequisites: MP 102 Standards; Unit calibration; Measurement of distance Linear surveying technique; Bearing calculation and measurement; Compass Traversing ; Rectangular coordinates calculation; Application of practical surveying problems; Measurement of horizontal and vertical angles; Theodolite Traversing; Profile leveling; Contouring; Computation of earthwork; Layout of construction engineering projects.Types of traverses, closed, open, link, traverse nets and application. Theodolite application, automatic laser level, longitudinal and grid leveling, precise leveling , mass diagram and hard distance total station and application, setting out construction projects, geographic information system, global positioning system, construction surveying software. CAE 203 History & Theory of Architecture-1 2(2,0,0) The course bridges the gap between conventional study of the early history of architecture and the theories of architecture. This is achieved by first providing an introduction to architectural theories, encompassing the definition of architecture and notions that have determined the forms of the built environment. Topics include the classical elements of architecture, theories of building types, theories of styles and forms. Study of design principles: unity, composition, proportion, balance, rhythm, repetition, contrast, orders, scale, symmetry, and hierarchy. The course introduces the principles and elements of form and the relationship between form and space, and the properties of space. At the same time, this course surveys the architecture of the historical time period spanning from the prehistoric era, including Ancient Egyptian and Mesopotamian (Assyrian and Babylon) civilizations, to that of the Greek and Roman periods. The survey investigates innovations and challenges in architectural concepts, stylistic expression, building typology and construction techniques. The course focuses on the social, cultural and technical factors which influenced specific characteristics of a given time and place. CAE 204 Architectural Drafting 2(0,6,0) Prerequisites: MP 105 An introduction to the theory and practice of architecture as an art and a science. The course covers manual and digital graphic techniques used in the perception of architectural design, basic freehand drawing techniques for architectural perception and design and the introduction to various skills, issues, and methods of thinking that bear directly on architectural design. Frameworks of architectural design, design methodologies, human and environmental factors are discussed. The examination of representative architectural building types enable the comprehension of various techniques and strategies of architectural design. CAE 205 Building Technology 3(2,3,0) Prerequisites: MP 105 The course aims to increase the students’ ability to comprehend various building components and behavior, where the student must demonstrate adeptness in acquiring the necessary theoretical background in building technology and developing the ability to identify basic building requirements in order to achieve better construction efficiency. The course covers the following topics: Building systems- wall bearing and skeleton systems; basic concept, main components, loads and structural behavior. Foundations- concept, types of foundations: isolated and continuous footings/ raft/ piles. Walls and partitions- types of bricks, stones, masonry and ashler/ wall details: coping, lintels, skirting, etc.

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CAE 207 Construction Materials-1 3(2,1,2) The course discusses the concept of materials selection and methods of construction of building finishes. All architectural details will be examined to achieve an optimum design of construction spaces with particular quality of details. CAE 208Visual Design 3(2,2,0) Prerequisites: MP 105 The course is divided into four major modules : Visual Studies: Introduction to the elements, principles and techniques of design that underlie and inform the analysis, creation and evaluation of visual compositions and are crucial to the design process and creative of form-making. The study of selected topics pertaining to the perception of visual compositions. The study of visual compositions entailing point, linear, two- and three dimensional elements or their combinations. The study of color and its influence on visual compositions. A variety of studio exercises are utilized to apply the knowledge and skills acquired. Theory of Color: The course introduces the basic principles, properties and stimulus of color and physiological aspects of vision. Topics include the nature, source, and perception of color sensation, color dimensions and optic system. The course will also investigate various color theories such as Munsell and Ostworlds, color relations and schemes. A variety of studio exercises are used for applications. Shade and shadow: The course introduces the principles of shade and shadow - Shadow of point, lines, plane, volume, and circle. Exercises on shade and shadow of architectural elements, shadows of circular solids and shadows on buildings, etc. Perspective: The course introduces systems and methods of perspective drawing. Study of two point perspective of simple objects, outdoor and indoor view of building, etc. One point and three point perspective of forms and buildings. Study of principles of perspective drawing with CAD techniques. CAE 209 CAE209 Environment-1 (Climate & Environment) 2(2,0,0) This course addresses human needs and comfort in relation to the natural and man-made environments. It shows how environmental factors may be utilized, controlled and modified as an integral part of architectural design. Specific topics include: climate and weather; psychrometrics; solar radiation; wind patterns; heat gains and losses; air circulation in and around buildings. Study of the environmental factors that affects architectural design. Methods of protection from environmental factors and architectural treatment (building form, orientation, natural ventilation in buildings, building material, openings etc..). The course shows the climatic regions of Egypt and its characteristics. CAE 210 – Architectural Design Fundamentals 3(0,9,0) An introduction to the theory and practice of architecture as an art and a science. The course covers manual and digital graphics techniques used in the perception of architecture design, basic freehand drawing techniques for architectural perception and design and the introduction to various skills, issues, and methods of thinking that bear directly on architectural design. Frameworks of architectural design, design methodologies, human and environmental factors are discussed. The examination of representative architectural building types enable the comprehension of various techniques and strategies of architectural design. CAE 301 Structural Analysis-2 3(2,2,0) Prerequisites: CAE 201, CAE 206 Introduction to statically indeterminate structures. Methods of structural analysis of statically indeterminate structures. Method of consistent deformation. Method of three-moment equation for continuous beams. Virtual work method, Moment distribution method. Stiffness method. Computer validation.

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CAE 303 Hydraulics for Civil Engineers 3(2,2,0) Prerequisites: MP 101 Hydrostatic, hydrostatic applications, pressure forces, flow conservation equation, continuity equation, energy equation (Bernoulli’s equation), momentum equation, flow measurements, orifices and weirs, flow in closed conduits, flow in open channels , and flow in pipeline system; pipes in parallel; pipeline network, pumps CAE 304Transportation Engineering & Urban Planning 3(2,2,0) Prerequisites: MP 104 This is a bi-disciplinary course addressing two major parallel subjects, namely: Transportation and Urban planning. Transportation Engineering: The first part will address the dynamics of transportation - introduction to transportation planning (goals and objectives- planning process- mathematical models- technical, economic and environmental evaluation)- public transport (public transport systems- demand for public transport- optimum planning of public transportation in urban areas- routes- stations- lines- rolling stock- capacity, operation, and time tables)- freight transport (freight transport systems- transport chain- handling equipment- storage- terminals- capacity and operation)- transport and environment (noise- air pollution- environment- oriented transportation planning)- traffic engineering (traffic characteristic and level of service- traffic survey and analysis- un-signalized intersections- signalized intersections- parking- pedestrian and bicycle demand and infrastructure- geometric design of road traffic networks- traffic safety- traffic management). Urban Planning: The second part discusses the components of urban environments, site analysis, urban conversation, urban networks and processes, public participation and sustainable development. CAE305 Construction Management-1 2(2,0,0) Introduction to construction management, project life cycle, responsibilities and relationships of construction project partners, management functions, legal organizational structure, contractual relationships, introduction to project planning, introduction to value engineering, safety and health in construction. CAE306 Construction Engineering Drawings 3(2,2,1) Prerequisites: MP 105 Introduction to construction engineering as related to municipal and regional projects. A brief review of the construction industry. Site layout, erection of steel and concrete structures. Drawing to demonstrate the concepts of various types of civil engineering and construction projects which include : residential and industrial buildings, water resources projects, urban transportation systems, coastal development projects, and environmental protection projects. Design and construction drawing which include architectural systems, structural systems, mechanical and electrical installation .Field trips and analysis of local construction projects. CAE308 History & Theory of Architecture-2 2(2,0,0) Prerequisites: CAE203 The second part of the course. It first presents the range of material factors (physical, cultural, social, and historical) that condition the formation of architecture and their interaction with the ideologies (interpretive, theoretical, and critical) that elaborate these factors at particular times. This attains the objective of introducing the disciplines of architecture, its distinct mode of thought and operation, recent history, and relation to other spheres of cultural production, such as art, science, technology, and politics by addressing issues related to the development of architectural theory. Furthermore, it surveys the history of architecture of the early Christian period, Medieval, Romanesque, Gothic, and Renaissance architecture in Europe of 18th and 19th centuries. They will be discussed in relation to principles and trends, addressing issues of function, structure in relationship to the cultural context, including philosophical, religious, political, economic and environmental factors.

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CAE310 Soil Mechanics 3(2,2,1) Prerequisites: CAE 303 Composition and structure of soils. index properties. Soil description and engineering classification. Effective stress. Vertical stresses. Shear strength. Lateral earth pressure. Seepage. Consolidation. Bearing capacity. Slope stability. Experimental determination of soil characteristics; Atterberg limits, Grain size, Compaction. In-situ density, Permeability, Shear strength test, Consolidation Exploration, sampling and in situ soil measurements; Soil report. CAE312 Urban Design and Landscape 3(2,2,0) Prerequisites: CAE 209

This course is divided into two main modules: Urban Design : This module introduces contemporary theories, approaches, and principles in the field of urban design. The course investigates the analysis and evaluation of the design of urban areas, spaces and complexes with emphasis on physical and social considerations and effects of public policies through case studies. The course focuses upon various themes in urban design and explores them in some depth. The course addresses issues such as theories of planning and design of urban spaces, building complexes, and new communities, neo- traditional town planning, suburban design, future trends in urban design, art in urban design, recent urban design theories, and urban design in practice. Landscape Architecture: This module is an overview of the fundamentals of landscape architecture, within the framework of the relationship between landscape and architectural design. Students are introduced to the study of exterior spaces as they relate to and complement building design, through the exploration of the theoretical and historical background of landscape design, site analysis, environmental issues and vegetation types. Associated fields include the study and classification of landscape elements, landform, plant life, microclimate, land use and preservation, landscape design methods, as well as the study of aesthetic and functional values. Selected projects cover a scope that includes open areas of variable scale. The course gives an overview of the fundamentals of architectural design and urban landscape, introduce the primary elements of theoretical and historical background of architecture and urban landscape. In student research, site analysis and environmental issues should be determined with one of main approaches of analytical studies

CAE 403 Methods and Equipment for Construction-1 2(2,2,0) Prerequisites: CAE 201 Design and construction of formwork systems; horizontal formwork. And vertical formwork. Concrete technology; mixing and batching concrete, transporting concrete, and placing and compacting concrete. Design and construction of dewatering systems; open sump system, well point system, and deep well system.; Design and construction of shoring systems; continuous pile system, secant pile system, and diaphragm wall system. Cranes; derrick cranes, mobile cranes, and tower cranes.

