engineering project presentation · fuel cells at subzero temperatures ... 李琦:reliability and...
TRANSCRIPT
Engineering Project Presentation
Presented By:曾亚洲
Co
nte
nts
01 Project overview
02 Introduce the laboratory
03 Introduce the School of MECE
01Project overview
Introduce the lab about energy----Beijing Key
Laboratory of Flow and Heat of Phase Changing
in Micro and Small Scale
Project overview
Introduce the different majors
of the school of MECE and
establish a foundation for future
cooperation
02Introduce the laboratory
Introduction to the experimental platform
Mixed working fluid pool
boiling test platform
Micro-nanostructure
surface steam
condensation experimental
platform
Microchannel-separated
heat pipe system
experimental platform
Microchannel
condensation test bench
Introduction to the experimental platform
Separate microchannel
condensing heat exchanger
experimental platform
PIV particle imaging speed
test bench
Horizontal long thin
channel flow boiling
experimental sub-platform
Lithium ion power battery
microchannel heat
exchange cooling
experimental sub-platform
Porous medium flow heat
transfer experimental
system
Research direction
Four main research
directions in the laboratory
Research on Micro-scale Fluid Flow
and Heat Transfer Enhancement
Study on Flow and Heat Transfer in
Microscale Boiling and Condensation
Process
Nanofluid flow and heat transfer
theory and technology
Study on Phase Change Heat Transfer
of High Energy Beam Metal
Qi Peng Chao Dang Han Zhang
Zhoujian An Yong Ding Yongxin Zhang
【1】 Study on stretch extinction limits of 𝐶𝐻4 / 𝐶𝑂2 versus high temperature 𝑂2 / 𝐶𝑂2
counterflow non-premixed flames
【2】 Experimental investigation on dynamic characteristics of proton exchange membrane
fuel cells at subzero temperatures
【3】 Two-dimensional electrochemical–thermal coupled modeling of cylindrical liFeP𝑂4batteries
【4】 Experimental investigation on bubble confinement and elongation in microchannel
flow boiling
【5】 Investigation on combustion characteristics and NO formation of methane with
swirling and non-swirling high temperature air
【6】 Evaporating momentum force and shear force on meniscuses of elongated bubble in
microchannel flow boiling
【7】 Bubble departure size in flow boiling
Papers published
• In-depth and detailed discussion of laboratory research projects
• assign some students who interest and know the project to the laboratory to study
with the team
• Teachers from both school can also conduct academic communication
• learn and communicate with companies in both countries. Through learning the
different company culture and management mode can we get the benefits each
other.
Establish contact network
03Introduce the School
of MECE
Detailed introduction of different majors
Information about Mechanical and Electronic Control Engineering
Mechanical engineering
Vehicle Engineering
Measurement and control
technology and instruments
Energy and power engineering
Industrial engineering
Mechanical and Electronic
Engineering (International Class)
Mechanical engineering Vehicle Engineering
Mainly about mechanical design, manufacturing and
automation
meet the needs of key technical fields of rail vehicle engineeringFocus on the field of
transportation
Measurement and Control Technology and
Instrumentsknowledge of light,
machine, electricity and control
Focus on the direction of the control instrument
Detailed introduction of different majors
Energy and Power Engineering
Industrial Engineering
“Car and Engine Directions”、“Thermal Engineering Directions”Focus on research in the
field of energy and power
integrated systems of researchers, materials, equipment, energy and
information to achieve high efficiency, high quality and
low consumption of the system.
Mechanical and Electronic Engineering
(International Class)
Focus on international communication on the
basis of mechanical engineering courses.
Detailed introduction of different majors
……
鄂明成:Production system, system optimization——assembly line optimization
蒋增强:System optimization, management information system development——
Enterprise information system
李琦:Reliability and quality management, risk analysis, big data analysis.——
Reliability check, troubleshooting, data analysis
朱晓敏:Manufacturing System Optimization, System Modeling and Simulation,
Logistics System Planning——Modeling and optimizing the system, optimizing
logistics facilities
刘阶萍:Logistics system planning, logistics information system, robot control——
Facility location layout
陆一平:Manufacturing system optimization, operations research optimization——
Layout optimization
Project summary
……
Thank you!