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b- Applied Engineering Sciences i. Core Departmental Courses

CAE302 Design Studio-1 3(0,11,0) Prerequisites: CAE203, CAE210 The course is the first in a series of four courses. It bridges the gap between the two main components of Architectural education, namely: Architectural Design and working Drawings. They are both taught in parallel, introducing problems that are to be solved on both levels: concepts and ideas as well as working details. It mainly involves the study of the factors and issues that underlie the understanding of the rendition of human needs and purposes into significant architectural forms. The course presents architectural design as a synthesis of environmental concerns, behavioral responses, functional requirements and technical systems. The course focuses on the architectural design process and its stages. Emphasis on the development of insight into the solution of building design problems: how they are studied (analysis), how they are approached and carried through (process) and how they are conceptualized and developed (synthesis). Issues of form and space, circulation patterns, geometry, space requirements, and structure systems, are explored through studio design exercises, projects and discussions. It also aims at increasing students’ knowledge of various finishing materials, their requirements and their methods of application. These include materials used on floors, walls and ceiling (criteria for application and maintenance). The course also covers building openings: doors and windows (basic concepts, materials and construction details). CAE307 Design Studio-2 3(0,11,0) Prerequisites: CAE302

The second part of this series, this course aims to develop the student awareness and understanding of design theories with regard to the aspects of architectural problems, exploration and appropriate use of architectural ordering system, and understanding and the application of various analytic and design processes and methods. The course emphasizes the stimulation of creative abilities and the development of skills integral to the architect. The course focuses on the context and the influence of cultural and social factors on design. Course studio work focuses on the preparation and presentation of design projects that emphasize the acquisition of representational and analytical skills, and the development of ingenuity in design involving consideration of program, space, site context, character, symbolism, and structure, in addition to research subjects. Moreover, it explores the various principles of execution design, the preparation of working drawings and schedules for openings and finishing materials through a application involving a small scale architectural project. It is also concerned with drafting and presentation techniques. CAE311 Tender-1 (Cost Estimation and Control) 2(2,1,0) Quantity surveying. Introduction to cost estimating in construction. Direct and indirect costs. Markups and profits. Construction bidding. Construction specification writing, types and uses. CAE 401 Design of R.C. Structures-1 3(2,2,0) Prerequisites:CAE206 , CAE 301 Introduction to Reinforced Concrete – Materials used in reinforced concrete – Mechanical properties of hardened concrete and reinforcing steel – Methods of design – Load factors and material factors – Behavior of reinforced concrete sections subjected to flexure for: untracked stage, working stress stage, and ultimate limit state - Design of sections subjected to flexure using both Ultimate Strength Limit state method and Working Stress method – Design of sections for shear – Bond, development length, and reinforcement splices – Design of sections subjected to axial loads – Design of sections under combined flexure and axial compression. Serviceability Limit states (deflection and cracking limit states) – Floor systems – Design of solid reinforced concrete one-way and two-way slabs – Design of floor beams – One-way and two-way hollow block slabs.

95

CAE 402Enviroment-2 (Environmental and Sanitary Engineering) 3(2,2,0) Prerequisites: CAE 303 Sources of pollution, Water resources and characteristics, Water quality, Water collection works, Water purification works, Water distribution works, Sewer systems, Wastewater characteristics, Wastewater treatment works, Wastewater disposal works, Treated wastewater reuse, Industrial wastes.

CAE404 Design of Metallic Structures-1 3(2,2,0) Prerequisites: CAE 206, CAE 301 Construction materials – Design criteria and considerations – Design loads of steel structures – Allowable stresses – Design of tension members – Stability of steel structures against lateral loads – Bracing systems – Column buckling – Design of axially compressed members – Design of bracing members – Design of laterally supported beams - Lateral torsional buckling of beams - Design of laterally unsupported beams – Design of beam-columns - Frames and trusses – Design of bolted and welded connections – Column bases. CAE405 Design Studio-3 3(0,11,0) Prerequisite: CAE307, CAE308 This course provides the student with knowledge, experience and skills required in analyzing and solving problems within the context of various architectural projects, with the intention of further developing the student's ability in the formation of spaces in complex building types and urban spaces that include diverse elements. The course also provides an understanding of the formative influence of building structure, construction and materials and of architectural strategies for environmental considerations. At the same time and in an integrated manner, it aims to develop students’ ability to comprehend basic building components and construction details leading to the practical execution of building projects, whereby students are required to present a complete set of construction documents for a public-use architectural project. The course focuses on integrating the design concept and functional aspects of the building with the various systems and technical installations (electrical, plumbing, mechanical and HVAC) that govern its operation. CAE406 Theories of Architecture-1 2(2,0,0) Prerequisite: CAE308 The course provides an overall perspective of modern architecture through the review, analysis and criticism of concepts, philosophies, ideologies, and models such as Functionalism, Internationalism, Deconstruction and Post-modernism that promulgated contemporary architectural design and represent the foundation of modern architectural thought. The course explores issues of the integrity of structure and form, the nature and expression of materials, environment and context, the relation of moral and political issues to architectural expression, the role of formal themes, and the nature of meaning in architecture. CAE 407 Design of Foundations and Retaining Structures 3(2,2,0) Prerequisites: CAE 310 Slope stability analysis. Retaining structures. Walls for excavation. Slurry trenches and braced-cut systems. Types of foundation and design criteria. Design of shallow foundations and deep foundations, Construction methods. Pile load test. Dewatering and seepage control. Soil stabilization for foundation support.

CAE 408 Design of R.C.Structures-2 3(2,2,0) Prerequisites: CAE 401 Paneled beams – Design of slender columns (braced and untraced) – Design of simple reinforced concrete frames – Design of slab-type and cantilever-type stairs – Design of reinforced concrete beams subjected to combined shear and torsion. Design of frames, Brackets, Windbags. Structural Systems for tall buildings. Design of multistory frames. Design of concrete water tanks.

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CAE 410 Computer Application in Construction Engineering 3(2,0,4) Introduction and application with the available commercial software packages in structural engineering. Converting structural problems to numerical models. Solving and results analysis. Introduction to drawing commercial software packages. Integration of drawing with the structural software's. Detail drawings using commercial software's. CAE502 Theories of Architecture-2 2(2,0,0) Prerequisite: CAE406 This course examines contemporary architectural theory and criticism through the presentation and study of significant texts and buildings of the present and recent past and the architectural philosophy of contemporary architects. The goal of the course is to introduce and investigate the formal, technological, social, political, and philosophical debates at issue within the discipline. The course Introduces the principles of architectural criticism, and evaluation of architectural projects. Students learn to evaluate and articulate the interactions between theory and practice and develop tools of analysis and critique, thereby enabling them to formulate and assess strategies for the formation of architecture. CAE505 Methods and Equipment for Construction-2 3(2,2,0) Prerequisites: CAE 403 Engineering fundamentals of moving earth. Tractors and related equipment; tractors, bulldozers, clearing land, and ripping rock. Scrapers. Excavating equipment; draglines, clamshells, hydraulic excavators, loaders, and trenching machines. Trucks and wagons. Belt conveyor systems. Piles and pile0driving equipment. The production of crushed stone aggregate. CAE 506 Quality Control and Repair of Structures 3(2,2,0) Introduction to quality improvement techniques. Control charts for variables and attributes. Quality systems; 1SO 9000, 1SO 14000. Total quality management. Maintenance of structures. Inspection and its related subjects. Deterioration of structures, causes and investigation. Structural behavior and different repair techniques for different structural materials. CAE504 Project-1 3(2,4,0) Topics are selected by groups of students according to their area of interest upon advisor approval. Projects address solution to open ended applications using an integrated construction and architectural engineering approach. CAE510 Project-2 4(2,6,0) Topics are selected by groups of students according to their area of interest upon advisor approval. Projects address solution to open ended applications using an integrated construction and architectural engineering approach.

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ii. Departmental Elective Courses

CAE309 Elective Course (1) 3(2,2,0) CAE309a Computer Visualization Prerequisite: CAE204, CAE208 This course introduces the fundamentals of advanced Architectural graphics and representations. This is done by introducing three-dimensional geometric modeling and associated computer-aided design and visualization applications in architecture, urban design and computer graphics production. It provides a theoretical foundation, an introduction to a selection of current hardware and software tools, and an opportunity to explore space and artifacts through a digital representation project CAE309b Advanced Engineering Materials Prerequisites: CAE 206 Polymers and Epoxies, polymers concrete, types, properties and applications of polymers concrete – Fibers, different types, of fibers reinforced concrete, properties, production and applications of fiber reinforced concrete, theory of failure of fiber reinforced concrete, properties of fiber reinforced concrete in compression, tension, bending and shear- Ferro-Cement materials, behavior of Ferro-Cement under different stresses - Introduction of theories of composite materials – Lightweight aggregate, natural and artificial aggregate, lightweight concrete, Insulating concrete, structural lightweight concrete, properties of lightweight concrete, design mixes of lightweight concrete, failure theories of lightweight concrete under different stresses – Massing and heavy concrete – Special concrete (Refractory concrete – Non shrinkage concrete) – Ceramics – Introduction of Egyptian and International Specifications.

MP301 Probability and Statistics for Engineers 3(2,2,0) Prerequisite: MP201 Descriptive statistics: description of sample data, statistical measures (location and dispersion), review on probability axioms and counting techniques. Conditional probabilities and bays formula, stochastic independence and applications, random variables and probability distributions. Mathematical expectation, mean, variance and moments. Some standard distribution: binomial, Poisson, negative binomial, hyper geometric, normal, gamma, exponential and chi-square distribution. The T and F distribution. Joint distributions, properties, marginal distributions, covariance and correlation coefficient. CAE411 Elective Course (3) 3(2,2,0)

CAE411a Dynamics of Structures Prerequisites: CAE 206, CAE 301 Types of dynamic loads and the formulation of the equation of motion. Single degree of freedom systems, free and forced vibrations of multi degree of freedom systems. Response of structures to earthquakes. Design response spectra for structures, Design criteria for seismic resistant structures, Seismic response of tall buildings. CAE411b Design Studio-4 3(0,8,0) Prerequisite: CAE405 This is an advanced studio course, focusing on two parallel axis the first focusing on intensive, progressively elaborated architectural design problem, while addressing architectural problems and projects of increasing scale and complexity to be tackled within the context of modern technologically advanced applications to reinforce skills in all aspects of architectural design. On the other hand, the second objective of this course is to explore the relationship between the ideas behind Architectural projects and the process of realizing these ideas in architectural terms. The course explores "design" as a process that extends through to the completion of a building, where "detailing" is an integral part of the design process and in which the nature

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and assembly of the parts can be informed by or can inform the collective design issues of the building as a whole. The course emphasizes the selection of materials, integration of services and installations, their construction details both inside and outside the building

CAE411c Tender-2 (Specifications & Codes) Prerequisites : CAE 311 Building materials, construction work, execution methods leading to the issue of project tenders, bills of quantity, general regulations, price spreadsheets and their analysis. The course includes practical applications involving the previous documents. Professional contract administration, contractual arrangements, legal background, standard contract forms, contract documentation, site organization and supervision, communication and Personal skills, valuation of work, claims & disputes, negotiations, project closure.

CAE501Elective Course (4) 3(2,2,0)

CAE501a Prefabricated Water and Prestressed Concrete Structures Prerequisites: CAE408 Prefabricated concrete: design methods, floor and roof systems, wall panels and construction joints. Concrete water structures: design considerations, water tightness. Construction of circular and rectangular tanks. Prestressed concrete: basic principles, methods and systems of prestressing, partial loss of prestressing, analysis and design for flexural, shear, bond and bearing. CAE501b Project Management-2 The course defines the concept of feasibility studies and the importance of conducting necessary economic studies as a precursor to the determination of design criteria. Related issues include the economics of land use; preliminary and operating costs and overheads, and economic returns. The course also discusses the project development cycle, preliminary feasibility studies, the aspects and principles of feasibility studies (marketing, technical, financial, organizational, social gain, human resources and time/cost relationships).Risk Definition and Accident Theory. Principle of Risk Management: Identification of Risks. Preliminary Risk Analysis (PRA). Failure Modes, Effect and Criticality Analysis (FMECA). HAZOP. Methods of System Analysis. What is Risk Assessment. Risk Control. Apply hierarchy of Control. Monitoring and Review. The Process of Fire Risk Management. Regulations and agencies, non-governmental organizations, fires and explosions, pressure relief systems, process. CAE501c Theory of Housing Prerequisite: CAE411b This course introduces and analyzes contemporary and classical theories, approaches and concerns in the field of housing, with particular emphasis on Third World countries. Lectures address broad issues such as the roots of housing problem, and typology of housing. It reviews basic housing theories and their impact on the economics of the housing sector. Also presented is a review of the mechanisms and forces shaping the housing market, and affecting both supply and demand at various levels. The economics of housing projects are examined as related to the stages of decision-making, feasibility studies, multi-level policies and role of actors, in order to present further insight into the different considerations, alternative approaches and definitions applicable in this field. In addition, this course aims to define the housing problems and housing communities crisis in developing countries with emphasis on the challenges present on the local level. Remedial approaches that consider the complex nature of comprehensive population and urban development are demonstrated and the importance of various social, cultural, economic, organizational and managerial aspects is discussed. Forms of unofficial housing settlements and its related issues, international housing policies and approaches are also outlined through research-based studies.

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CAE503 Elective Course (6) 3(2,2,0) CAE503a Highway Engineering Prerequisites: CAE 304, CAE 310 Structural design: Soil classification for highways – Soil compaction – Drainage of highways and streets. Evaluation of soil strength for design of pavements – Methods of soil stabilization – Design of flexible and rigid pavements – Hot and cold asphaltic concrete– Asphaltic macadam – Maintenance of flexible and rigid pavements. Geometric design: Highway classification – Traffic volume – Study and analysis of highways capacity – Design of cross section – sight distances – Vertical alignment of highway – Horizontal alignment of highway – Intersections ( at grade and grade separation) Highways and environmental ( noise – pollution). CAE503b Advanced Interior Design Prerequisites: CAE 210 The course introduces the concepts and principles of space planning and interior design according to functional, materials selection and furnishing aspects. Human perception, color, textiles and various elements of interior space will be studied with different methods of design. CAE 503c Construction Management-2 Prerequisites: CAE 305 Project procurement. Competitive bidding budgetary control. Preparation of budgets. Type of budget. Classification of costs. The need for cash flow forecasting by contractors. The requirements of forecasting system. Capital lock-up. The factors that affect capital lock-up. Economic assessments. Profitability measures. Inflation. Accuracy of future estimates. Financial modeling. Cost-benefit analysis. Plant acquisition. The financing of plant. Systematic plant selection. Setting hire rates. Plant maintenance.

CAE507 Elective Course (8) 3(2,2,0)

CAE507a Analysis and Design of Composite Structures Prerequisites: CAE 404, CAE 408 Theory of composite structures. Analysis and design of simple and continuous girders. Effect of secondary stresses due to slip and uplift at the interface of concrete slab and steel beam. Analysis and design of composite connections. Composite columns. Methods of construction CAE507b Heritage Conservation Prerequisite: CAE308 This course provides a comprehensive introduction to the problems and methods of historic preservation in urban, suburban and rural environments. A conceptual framework is advanced for comprehending and managing the full range of problems and techniques encompassing the field of historic preservation. Topics include the development of historic preservation, together with its international parallels and antecedents; problems of urban, suburban and rural preservation; techniques for developing, conducting and evaluating comprehensive surveys of preservation resources; national, state and local governmental programs; legal and economic aspects of preservation; historic district zoning and neighborhood preservation. CAE507c Planning & Scheduling Project definition and work breakdown structure. Scheduling and control models and techniques such as: AOA, AON, bar charting, line of balance. Resource allocation, and optimal schedules. Documentation and reporting, time and cost control, progress monitoring and evaluation and computer applications.

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CAE508 Elective Course (9) 3(2,2,0) CAE508a Advanced Environmental Controls Prerequisites : CAE209 This course aims to define the principles of environmental design in architecture while providing a combination of knowledge, experience and facilities which enable students to relate ecological awareness to innovation and design. The relationship between Built and Natural environments is explored and specific solutions are created. Topics include the environmental analysis of a site, ecological systems and processes, the fundamental and design principles of sustainable architecture in addition to various related topics of current interest. CAE508b Design of Metallic Structures-2 Prerequisites: CAE 404 Introduction to cold-formed sections. Design of cold formal sections. Industrial buildings – Cranes – Tall buildings – Long span structures – Introduction to load and resistance factor design and ultimate design. Plastic analysis of Structures. Behavior of steel frames. Design of Plate girders. CAE508c Site Analysis The course aims to study the aspects that affect site properties for various projects and methods of analytical site study and selection. Issues include climatological and topographical factors, transportation networks, traffic levels, land use, infrastructure and public utility capability in addition to service provision in the surrounding urban area. Building density, forms as well as the legal aspects that govern building and urban planning regulations are also investigated.

CAE509 Elective Course (10) 2(2,1,0)

CAE509a Concrete and Steel Bridges Prerequisites: CAE 408, CAE 508b Introduction to steel and concrete bridges - Design criteria and considerations of bridges - Loads of different bridge types - Stability of bridges against lateral loads - Effect of fatigue on bridges - Design of floor beams of railway bridges - Design of floor beams of road bridges - Design of main girders - Web stability of plate girders - Plate girder splices – Stiffeners of plate girders - Truss bridges - Bridge connections - Bridge connections - Design of bearings for bridges. CAE509b Geographical Information Systems Prerequisites : CAE509c Theories of Urban Planning An introduction to the concepts of GIS and its applications in urban design and studies. The course outlines the historical and chronological development of GIS, types of geographical information, basic and advanced data models, geo-references and coordinate systems, hardware and software for GIS communication and applications and data collection and data quality. Remote sensing methods and techniques in addition to GIS and Virtual Reality applications are also discussed. The course includes applied GIS case studies. CAE509c Theories of Urban Planning This course is an introduction to the studies of urban planning. It addresses the basic definitions, objectives and fundamentals of the subject. Issues covered include the theories of planning practice at the urban level of towns and cities. The course also presents an overview of the components of urban environments, site analysis, urban conservation, urban networks and processes, public participation and sustainable development

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الحاسبات واإلتصاالت برنامج ھندسة -5

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The distribution of credit hours is as follows:

Topic areas credit hours %

Basic Science 25 14 Humanities 20 11 Basic Engineering Sciences

69 39 Required General Engineering 24 Required CCE 45Applied

66 36 Required CCE Engineering Sciences 45 CCE Technical electives 21TOTAL Credit Hours for CCE 180 100

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Prerequisites Code Fall Prerequisites Code Spring Prerequisites

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MP101 Mathematics I MP102 Mathematics II MP101 MP103 Mechanics I MP104 Mechanics II MP101, MP103 MP105 Engineering Graphics I MP106 Engineering Graphics II MP105 HS102 Human Rights PE102 Production Engineering MP105 GPE101 Engineering Chemistry CSE102 Computer Programming MP107 Physics I MP108 Physics II MP101, MP107 HS101 English Language HS103 History of Engineering Sciences