Østfold university
college
&
Engineering Project Report
Responsible department: Faculty of Engineering
Teaching language: English
Duration: Summer 2018
Name: Zeng Yazhou
August 26, 2018
目录
1 Introduction to the laboratory .......................................................................... 2
1.1 Introduction to the experimental platform ............................................. 2
1.2 Research direction ................................................................................. 8
1.3 The contact information about Prof. Jia Li´s PhD students ................ 10
1.4 Papers published in the laboratory ...................................................... 11
1.5 Establishing contact network and recommend further action steps .... 12
2 Introduction to the School of MECE ............................................................. 12
2.1 Detailed introduction of different majors ............................................ 13
2.2 Short summary of different majors...................................................... 22
2.3 Same points and differences ................................................................ 24
2.4 Teacher's main research direction ........................................................ 24
1 Introduction to the laboratory
This laboratory is called Beijing Key Laboratory of Flow and Heat Transfer of
Phase Changing in Micro and Small Scale. Through the communication with Dr.Jia's
doctoral students and searching information on the website, I will show you the details
about the laboratory.
1.1 Introduction to the experimental platform
Through the understanding of Beijing Key Laboratory of Flow and Heat Transfer
of Phase Changing in Micro and Small Scale of Beijing Jiaotong University, some
functional aspects of its experimental platform and instrument were realized.
Mixed working fluid pool boiling test platform
It mainly studies the boiling mechanism of non-azeotropic mixed working fluids,
and obtains the dynamic behavior and boiling heat transfer characteristics of bubbles
during boiling process by means of visualization and temperature and pressure
measurement, which provides theoretical guidance for the industrial application of non-
azeotropic working fluids. There is a heating surface inside the body, the heating area
is 1cm*1cm, and the generation of single or small bubbles is realized to observe the
dynamic behavior of the bubble and combine it with the boiling heat transfer
performance.
Micro-nanostructure surface steam condensation experimental platform
As a highly efficient form of heat transfer, steam condensation plays an
irreplaceable role in power generation, heat management, water desalination and
recovery, and indoor environmental regulation. Improving steam condensation heat
transfer performance and promoting condensate removal will greatly Saving energy and
resources, the micro-nanostructure surface steam condensation experimental platform
mainly studies the dynamic behavior of droplets on the surface of micro-nanostructures
and the macroscopic heat transfer characteristics of the surface during steam
condensation process through visual and experimental measurement methods. The
theoretical basis for achieving the enhancement of steam condensation heat transfer.
Microchannel-separated heat pipe system experimental platform
Today, with the rapid development of high-speed rail, electric traction has become
the mainstream traction mode of rail trains. IGBT is the "heart" of traction electric drive
system. The high temperature is the main cause of IGBT damage. Microchannel
evaporation section-separated heat pipe experimental system, heat transfer experiment
under pure gravity drive system, start-up characteristics, stable operation characteristics
and heat transfer mechanism study; heat-driven characteristics and mechanism research
under power drive; micro-integrated IGBT module Study on the structural form of the
channel evaporation section.
Microchannel condensation test bench
The steam condenses into a liquid state in the microchannel, observes the change
of the condensing flow pattern in the microchannel through a high-speed camera, and
measures the temperature and pressure data to study the heat transfer performance of
the microchannel condensation, and calculates the heat exchange intensity through the
change of temperature. The reinforcement of condensation heat transfer in the
microchannel provides a theoretical basis.
Separate microchannel condensing heat exchanger experimental
platform
Through the visualization method, the flow pattern change of the steam flow inside
the liquid-collecting condensing heat exchanger is observed, and the overall heat
transfer coefficient and pressure drop characteristics of the heat exchanger are studied
through experimental means, and the heat exchanger is compared in the presence or
absence of liquid separation. Performance improvement and proper pipe optimization.
PIV particle imaging speed test bench
Based on Particle Image Velocimetry, the flow field variation and distribution
characteristics of the reactor fuel assembly beam channel are studied. Especially for the
lateral flow field caused by the mixing airfoil positioning grid, the downstream
landscape of the grid is discussed. The relationship between the flow field and the
factors such as the mixing airfoil and the Reynolds number.
Horizontal long thin channel flow boiling experimental sub-platform
The steam generator is the hub of the pressure reactor power unit that connects
the first and second circuits. In the nuclear reactor, when the cooling water comes to
the steam generator with heat, the heat is transferred to the cooling water in the
second circuit through the heat transfer tube, so that the water in the second circuit
boils, and the generated steam drives the steam turbine to generate electricity. The
traditional two-circuit has a large diameter, which occupies a large space, and the heat
transfer situation is not ideal. However, its performance and safety directly affect the
performance and safety of the entire nuclear power plant. With the development of
steam generators in the direction of high power and miniaturization, modern nuclear
power plants hope that the structure of nuclear power plants will be more compact.
Therefore, in order to increase the specific volumetric energy density of heat
dissipation, the study hopes to provide basic reference knowledge for the design of
large-scale plate evaporators.