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MP201 Mathematics III MP102 MP202 Mathematics IV MP201 CC271 Programming I CSE102 CC331 Signals and Systems MP202, MP301 MP204 Modern Physics MP101, MP107 CC202 Electrical Circuit II EME207 EME207 Electrical Circuits I MP108 CC212 Digital Logic Circuits I MP301 Probability and Statistics for Eng. MP102 CC273 Data Structure I CC271 CC181 Discrete Structures MP102 HS201 Technical Writing HS301 Project Management

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CC361 Control Systems MP202, CC202 CC376 Data Structure II CC273 CC272 Programming II CC271 CC332 Digital Signal Processing MP202, MP301 CC301 Electronic Circuit Analysis CC202 CC372 Systems Programming CC271 CC312 Digital Logic Circuits II CC212 CC421 Microprocessors Systems CC312 CC321 Computer Organization CC212, CC271 CC322 Computer Architecture CC321 HS401 Law and Engineering Ethics HS202 Engineering Economics

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CC441 Analog Communication Theory CC331 CC471 Database Systems CC181, CC271 CC371 Analysis and Design of Algorithms CC273 CC461 Embedded Systems CC421 CC373 Operating Systems CC271, CC321 CC442 Digital Communications CC331 CCxxx Elective (1) CC451 Computer Networks CC321, CC331 CCxxx Elective (2) CCxxx Elective (3) HSxxx Humanities HSxxx Humanities

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CC541 Communication Systems CC442 CC551 Computer and Net Security CC373, CC451 CC552 Net-Centric Computing CC272 CC581 Performance Evaluation MP301, CC321, CC373 CCxxx Elective (4) CCxxx Elective (6) CCxxx Elective (5) CCxxx Elective (7) HSxxx Humanities HSxxx Humanities CC591 Senior Project I CC592 Senior Project II CC591

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Elective Courses

Code Course Name Prerequisites

CC401 Digital Integrated Circuit Design CC301 CC402 VLSI Fabrication and design CC401 CC423 Advanced Computer Architecture CC322 CC431 Electromagnetics MP202,CC202 CC432 DSP Implementation of Communication Systems CC332 CC443 Mobile and Wireless Communications CC442 CC444 Antennas and Wave Propagation CC431 CC445 Microwave and Optical Transmission Media CC431 CC462 Modern Control Systems CC312, CC361 CC472 Software Engineering CC371,CC471 CC473 Programming Languages Translation CC273,CC372 CC474 Switching Theory and Models of Computation CC181, CC312 CC482 Artificial Intelligence CC271, MP301 CC483 Optimization Techniques MP202 CC484 Pattern Recognition MP301 CC485 Computer Graphics CC181, CC273 CC489 Numerical Analysis MP202 CC490 Computer Vision CC489 CC491 New trends in CCE

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Program Courses Code Course Title Lec Tut Lab Tot CrH

CC181 Discrete Structures for Computing 3 1 - 4 3 CC202 Electrical Circuit II 2 2 1 5 3 CC212 Digital Logic Circuits I 2 1 2 5 3 CC312 Digital Logic Circuits II 2 2 1 5 3 CC331 Signals and Systems 3 1 - 4 3 CC332 Digital Signal Processing 3 1 - 4 3 CC441 Analogue Communication Theory 2 2 1 5 3 CC442 Digital Communications 2 2 1 5 3 CC321 Computer Organization 3 1 - 4 3 CC322 Computer Architecture 3 1 - 4 3 CC451 Computer Networks 3 1 1 5 4 CC371 Analysis and Design of Algorithms 3 1 - 4 3 CC273 Data Structures I 3 - 1 4 3 CC376 Data Structures II 3 - 1 4 3 CC372 Systems Programming 3 1 - 4 3 CC373 Operating Systems 2 2 1 5 3 CC271 Programming I 3 - 1 4 3 CC272 Programming II 3 2 1 6 4 CC301 Electronic Circuit Analysis 2 2 1 5 3 CC541 Communication Systems 2 2 1 5 3 CC361 Control Systems 3 1 - 4 3 CC421 Microprocessors Systems 3 - 1 4 3 CC461 Embedded Systems 3 - 1 4 3 CC551 Computer and Network Security 3 1 - 4 3 CC552 Net-Centric Computing 3 1 - 4 3 CC581 Performance Evaluation 3 1 - 4 3 CC471 Database Systems 3 1 1 5 4 CC591 Senior Project I 2 2 - 4 3

CC592 Senior Project II 3 1 1 5 4

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Course Descriptions CS181 Discrete Structures for Computing 3(3,1,0) Prerequisites: MP102 Basic mathematical notions of sets, relations, and functions, and operations ,logic and its role, propositional logic, truth tables, issues of equivalence, limitations; predicate logic, its power and its limitations, proof techniques; commonly occurring mathematical concepts such as graphs, trees; representational issues, recursion; counting; combinatories. CC202 Electrical Circuit II 3(2,21) Prerequisites: EME207 Application of the basic laws and techniques of circuit analysis to ac circuits. Three phase analysis. Calculation of the frequency response of circuits with R, L, and C components, independent sources, controlled sources, and operational amplifiers. Magnetically coupled circuits. Laplace transform. The transient analysis of basic circuits with R, L, and C components. Representation of circuits by two-port models. CC212 Digital Logic Circuits I 3(2,1,2) Boolean algebra and logic functions, Minimization of Function – Tabular minimization - Multifunction minimization- Arithmetic circuits- MSI and LSI logic design (Binary parallel adder – Decimal adder – Magnitude comparator – Decoder – Multiplexer - ROM – PLA) – Special functions (Symmetric – Complete) – Decomposition – Control Unit. CC271 Programming I 3(3,0,1) Prerequisites: CSE102 Problem Solving. Principles of Structured Programming. Data Types Fundamental Programming Constructs. Types, Expressions, and Assignments. Iterative Control Structures. Conditionals and Selection. Functions and Parameter Passing. Pointers. Input and Output. Recursion. The Concept of Recursion. Recursive Procedures Testing and Debugging CC272 Programming II 4(3,2,1) Prerequisites: CC271 Information Hiding and Abstract Data Types. Object–Oriented Design versus Structured Design. Classes and Objects. Inheritance. Polymorphism. Operator Overloading . Generic Functions and Classes CC301 Electronic Circuit Analysis 3(2,2,1) Prerequisites: CC202 Design of amplifiers and other electronic systems to satisfy specifications. Bipolar and field effect transistors, diodes, integrated circuits and passive components are part of the hardware needed. Gain, bandwidth, feedback, stability are some of the design concepts . Stability and response of feedback amplifier, wideband amplifier, operational amplifier characteristics, waveform generators and wave shaping, nonlinear circuit applications, signal generators,. Design of analog electronic circuits, circuit simulation, response characterization, and printed circuit construction CC312 Digital Logic Circuits II 3(2,1,2) Prerequisites: CC212 Synchronous sequential systems (analysis- synthesis- state equivalence- machine minimization) – Incompletely specified machines – Asynchronous sequential systems (Design procedures – reduction of states – flow table- Race Free State assignment) Linear machines

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CC321 Computer Organization 3(3,1,0) Prerequisites: CC212 , CC271 Register level description of computer execution and the functional organization of a computer; essential elements of computer architecture; major functional components of a modern computer system. Characteristics of machine codes: instruction formats and addressing modes. The elements of machine and assembly code programming. Memory hierarchy and organization. Interfacing and communication between processor and peripheral devices. Experiments provide laboratory experience in hardware and software to interface memory and peripheral components to a computer system. CC322 Computer Architecture 3(3,1,0) Prerequisites: CC321 Design principles associated with modern computer architectures; performance and cost considerations; architectural features influenced by such features as operating systems and window systems, high level languages, networking, security considerations; processor implementation strategies, micro-programming, pipelining, CISC and RISC, vector processors; memory hierarchy, cache, virtual memory organization for high performance machines; special purpose components and devices; simple demonstrations provide experience in the designs and operations of different types of computer architecture such as memory architectures, I/O and bus subsystems, special purpose architectures, parallel processing, and distributed systems; explore hardware and software issues and tradeoffs in the design, implementation, and simulation of working computer systems. CC331 Signals and Systems 3(3,1,0) Prerequisites: MP202 , MP301 The concept of signals and systems, both continuous and discrete-time; signal manipulation; signal symmetry and orthogonality; system linearity and time invariants; system impulse response and step response; frequency response, sinusoidal analysis, convolution, and correlation; sampling in time and quantizing in amplitude; Laplace transform; Fourier analysis, filters; analysis of discrete time signals and systems using z-transforms; inverse transformation procedures. CC332 Digital Signal Processing 3(3,1,0) Prerequisites: MP202 , MP301 Purpose of digital signal processing (DSP), theories and concepts, uses of DSP analysis of digital spectra; application of discrete Fourier transforms, convolution types; filtering, digital filtering; transforms; discrete time signals; sampling issues; applications to include image processing, audio processing; use of relevant software tools. CC361 Control Systems 3(3,1,0) Prerequisites: CC202 , MP202 Review of complex numbers, superposition, compound systems; frequency domain representation; Laplace transform representation; system representation in time domain; first and second order systems; damping, stability, poles, and zeros; feedback block diagrams; open loop and closed loop systems; steady state error; introduction to Bode plots and Bode plot analysis, introduction to proportional , integral ,differential control. (PID). CC371 Analysis and Design of Algorithms 3(3,1,0) Prerequisites: CC273 Introduction to Computational Complexity. Asymptotic analysis of Upper and Average Complexity bounds. Standard Complexity Classes Time Complexity of iterative and recursive algorithms. Fundamental Algorithmic Strategies . Greedy Algorithms. Divide and Conquer algorithms. Branch and Bound Backtracking . Dynamic Programming , introduction to computability.