Lithium ion power battery microchannel heat exchange cooling
experimental sub-platform
With the increasing importance of energy conservation and emission reduction,
the development of new energy vehicles is the main development direction of
transportation energy conservation. Thermal management is one of the core
technologies that restrict the development of batteries and electric vehicles, and has
always been the focus and hotspot of research. Lithium-ion battery cooling test bench
is mainly used for cooling experiments of large-capacity lithium-ion batteries for
electric vehicles. It studies the cooling effect of batteries under different charge and
discharge ratios, ambient temperature, working fluid flow and different battery
combinations. The cooling of the battery pack provides engineering guidance to ensure
that the battery operates properly at lower temperatures.
Porous medium flow heat transfer experimental system
Based on the single-blowing method, the experimental platform for measuring the
fluid-solid coupling heat transfer characteristics in porous foam media was established.
The integrated control, measurement and data acquisition were realized by electronic
control design. By measuring the temperature transient of the airflow and the solid
skeleton when the airflow flows through the foam porous medium, the inversion
method is used to determine the convective heat transfer coefficient; and the
reciprocating ventilation is used to measure the temperature of the airflow during the
cycle time to obtain the heat recovery efficiency.
1.2 Research direction
There are four main research direction, They are microscale fluid flow and heat
transfer enhancement studies, microscale boiling and condensation process flow and
heat transfer studies, nanofluid flow and heat transfer theory and technology, and high
energy beam metal phase transition heat transfer studies. And I will show you the details
about the research direction.
Research on Micro-scale Fluid Flow and Heat Transfer Enhancement
Research content: basic theoretical research on gas flow and heat transfer
mechanism in microchannels; research on liquid flow and heat transfer characteristics
in microchannels; research on microchannel heat exchangers.
Research unit: gas microscale flow and heat transfer research; liquid microscale
flow and heat transfer research; microchannel heat exchanger research. Research on
pulsating heat pipes and data center heat dissipation; complex channel flow boiling and
safety studies.
Study on Flow and Heat Transfer in Microscale Boiling and
Condensation Process
Research content: study of supercooled boiling flow and heat transfer
characteristics in small channels; study of gas-liquid phase transition behavior in
microchannels; study of flow and heat transfer characteristics in small channel
condensation process; microstructure transfer behavior and proton membrane fuel
Research on dynamic mass transfer mechanism of batteries.
Research unit: research on microchannel boiling heat transfer characteristics;
microchannel bubble motion behavior and heat transfer research; fuel cell diffusion
behavior research; pulsating heat pipe mechanism research; High-power power battery
thermal management phase change technology research.
Nanofluid flow and heat transfer theory and technology
Research content: research on flow and heat transfer mechanism of nanofluid
pulsating heat pipe; research on nanowire motion characteristics in solution under
complex multiphysics; theory and application of nano magnetorheological fluid.
Research unit: nanofluid performance research, magnetic nano-solution
condensation and sealing research, nano-solution pulsation heat pipe research,
nanowire solution characteristics research.
Study on Phase Change Heat Transfer of High Energy Beam Metal
Research content: Research on local thermophysical phenomena induced by laser
source characteristics; research on gas-liquid and solid-liquid interface characteristics
of high-density energy melting pool.
Research unit: numerical study of molten pool characteristics, research on metal
welding phase change transfer process.
1.3 The contact information about Prof. Jia Li´s PhD
students
彭 启 Qi Peng Ph.D candidate It mainly
studies heat and mass transfer at microscale.
Email:[email protected]
TEL:15201325492
安周建 Zhoujian An Ph.D candidate The
main research direction is micro-scale boiling heat
transfer
E-mail:[email protected]
TEL : 15210585174
丁勇 Yong Ding Ph.D candidate The
main research interest is microchannel condensation
research.
E-mail: [email protected]
党超 Chao Dang Ph.D candidate Mainly
engaged in the study of micro-scale heat and mass
transfer
E-mail : [email protected]
张翰 Han Zhang Ph.D candidate Mainly
engaged in the research of gas flow metering.
E-mail : [email protected]
张永欣 Yongxin Zhang Ph.D candidate
Study on the characteristics of non-azeotropic working
fluid condensation
E-mail : [email protected]
1.4 Papers published in the laboratory
There are totally about 141 paper published in the laboratory, Mainly included in
SCI and EI, and among the doctoral students of professor Jiali, I think Peng Qi, An
Zhoujian and Dang Chao are doing research in the direction of Microscale Fluid Flow
and Heat Transfer Enhancement. Ding Yong and Zhang Yongxin are doing research in
the direction of Flow and Heat Transfer in Microscale Boiling and Condensation
Process.