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CC273 Data Structures I 3(3,0,1) Prerequisites: CC271 Representation of Elementary Data types, Arrays, Strings, Linear Structures and List Structures. Queues and Stacks. Tree structures and Graphs and their representation. High-level language Data Handling Facilities. Algorithms for Searching and Sorting. CC372 Systems Programming 3(3,1,0) Prerequisites: CC271 Programming in Assembly Language , Assemblers, Macro processors, Linkers and Loaders. Introduction to compilers. CC373 Operating Systems 3(2,2,1) Prerequisites: CC271 , CC 321 Overview. Concurrency, implementation structures : dispatching and context switching. Mutual exclusion: deadlock ; synchronization. Scheduling, .Memory management. Device management .File systems. Security and protection:

CC376 Data Structures II 3(3,0,1) Prerequisites: CC273 Trees, binary search trees, heaps, equivalence classes, balanced binary search trees, searching techniques, internal sorting, file processing (buffer pools), external sorting, indexing (ISAM, B-tree), graph theory (minimum spanning trees, topological sort, shortest path), hashing (open hashing, closed hashing. CC421 Microprocessors Systems 3(3,0,1) Prerequisites: CC312 Fundamentals of microprocessors . Examples of Microprocessors. Instruction Set. Microprocessor Bus .Interfacing, System Design.

CC441 Analogue Communication Theory 3(2,2,1) Prerequisites: CC331 Time and frequency division multiplexing, and the design and characterization of linear modulation including amplitude modulation (AM), single sideband, double sideband and vestigial sideband, as well as nonlinear modulation including frequency modulation (FM), and phase modulation. Superheterodyne receivers. Design includes modulators, detectors, and the effects of noise CC442 Digital Communications 3(2,2,1) Prerequisites: CC331 Analog to digital conversion including PCM and delta modulation. Pulse shaping and Nyquist criteria. Binary shift keying modulation including PSK, FSK, ASK and Mary modulation including QPSK, OQPSK, pi/4 DQPSK, MSK, and QAM. Matched filters and probability of error in additive Gaussian noise channels. Introduction to channel coding and information theory. CC451 Computer Networks 4(3,1,1) Prerequisites: CC321 , CC331 The OSI and the IP models . Broadcast networks . MAC protocols. Ethernet, token ring, FDDI Interconnectivity. Hubs , bridges, switches, routers. network addressing, TCP/IP .Routing protocols.

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CC471 Database Systems 4(3,1,1) Prerequisites: CC181 , CC271 Database systems : History and motivation , components of database systems ; DBMS functions ; database architecture and data independence . Data modeling : conceptual models ; object-oriented model ; relational data model . Relational databases: Mapping conceptual schema to a relational schema; entity and referential integrity; relational algebra and relational calculus . Database query languages : SQL ; query optimization ; 4th-generation environments; embedding non-procedural queries in a procedural language. CC461 Embedded Systems 3(3,0,1) Prerequisites: CC 421 Nature of embedded systems, particular problems, special issues; embedded microcontrollers, embedded software; real time systems, problems of timing and scheduling; testing and performance issues, reliability; low power computing, energy sources, software tool support for development of such systems; problems of maintenance and upgrade; networked embedded systems. CC541 Communication Systems 3(2,2,1) Prerequisites: CC442 Architecture, technology, operation, and application of telecommunication networks including digital telephony, data networks, and integrated services networks. Design and analysis of networks for voice, data, and video applications, Radio broadcasting and Television. Microwave and satellite links. link budgets, modulation, coding, multiple access techniques, propagation effects, and earth terminals. CC551 Computer and Network Security 3(3,1,0) Prerequisites: CC373 , CC451 Cryptography. Network Security Application :Authentication Application , Electronic Mail Security , IP Security, Web Security, Network Management Security, System Security , Intruders and Viruses , Firewalls CC552 Net-Centric Computing 3(3,1,0) Prerequisites: CC272 Structure., computer networking applications . Introduction to the World-Wide Web: in TCP/IP. Streams and Datagrams. Internetworking and routing. Network Security .Building web applications: Protocols at the application layer; database-driven web sites; remote procedure calls; lightweight distributed objects; enterprise-wide web-based applications Network management. Agents:. Introduction to robotic agents; mobile agents CC581 Performance Evaluation 3(3,1,0) Prerequisites: MP301 , CC321 ,CC373 Work load.. Performance indices. Single and multiple job processing models. Scheduling. Operating system Paging, Buffer, Swaps, Memory resource allocation. Queueing networks. Simulation. Benchmarks.. CC591 Senior Project 1 3(2,2,0) Comprehensive project spanning two semesters; students undertake an individual project which involves addressing a significant technical problem they embark on this under the guidance of a supervisor; students are expected to demonstrate an ability to apply the disciplined approaches of the course in addressing the solution to the problem; students produce a final thesis on the work and this together with a demonstration of the working system will form the assessment

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CC592 Senior Project 2 4(3,1,1) Prerequisites: CC591 Continuation of Individual Project I. Elective Courses CC401 Digital Integrated Circuit Design 3(3,1,0) Prerequisites:CC301 In this course, students will learn to use a hardware description language (VHDL) in the digital design process. Emphasis will be on system-level concepts and high-level design representations. Methods will be learned that are appropriate for use in automated synthesis systems. Students will have the opportunity to use commercial schematic capture and simulation tools to design a series of increasingly complex devices. Students will also use a logic synthesis tool and synthesize assignments into Field Programmable Gate Arrays. CC402 VLSI Fabrication and design 3(3,1,0) Prerequisites:CC401 hardware description language (VHDL) in the digital design process. Emphasis will be on system-level concepts and high-level design representations. Methods will be learned that are appropriate for use in automated synthesis systems. Students will have the opportunity to use commercial schematic capture and simulation tools to design a series of increasingly complex devices. Students will also use a logic synthesis tool and synthesize assignments into Field Programmable Gate Arrays. CC423 Advanced Computer Architecture 3(3,1,0) Prerequisites:CC322 Instruction-level Parallel Processors. Pipelined Processors. Super-scalar Processors SIMD Architectures. Data-parallel Pipelined and Systolic Architectures. Vector Architectures. MIMD Architectures. Multithreaded Architectures. Multicore, multiprocessors CC431 Electromagnetics 3(3,1,0) Prerequisites:CC202 , MP202 Electromagnetics: Coulomb's law, Electric field, Gauss's law, Divergence theorem Energy and potential, Conductors and dielectrics, capacitors and capacitance, Magnetostatics: Biot-Savart law, Ampere's current law, Stoke's theorem , magnetic force, materials, and devices. Inductors and inductance. Faraday's law Time varying fields . Maxwell's equations, Wave equation. CC432 DSP implementation of communication systems 3(3,1,0) Prerequisites: CC332 An introduction to designing communication subsystems and involves designing and implementing in software demodulators, signal synthesizers, and synchronizers. A significant part of this class will be DSP programming. Analysis, design, and realization of digital filters. Discrete Fourier Transform algorithms, digital filter design procedures, coefficient quantization, finite wordlength arithmetic, fixed point implementation, limit cycles, noise shaping, decimation and interpolation CC443 Mobile and Wireless Communications 3(3,1,0) Prerequisites:CC442 Cellular systems technical requirements including analog FM systems such as AMPS and digital systems such as GSM. and CDMA systems. Wireless LAN’s technical requirements such as IEEE802.11. Theory and implementation of OFDM systems

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CC444 Antennas and Wave Propagation 3(3,1,0) Prerequisites: CC431 Antenna fundamentals, analysis and design principles, and a survey of antenna types including: arrays, wire antennas, broadband antennas, and aperture antennas. Behavior of radiated electromagnetic waves in atmosphere, space, urban and indoor environments; path, frequency and antenna selection for practical communication systems; propagation prediction CC445 Microwave and Optical Transmission Media 3(3,1,0) Prerequisites: CC431 High-frequency transmission lines. Smith chart. Stub matching techniques. Rectangular and circular waveguides. Microstrip lines. Cavity resonators. Physics of light. Optical fibers: types, modes, characteristics, and configurations. Mode theory for cylindrical waveguides. Single-mode fibers. Integrated optical waveguides. Signal degradation in optical fiber: attenuation, modal distortion, and dispersion. Fiber materials, fabrication, mechanical properties, and cabling. CC462 Modern Control Systems 3(3,1,0) Prerequisites: CC312, CC361 Introduction to modern control Approach, State variable approach, linear continuous system, linear discrete system, Controllability, observability and stability, Observer and controller design, Stability, Introduction to optimal control (minimum time problem,. Regular problem) , Introduction to intelligent control system. CC472 Software Engineering 3(3,1,0) Prerequisites: CC371,CC471 Concepts of Software Development. Life-Cycle of Software. Requirements and Specification. Data Model. Process Model. Design and Coding. Verification , Validation and Testing. Management of Software Projects. Software Evolution CC473 Programming Languages Translation 3(3,1,0) Prerequisites: CC272 Virtual machines. Introduction to language translation. Language translation phases Lexical analysis. Syntactic analysis: Formal definition of grammars; BNF and EBNF; bottom-up vs. top-down parsing; tabular vs. recursive-descent parsers; error handling; Models of execution control . Declaration, modularity, and storage management: Code generation. Optimization: Machine-independent optimization; data-flow analysis; loop optimizations; machine-dependent optimization CC474 Switching Theory and Models of Computation 3(3,1,0) Prerequisites: CC312 Theory of Automata, Regular expression, Models of computability and their applications, Finite state machine, Push-down automaton Turning machine, Petri net. CC482 Artificial Intelligence 3(3,1,0) Prerequisites:CC271, MP301 Fundamental issues. Search and constraint satisfaction. Knowledge representation and reasoning. Advanced search algorithms. Advanced knowledge representation and reasoning: temporal and spatial reasoning; uncertainty; knowledge representation for diagnosis. Machine learning and neural networks. Applications.