I will list some papers as example below.
【1】Study on stretch extinction limits of CH4/CO2 versus high temperature
O2/CO2 counterflow non-premixed flames
【2】Experimental investigation on dynamic characteristics of proton exchange
membrane fuel cells at subzero temperatures
【3】Two-dimensional electrochemical–thermal coupled modeling of cylindrical
LiFePO4 batteries
【 4 】 Experimental investigation on bubble confinement and elongation in
microchannel flow boiling
【5】Investigation on combustion characteristics and NO formation of methane
with swirling and non-swirling high temperature air
【6】Evaporating momentum force and shear force on meniscuses of elongated
bubble in microchannel flow boiling
【7】Bubble departure size in flow boiling
1.5 Establishing contact network and recommend
further action steps
In my opinion, I think there are some advice on the cooperation about two schools.
First, Conduct in-depth and meticulous discussions on laboratory research projects,
I think knowing about each other is an important and necessary thing, and then we can
assign some students who interst and know the project to the laboratory to study with
the team and receive further education with the team.
Second , not only can students communicate, but teachers can also conduct
academic discussions. I think it’s important for Beijing jiaotong university to establish
the international relationship with Ostfold university college. And the Ostfold
university college also can conduct academic exchanges. The teachers from two school
can talk about something academic.
Third, it is also a good way to learn and communicate with companies in both
countries. Through learning the different company culture and management mode can
we get the benefits each other.
2 Introduction to the School of MECE
the School of Mechanical and Electronic Control Engineering, In the
undergraduate training stage, there are six majors, namely Mechanical Engineering,
Vehicle Engineering, Measurement and Control Technology and Instruments
Engineering, Energy and Power Engineering, Industrial Engineering, International
Engineering Class for Mechanical Engineering.
I will introduce the school directly firstly, and then I will briefly summarize each
major and discuss the same points and differences.
2.1 Detailed introduction of different majors
Mechanical engineering
Training Objectives of Mechanical Engineering: Training and meeting the needs
of modern manufacturing development, possessing good humanities and social
science literacy and sustainable development potential, mastering solid basic
knowledge of mathematics, foreign languages, physics and computer applications,
with expertise in mechanical design, manufacturing and automation. With advanced
skills and engineering skills, and with international vision and teamwork ability, he is
able to engage in advanced engineering and technical personnel in design,
manufacturing, technology development, applied research and operation management
in the field of mechanical engineering in research institutes and manufacturing
enterprises
During the school, students must learn theoretical mechanics, material
mechanics, engineering drawings, mechanical principles, mechanical design,
mechanical manufacturing techniques, metalworking internships, and knowledge in
addition to mathematics, physics, chemistry, English, and computer science.
Professional basic courses such as internships and mechanical creative practice. On
this basis, in order to meet the requirements of individualized training, professionally
selected courses such as mechanical innovation design, computer-aided three-
dimensional design, computer-aided design and manufacturing, manufacturing
equipment and automation technology, mechatronics technology, robotics and so on.
The major relies on the national-level mechanical engineering experimental
teaching demonstration center to carry out a large number of experimental teaching,
and at the same time arranges four integrated comprehensive practical teaching links
through the mechanical principle scheme design, mechanical system innovation
design, modern manufacturing technology and electromechanical system design.
Project-based teaching methods are used to comprehensively develop students'
engineering practice, teamwork and innovation.
Vehicle Engineering
The predecessor of the vehicle engineering of Beijing Jiaotong University is the
railway vehicle and diesel locomotive that was established in 1958. The rofessionally
applied engineering of transporting tools is a national key discipline. The vehicle
engineering discipline is a key discipline of the Ministry of Railways. The further
study of students exceeds 35 % per year. After the school was transferred from the
Ministry of Railways to the Ministry of Education in 2000, the professional name was
changed to mechanical engineering and automation (railway locomotives), but the
railway features have not changed! In 2007, the majors of mechanical engineering and
automation (railway locomotives) successively obtained national-level specialty and
Beijing-specific professional construction projects; in 2011, with the approval of the
Ministry of Education, the professional name was changed to vehicle engineering.
It has the background of large-scale rail transit engineering, meets the needs of
key technical fields of rail vehicle engineering, has solid basic theory, systematic
professional knowledge, strong engineering quality, professional expression ability and
engineering practice ability, and has international vision and teamwork ability. , capable
of competent engineering talents in the design, manufacture and operation management
of rail transit vehicles.