CC483 Optimization Techniques 3(3,1,0) Prerequisites: MP202 Optimization techniques for unconstrained unidimensional problems, Unconstrained multidimensional problems, Optimization techniques for constrained multidimensional problems, Analysis techniques for choosing the best method to use.

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CC484 Pattern Recognition 3(3,1,0) Prerequisites: MP301 Introduction to pattern recognition as a process of data analysis, Representation of features in multidimensional space as random vector, Similarity and dissimilarity measures in feature space, Bayesian decision theory, Discriminant functions and supervised learning ,Clustering analysis and unsupervised learning, Estimation and learning, Feature extraction and selection , Selected applications. CC485 Computer Graphics 3(3,1,0) Prerequisites: CC181, CC273 Introduction . Drawing elementary shapes. Graphics Fundamentals. Two-dimensional Transforms. Basic Interaction and Animation. Three-dimensional transformations. Visualization. Reality in computer graphics. CC489 Numerical Analysis 3(3,1,0) Prerequisites: MP202 Errors due to the finite precision of the machine and error in computation. Concept of iterative solution, convergence and rate of convergence. Numerical methods for the Solution of a nonlinear algebraic equation in one variable, Polynomial Interpolation, Solution of a system of simultaneous linear equations, Least Squares Approximation, Numerical integration and differentiation. CC490ComputerVision 3(3,1,0) Prerequisites:vCC489 Image Formation, Image Filtering , Binary Image Analysis, Boundary Detection, Hough Transform, Local Invariant Features, Image Segmentation, Object Recognition, Camera Calibration, Stereo Vision. CC491 New trends in CCE 3(3,1,0) Topics are selected from the new trends in computer or communication technologies.

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Program Map FOR COMPUTER AND COMMUNICATIONS ENGINEERING PROGRAM

Level-0 Level-1 Level-2 Level-3 Level-4

Mech I MP103

Math II MP102

Math III MP201

MathIV MP202 MP101

Control CC361

Dat II CC376

Ana Com CC441

DataBa CC471

ComSys CC541

Security CC551

Math I MP101

Mech II MP104

Perf EvaI CC581

Net Cent CC552

Probab MP301

Sig Sys CC331

Prog II CC272

DSP CC332

Analys CC371

Embed CC461

Elective CCxxx

Elective CCxxx

Dig Com CC442

Op Sys CC373

Sys Prog CC372

Electron CC301

Data I CC273

Prog I CC271

Grap II MP106

Grap I MP105

Elective CCxxx

Chemis GPE101

Produc PE102

Ele Cir EME207

Ele Cir CC202

Com Org CC321

Com Arc CC322

Elective CCxxx

Comp Net CC451{

Elective CCxxx

Phys I MP107

Proj II CC592

Proj I CC591

Elective CCxxx

Elective CCxxx

M Proc CC421

Dig II CC312

Dig I CC212

M Phys MP204

Phys I I MP108

English HS101

Comp CSE102

Dis Str CC181

Tec Wri HS201

Ethics HS401

Econom HS202

Huma HSxxx

Huma HSxxx

Huma HSxxx

Huma HSxxx

H Righ HS102

Hist HS103

Proj HS301

115

ة الشواطئھندسالبحرية و البترول منصات ھندسة برنامج -6

116

الشواطئ ھندسةمنصات البترول البحرية و متطلبات برنامج ھندسةProgram Requirements

b- Basic Engineering Courses (Core Program Courses) 28%


OCE211 Buoyancy and Stability 3 OCE212 Civil and Marine Drawing 3 MSE201 Principles of Material Science and Engineering 3 CSE202 Advanced Programming and Applications 3 OCE213 Marine Hydraulics 3 OCE222 Marine Structural Analysis I 3 MP301 Probability and Statistics for Engineers 3 OCE311 Water Wave Theory 3 OCE323 Marine Hydrodynamics I 3 OCE303 Marine Structural Analysis II 3 OCE304 Introduction to Oceanography 3 OCE402 Sediment Transport and Littoral Processes 3 OCE413 Measurements and Control Systems 4 OCE424 Marine Hydrodynamics II 3 OCE423 Physical Modeling 3 OCE501 Offshore Oil and Gas Production 3

TOTAL 49

117

c- Applied Engineering Courses 34% i. Compulsory Courses


OCE301 Marine Foundations 4 OCE302 Harbor Planning and Coastal Structures 4 OCE312 Marine Machinery and Systems 3 OCE401 Advanced Coastal Structures I 3 OCE421 Introduction to Offshore Engineering 3 OCE422 Construction of Marine and Offshore Structures 3 OCE403 Design of Reinforced Concrete and Steel Structures 4 OCE511 Design of Offshore Platforms 3 OCE534 Computer Applications in the Marine Field 3 OCE502 Surveying in the Marine Field 3 OCE512 Marine Production Technology 3 OCE551 Project I 3 OCE552 Project II 4

TOTAL 43

118

ii. Elective Courses


Elective Course (1) 3 OCE331 Dynamics of Ocean Waves OCE332 Open Channel Hydraulics OCE334 Renewable Energy OCE335 Tidal Hydraulics, Wave Generation and Prediction Elective Course (3) 3 OCE434 Dredging Technology OCE432 Coastal Management OCE436 Analysis and Interpretation of Wave Data Elective Course (4) 3 OCE431 Advanced Coastal Structures II OCE433 Floating Structure Design Elective Course (6) 3 OCE535 Materials and Protection for Coastal Structures OCE533 Underwater Technology Elective Course (8) 3 OCE532 Dynamics of Offshore Structures OCE535 Drilling Engineering OCE537 Geophysical and Geotechnical Design Elective Course (9) 3 OCE521 Offshore Safety and Risk Assessment OCE536 Marine Pipelines and Risers OCE538 Sediments Transport

TOTAL 18

119

COURSE DESCRIPTION

a- Basic Engineering Courses (Core Program Courses)

OCE 211 Buoyancy and Stability 3(2,2,1) Ship nomenclature and geometry, hydrostatic and stability calculations for surface ships and underwater vehicles in free-floating, partially waterborne, and damaged conditions, subdivision of ships, launching. OCE212 Civil and Marine Drawing 3(2,2,0) Prerequisite: Engineering Graphics Civil drawing :Introduction to civil engineering graphics, Computer Aided Design environment. Use CAD to draw: the vertical and the horizontal plane. Study of specific examples such as: (a) steel structures: representation of steel sections, rivets and bolted connections, welded joints, butt and fillet welds, beam-beam and column-beam connections, splicing and column bases, (b) reinforced concrete structures: introduction to reinforcement bars and anchorages of reinforcement, detailed reinforcement drawings, sectional views of members and bar scheduling, specific cases of beams, slabs, columns, staircase, footings and foundation details, (c) introduction to harbour engineering, plan layout showing harbour structures, roads, breakwaters, piers, wharfs, dry docks, and others. Marine drawing: Definition of ship form, lines plans for ships and floating platforms, marine propellers and thrusters, drawing and assembly of parts for marine machinery, piping, mooring equipment and machines.

MSE 201 Principles of Materials Science and Engineering 3(2,1,2) Introduction to materials science, atomic structure, bonds, crystalline structure, mechanical properties of materials, metals, ceramics, polymers, composites, electrical, thermal, and magnetic properties of materials, materials selection for engineering applications. CSE202 Advanced Programming and Applications 3(2,0,4) Prerequisites: Computer Programming, Mathematics III Advanced C programming and applications, advanced Matlab programming for solving mathematical and engineering problems, finite element concept and its applications in the engineering field, simulation techniques and the advanced computing and simulation packages available in the market. OCE213 Marine Hydraulics 3(2,1,2) Prerequisite: Fluid Mechanics-1 Conservation of momentum, energy conservation, energy equation, dimensional analysis, boundary layer theory, flow in pipes, pipe networks, head losses, flow in channels, pumps and turbines, hydraulics models. Marine hydraulic systems. OCE222 Marine Structural Analysis I 3(2,2,0) Prerequisites: MSE201 Types of structures and loads, statically determinate structures: trusses, beams and frames, internal forces in structural members, influence lines for statically determinate structures, geometrical properties of sections, stresses and strains, stress-strain diagrams, combined stresses, principal stresses, Mohr's circle in 2-D, introduction to column buckling. MP301 Probability and Statistics for Engineers 3(2,2,0) Prerequisite: Mathematics III Descriptive statistics: description of sample data, statistical measures (location and dispersion), review on probability axioms and counting techniques. Conditional probabilities and Bayes formula, stochastic independence and applications, random variables and probability distributions. Mathematical expectation, mean, variance and moments. Some standard distributions : binomial, Poisson, negative binomial, hyper geometric, normal, gamma, exponential and chi-square distribution.

120

The T and F distribution. Joint distributions, properties, marginal distributions, covariance and correlation coefficient. OCE311 Water Wave Theory 3(2,2,1) Prerequisites: EME206 Introduction to different water wave theories, boundary conditions, common wave theories: linear wave theory, stokes theory, conoidal theory, stream function theory, finite amplitude wave theory (nonlinear theory), boundary value problem, Helmholtz equation and BVP for bounded domains, linear wave properties, long water waves theory, wave energy and power, shoaling, refraction and diffraction, standing waves. OCE323 Marine Hydrodynamics I 3(2,2,0) Prerequisites: EME206, OCE213 Ship resistance phenomena, dimensional analysis for the problem of ship resistance, detailed calculations of ship resistance components, model testing techniques, extrapolation of model results to full scale, resistance in shallow water, wind forces, Beaufort scale, sinusoidal water waves, standing wave, depth effect, pressure in wave, wave energy, the frequency of encounter. OCE303 Marine Structural Analysis II 3(2,2,1) Prerequisite: OCE222 3-D stress and strain, statically indeterminate structures, deflections, slope deflection and moment distribution methods, matrix stiffness analysis method, introduction to the finite element method (FEM), simple lab experiments. OCE304 Introduction to Oceanography 3(2,0,2)Prerequisites: Mathematics-3, GPE101 Physical, chemical, biological, and geological ocean environments for ocean engineers, introduction to ocean dynamical processes and general circulation, ocean measurement techniques, theory of underwater acoustics, sonar, swath bathymetry, and tomography applications. OCE402 Sediment Transport and Littoral Processes 3(2,2,1) Prerequisites: EME206, OCE304, OCE213 Sediment transport: Sediment properties and size distribution, initiation of sediment movement, bed load and suspended load transport rates, fluvial sediment transport equations, movement of material by the sea, littoral drift, coastal protection structures, movable bed models, sediment tracing, aeolian sand transport. Littoral processes: Coastal morphology, equilibrium beach profiles, onshore-offshore response, sand budgets around inlets and along open coasts, modelling of shoreline response, analyses of beach problems and recommendations of remedial measures. OCE413 Measurements and Control Systems 4(3,1,2)Prerequisites: EME203, OCE312 Principles of open loop and feedback systems, means of control: hydraulic, pneumatic and electrical systems, transfer function, mathematical modelling of different control systems, control of speed, cooling water temperature and lubricating oil temperature in diesel engines, speed control and bled steam pressure regulation in steam turbines, steering control, dynamic positioning control, measurement tools and methods, controller design and optimization criteria, pressure and temperature measurements. OCE424 Marine Hydrodynamics II 3(2,2,1) Prerequisite: OCE323 Powering prediction, propulsion systems and devices, airfoil theory, screw propeller, theories of propeller action, law of similitude for propellers, interaction between hull and propeller, cavitation, propeller design, steering and maneuvering, ship motion in a horizontal plane, the turning path of the ship, maneuvering tests and trials, directional stability, rudder design. OCE423 Physical Modeling 3(2,2,0) Prerequisites: OCE311, OCE401, OCE402, OCE421 History of model testing, purpose of physical modelling, dimensional analysis, similarity laws, laboratory wave generation, wave modelling, wind modelling, current modelling, laboratory

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measurement and analysis, coastal structures models, sediment transport models, ship models in wave basin, offshore structure models, cable modelling, modelling of mooring lines, risers and tendons, field testing, data acquisition systems. OCE501 Offshore Oil and Gas Production 3(3,0,0) Introduction, reservoirs and wellheads, oil and gas process, gas processing and LNG, utility systems, unconventional sources of oil and gas, environmental effects, safety aspects.

b- Applied Engineering Courses

iii. Compulsory Courses

OCE301 Marine Foundations 4(3,1,2)Prerequisites: Physics-2, MSE201 Composition and classification of soils, compaction, compressibility, consolidation, shear strength, seepage and bearing capacity, foundation engineering problems associated with marine environment, settlement and bearing capacity of shallow and deep foundations, analysis of onshore, nearshore and offshore foundations, earth pressure acting on retaining structures, computer programs used to analyze axially-loaded piles, laterally-loaded piles , sheet-pile walls and mat foundations . OCE302 Harbour Planning and Coastal Structures 4(3,2,0) Prerequisites: OCE211, OCE212 Port planning and layout, shipping technology and economics, site selection, environmental factors affecting design and ship operation and behavior, wave and current climate, sediment transport considerations, port navigation and hydromechanics, navigation - safe channel design, navigable depth concept, harbour transportation (bulk carriers, container vessels, roll-on roll-off systems, special vessels),fishing and small craft harbours, recreational marinas, berthing maneuvers, introduction to coastal structures.

OCE312 Marine Machinery and Systems 3(2,2,0) Prerequisites: EME203, EME207 Diesel generators and performance, turbo-generators and performance, pumps, compressors, heat exchangers, condensers, HVAC, cooling systems, fuel system, fire fighting system, lubricating system, ballast system, sanitary system, maintenance planning of marine systems, electric load calculations, computer applications.

OCE401 Advanced Coastal Structures I 3(2,2,0) Prerequisites: OCE212, OCE302 Breakwaters (vertical , submerged, pneumatic ,compound and rubble mound ),jetties, groynes, fenders and seawalls, probabilistic approach to stability, crown walls, offshore ports, shiplifts, marine railways, shipways, dry docks , floating breakwaters, barriers, barrages, levees, etc. OCE421 Introduction to Offshore Engineering 3(3,0,0) Introduction, drilling systems, ocean structures, offshore oil and gas production systems, support systems, diving and submersibles, buoys and mooring systems, pipe-laying, salvage and rescue systems, ocean mining, topsides, codes and regulations. OCE422 Construction of Marine and Offshore Structures 3(3,0,0) Prerequisite: OCE421 Physical environmental aspects, seafloor and marine soils, materials and fabrication, construction equipment, marine operations, seafloor modifications, pile installation; harbour, river and estuary structures, coastal structures, steel jackets, concrete gravity-based structures, single point moorings, seafloor templates, moored floating structures, pipelines and cables, topside installation, removal and salvage, constructability, deep sea construction.

122

OCE403 Design of Reinforced Concrete and Steel Structures 4(3,2,0) Prerequisites: OCE222, OCE303 Reinforced concrete structures: Principles of reinforced concrete design: safety and economy, strength, stability and serviceability criteria, design of reinforced concrete members to resist compressive, bending, and shearing loads. Steel structures: Design of steel members, beams, columns, welded and bolted connections, eccentrically loaded and moment resistant joints, plate girders, plastic design, load and resistance factor design, composite construction. OCE511 Design of Offshore Platforms 3(2,2,0) Prerequisites: OCE421 Preliminary design methods for the design of offshore platforms and vehicles from mission statement to design selection, weight and cost analysis, powering estimation, principal design characteristics, computer-aided design. Applications to semi-submersibles, ships, and/or offshore platforms. OCE534 Computer Applications in the Marine Field 3(2,2,0)Prerequisites: CSE102, CSE202 Computer Graphics, simulation, computer methods in ship and offshore platform design, ship and floating platform computer packages, application of CAD/CAM/CIM.

OCE502 Surveying in the Marine Field 3(2,2,1) Plane surveying, area and volume computations, instruments and equipment, positioning methods: tag line , range azimuth, land passed electronic systems, depth measurements techniques, single and multi-beam acoustic measurements techniques, airborne hydrographic surveying, dredging measurement and payment volume computation, remote sensing, global positioning systems (GPS), geographical information systems (GIS), coastal engineering surveys, planning and processing survey for civil work projects, contracted survey specification and cost estimate. OCE512 Marine Production Technology 3(3,0,0)Prerequisite: PE102 Dimensioning and tolerancing, cutting, forming and shaping, welding and welding sequence, production and operations management, plant layout and process planning: assembly line, process and group technology, process flow analysis and simulation, capacity planning and scheduling, inventory and resource management, computer integrated manufacturing (CIM), quality management, tendering and bidding on contracts, process costing, activity based costing.

OCE551 Project I 3(1,2,3) OCE552 Project II 4(1,3,6)

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iv. Elective Courses

OCE3E1 Elective Course (1) 3(2,2,0)

The student should select one of the following courses: OCE331 Dynamics of Ocean Waves 3(2,2,0) Prerequisite: OCE311 Development of classical wave theory, description and formulation of wave problems in realistic seaways, free waves and forced waves, generation, propagation, diffraction, radiation, refraction, and reflection of ocean waves, random water waves. OCE332 Open Channel Hydraulics 3(2,2,0) Prerequisite: OCE213 Review of basic concepts of fluid flow, types of flow, states of flow, equation of motion, energy principle, transition problem, momentum equation, hydraulic jump, critical flow applications, flow measurement, Manning' formulae, uniform flow computations and design for prismatic and compound irregular cross-sections, erodible and nonerodible channels, gradually varied steady flow, classification and computation of flow profiles, the discharge problem, flow around bridge piers and flow through culverts, storm sewer design, numerical solutions, kinematics wave approximation, the method of characteristics, computer applications OCE334 Renewable Energy 3(2,2,0)Prerequisite: EME203 Types of renewable energy: wave, wind, solar, hydrogen; energy management principles, applications: offshore wind turbines, OTEC (offshore thermal energy conversion), photovoltaic, solar collectors, fuel cells, cold out of heat, absorption refrigeration units, computer applications. OCE335 Tidal Hydraulics, Wave Generation and Prediction 3(2,2,0) Prerequisites: OCE213, OCE311 Classification of estuaries, tides and other long waves, winds and wind-generated waves, wave prediction, freshwater inflow, changes in sea level, factors influencing hydrodynamics, solution methods, sedimentation, analysis of estuaries, control work design, sitting of control works, maintenance dredging, environmental considerations.

OCE4E3 Elective Course (3) 3(2,2,0)

The student should select one of the following courses: OCE434 Dredging Technology 3(2,2,0) Prerequisites: OCE213, OCE402 Types of dredgers, hydraulic dredging, dredging in navigation channels, dredging in cohesive sediment areas, disposal of dredged materials at sea, dredging management, dredge pump selection, pump and system characteristics, head loss in horizontal and vertical pipes for two- and three- phase flow, design of disposal methods for dredged material, environmental effects of dredging, selection of dredging equipment, littoral drift and sediment problems. OCE432 Coastal Management 3(2,2,0) Introduction, coastal management issues, concepts of coastal planning and management, major coastal management and planning techniques, coastal management planning. OCE436 Analysis and Interpretation of Wave Data 3(2,2,0) Prerequisite: OCE311 Unidirectional data; time history, statistics of individual wave heights and periods; the shape of one dimensional spectrum, wave climate and its variability, wave groups and envelopes, estimating extreme wave height, directional data; angular harmonic and directional parameters, noise and its effects, analysis and description of processes in random seas, producing- from measurements- the statistical distributions of waves, parametric and spectral sea-state descriptions, directional wave spectra, ocean engineering design criteria and linear responses of ocean structures and systems.

124

OCE4E4 Elective Course (4) 3(2,2,0) The student should select one of the following courses: OCE431 Advanced Coastal Structures II 3(2,2,0) Prerequisite: OCE401 Terminals, wharves, bulkheads, moorings, berthing, sheet pile systems, sand bypassing systems. Protective beach and dune construction-stabilization, risk analyses, construction methods, life time estimation, functional and structural design. OCE433 Floating Structure Design 3(2,2,0) Prerequisites: OCE211, OCE222, OCE303 Forces on offshore floating structures, wave and wind loading, stability and trim, longitudinal strength, pressure vessel design: theory and codes, combined bending and pressure loads, plate panels under bending and buckling, local strength analysis. OCE5E6 Elective Course (6) 3(2,2,0) The student should select one of the following courses: OCE535 Materials and Protection for Coastal Structures 3(2,2,0) Prerequisites: MSE201, OCE401 Maintenance , inspection and repair , rock, concrete, steel, timber, geotextiles, polymers and composite materials, factors affecting corrosion and materials deterioration, cathodic protection, coatings and inhibitors , materials selection, designing to minimize the deleterious effects on metals, concrete and woods, environmental degradation. OCE533 Underwater Technology 3(2,2,0) Prerequisites: PE102, OCE421 Diving, manned and unmanned submersibles, underwater imaging, underwater cutting, underwater dry and wet welding, underwater non-destructive testing, underwater installation, underwater maintenance and repair. OCE5E8 Elective Course (8) 3(2,2,0) The student should select one of the following courses: OCE532 Dynamics of Offshore Structures 3(2,2,0) Prerequisites: MP301, OCE311, OCE421 Wave-induced loads and load effects, frequency domain calculations of the dynamic response of offshore structures in realistic seaways, time domain simulation of the dynamic response of offshore structures in realistic seaways, influence of second order forces and moments on the dynamic response of offshore structures, influence of mono-hull and twin-hull on the dynamic response of offshore structures. OCE535 Drilling Engineering 3(2,2,0) Prerequisites: OCE213, OCE421 Rotary drilling rig operations, well construction, drill strings, drill bits, casing and wellheads, cementing, well control, directional and horizontal drilling, well planning and fishing operations, extended reach, horizontal and multi-layered well drilling techniques, types of offshore drilling rigs, drilling from offshore floating rigs. OCE537 Geophysical and Geotechnical Design 3(2,2,0) Prerequisites: OCE301, OCE413, OCE421 Introduction, regulations and standards, specifications, geophysical techniques: high resolution reflection systems, sounders, side-scan sonar, sub-bottom profilers, marine magnetometer, remotely

125

operated vehicles, autonomous underwater vehicles, seismic refraction systems, electrical resistivity systems, geotechnical techniques: vessels and rigs, methods of drilling and sampling, soil sampling, in-situ testing, operational considerations, legislation and regulations, offshore foundation design. OCE5E9Elective Course (9) 3(2,2,0) The student should select one of the following courses: OCE521 Offshore Safety and Risk Assessment 3(2,2,0) Prerequisites: MP301, OCE421 Safety and risk issues, regulatory requirements, hazard and hazard analysis, risk terminology, quantitative risk analysis (QRA), risk assessment, case studies, project. OCE536 Marine Pipelines and Risers 3(2,2,0) Prerequisites: OCE213, OCE421 Pipeline design analysis, wall thickness and material grade, limit state design, soil and pipe interaction, hydrodynamics around pipes, on-bottom stability, vortex induced vibrations, pipeline installation, routing, corrosion; inspection, maintenance and repair, design codes and criteria for risers, pipe-in-pipe and bundle systems. OCE538 Sediments Transport 3(2,2,0) Prerequisites: OCE301, OCE402, OCE501 Sediment properties and measurement techniques, erosion processes, transport processes, deposition processes, wave propagation, numerical modeling, engineering and management implications.

126

ــات برنــامج هندســة ــة و متطلب طبقــا الشــواطئ هندســة منصــات البتــرول البحري :للشروط المرجعية الصادرة عن الهيئة القومية لضمان جودة التعليم واإلعتماد

(A) Humanities and Social Sciences: (11%)


HS101 English Language 2 HS102 Human Rights 1 HS103 History of Engineering Sciences 1 HS201 Technical Writing 2 HS202 Engineering Economics 2 HS301 Project Management 2 HS401 Law and Engineering Ethics 2

HS3E2 Elective Course (2) 2 HS4E5 Elective Course (5) 2 HS5E7 Elective Course (7) 2 HS5E10 Elective Course (10) 2

TOTAL 20

(B) Mathematics and Basic Sciences: (20%)


MP101 Mathematics I 3 MP102 Mathematics II 3 MP103 Mechanics I 3 MP104 Mechanics II 3 MP107 Physics I 3 MP108 Physics II 3 GPE101 Engineering Chemistry 3 MP201 Mathematics III 3 MP202 Mathematics IV 3 EME203 Thermodynamics I 3 EME206 Fluid Mechanics I 3 MP301 Probability and Statistics for Engineers 3

TOTAL 36

127

(C) Basic Engineering Sciences: (24%)


MP 105 Engineering Graphics I 3 MP 106 Engineering Graphics II 3 PE 102 Production Engineering 3 EME207 Electric Circuits 3 OCE211 Buoyancy and Stability 3 OCE212 Civil and Marine Drawing 3 MSE201 Principles of Material Science and Engineering 3 OCE213 Marine Hydraulics 3 OCE222 Marine Structural Analysis I 3 OCE311 Water Wave Theory 3 OCE323 Marine Hydrodynamics I 3 OCE402 Sediment Transport and Littoral Processes 3 OCE423 Physical Modeling 3 OCE3E1 Elective Course (1) 3

TOTAL 42

(D) Applied Engineering and Design: (25%)


OCE303 Marine Structural Analysis II 3 OCE424 Marine Hydrodynamics II 3 OCE301 Marine Foundations 4 OCE302 Harbor Planning and Coastal Structures 4 OCE312 Marine Machinery and Systems 3 OCE401 Advanced Coastal Structures I 3 OCE421 Introduction to Offshore Engineering 3 OCE403 Design of Reinforced Concrete and Steel

Structures 4

OCE511 Design of Offshore Platforms 3 OCE4E3 Elective Course (3) 3 OCE4E4 Elective Course (4) 3 OCE5E6 Elective Course (6) 3 OCE5E8 Elective Course (8) 3 OCE5E9 Elective Course (9) 3

TOTAL 45

128

(E) Computer Applications and ICT: (7%)


CSE 102 Computer Programming 3 CSE202 Advanced Programming and Applications 3 OCE413 Measurements and Control Systems 4 OCE534 Computer Applications in the Marine Field 3

TOTAL 13

(F) Projects and Practice: (6%)


OCE512 Marine Production Technology 3 OCE551 Project I 3 OCE552 Project II 4

TOTAL 10

(G) Institution Character-Identifying Subjects: (7%)


OCE304 Introduction to Oceanography 3 OCE422 Construction of Marine and Offshore Structures 3 OCE501 Offshore Oil and Gas Production 3 OCE502 Surveying in the Marine Field 3

TOTAL 12

11متطلبات الجامعة٪

27متطلبات الكلية٪

28متطلبات التخصص الرئيسى٪

34التخصص الفرعى متطلبات٪

15نسبة المقررات اإلختيارية٪

129

Alexandria University- Faculty of Engineering Offshore and Coastal Engineering Program Prerequisite Credit or registration

First Year Second year Third Year Fourth Year Fifth Year Fall Spring Fall Spring Fall Spring Fall Spring Fall Spring

c

Credit hours per term 18 17 17 17 18 18 18 18 17 18

English Language HS 101

Project Management

HS 301

Law and Eng. Ethics

HS 401

Elective Course 5 HS 4E5

Mathematics I

MP 101 (3)

Mathematics IV

MP 202(3)

Human Rights HS 102


HS 202

Humanities Elective HS 3E2



Engineering Graphics

MP 105 (4)

Technical Writing HS 201

Mathematics II

MP 102(3)

Mathematics III

MP 201 (3)

Physics I

MP 107

Physics II

MP 108

Engineering Mechanics I

MP 103

Engineering Mechanics II

MP 104

General Chemistry

GPE 101

Production Engineering PE 102 (3)

Computer Programming CSE 102 (3)

Fluid Mechanics I EME 206

Thermo- dynamics EME 203

Electric Circuits

EME 307

Buoyancy and Stability

OCE 211

Civil and Marine Drawing

OCE 212 (3)

Principles of Material Science &

Engineering MSE 201 (3)

Advanced Programming &

Applications CSE 202 (3)

Probability and Statistics

MP 301 (3)

Marine Hydraulics

OCE 213 (3)

Marine Structural Analysis I

OCE 222 (3)

Marine Hydrodynamics

I

Marine Foundations

OCE 301

Water Wave Theory

OCE 311

Marine Structural Analysis II

OCE 303 (3)

Intro. To Oceanography

OCE 304

Marine Machinery & Systems

OCE 312 (3)

Harbor Planning & Coastal StructuresOCE 302 (4)

Elective Course 1

OCE 3E1 (3)

Advanced Coastal Struct.I

OCE 401 (3)

Sediment Transport & Littoral Processes

OCE 402 (3)

Measurements and Control Systems OCE 413 (4)

Intro. To Offshore Eng.

OCE 421

Elective course 3

OCE4E3 (3)

Marine Hydrodynamics II

Physical Modeling OCE 423

Offshore Oil& Gas Production

OCE 501 (3)

Construction Of Marine & Offshore

structures OCE 422 (3)

Design of Reinforced Concrete

&Steel Structures OCE 403 (3)

Elective Course 4

OCE 4E4 (3)

Design of Offshore Platforms

OCE 511 (3)

Marine Production Technology

OCE 512 (3)

Surveying in the Marine Field

OCE 502 (3)

Offshore Safety and Risk Assessment OCE 521 (3)

Elective course 8

OCE 5E8 (3)

Elective Course 6

OCE 5E6 (3)

Elective Course 9

Project (I)

OCE 551

Project (II)

OCE 552

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