In the process of converting high-speed EMUs from “Made in China” to“Created
in China”, the profession has fully utilized the professional construction experience
and solid foundation of more than 50 years of rail vehicles, advancing with the times,
relying on national key disciplines, scientific research support, and school. Enterprise
cooperation, continuously strengthen the construction of professional connotation,
solve the problem of how the knowledge structure and ability of featured
professionals can adapt to the development needs of the industry, the "win-win"
mechanism of joint development of talents by schools and enterprises, and how the
discipline advantages lead professional development. This major has become a
national-level specialty, the first batch of outstanding engineer training program pilot
program, national professional comprehensive reform demonstration program;
cooperation with enterprises to establish two national engineering practice education
centers and two Beijing-level off-campus talent training base, independent Developed
the first professional teaching experiment platform for EMUs in the country, and
supported the construction of the “12th Five-Year” National Experimental Teaching
Demonstration Center of the Mechanical Engineering Experimental Center, forming
an integrated practice platform integrating internal and external schools.
Measurement and control technology and instruments
The measurement and control technology and instrumentation profession pays
attention to the "electromechanical combination" in the process of student training, and
integrates the teaching reform results of our school in recent years, fully embodying the
teaching characteristics of "wide caliber, thick foundation, heavy personality, strong
ability, and innovation". Two years of mathematics and natural sciences, humanities
and engineering, professional basic courses, two years of professional courses. In the
training plan, we pay attention to the cultivation of practical links and students' practical
ability. The practice links run through the university for four years, and the practice
ratio reaches 57%. The mechanical design of the course is a national bilingual class.
The engineering training and mechanical principles are Beijing-level quality courses,
the automatic control principle, the measurement and control system design, and the
computer control technology are the school-level quality courses.
Training objectives of measurement and control technology and instrumentation:
Cultivate in line with national development needs, has a solid natural science
foundation and good humanistic quality, has a light, machine, electricity, control
professional knowledge structure, has practical ability, communication ability and
innovative spirit, can engage in various sectors of national economy such as rail
transit Engineering and technical personnel who design, manufacture, research and
develop and manage automatic detection and control, measurement and control
instruments and equipment.
The expertise and abilities students should have after graduation:
(1) The system masters the professional basic knowledge of information
detection and automatic control technology;
(2) The system masters the expertise of opto-mechatronics technology,
electromechanical system detection and control, and intelligent instrument and
instrument design, and understands the development trend of the detection and control
disciplines;
(3) Strong computer and hardware development capabilities for computer
applications, data processing and measurement and control systems;
(4) Basic ability to design and use modern integrated detection and control
systems.
Beijing Jiaotong University's measurement and control technology and
instrumentation has high-quality practical conditions such as national engineering
experimental teaching demonstration center for mechanical engineering, national
physics and electrical and electronic basic course base, and relying on the national key
discipline of "carrier engineering application" and "rail vehicle structure". Reliability
and Application Detection Technology" Ministry of Education Engineering Research
Center and "Advanced Manufacturing and Measurement and Control Technology for
Vehicles" National Defense Key Laboratory of the Ministry of Education.
Energy and power engineering
“Energy and Power Engineering” is a traditional advantage specialty of Beijing
Jiaotong University. Its predecessor was the “locomotive internal combustion engine”
established in the 1950s. In the 20th century, the "locomotive internal combustion
engine" professional cultivated a large number of outstanding talents for China,
especially the railway industry.
According to the professional characteristics, the “Energy and Power
Engineering” major trains students on the basis of generosity and according to the two
directions of “car and engine direction” and “thermal energy engineering direction”.
During the school, students should not only study public basic courses and
professional basic courses such as Engineering Thermodynamics, Engineering Fluid
Mechanics, Heat Transfer, Engineering Combustion, and Thermal Energy and Power
Testing Technology. According to the professional direction, learn the professional
courses such as "Internal Combustion Engine", "Automotive Theory" or "Boiler
Principle" and "The Principles of Steam Turbine". All the main courses and some
professional courses adopt the research teaching mode, and some of the main courses
use bilingual teaching.
Beijing Jiaotong University's "Energy and Power Engineering" major mainly
cultivates energy and power engineering fields, especially the "car and engine
direction" or "thermal energy engineering direction" has a solid theoretical
foundation, strong practice, adaptability and innovation ability, higher The high-level
technical talents of moral quality and cultural quality to meet the social research and
development, design, teaching, engineering, management and management Talent
Demand. Graduated students should have a broad knowledge of natural sciences,
humanities and social sciences, broad theoretical foundations such as thermals,
mechanics, electricity, mechanics, automation, systems engineering, expertise and
practical skills in energy and power engineering, and computer applications.
Knowledge of automatic control technology. Graduates can pursue research, teaching,
development, manufacturing, planning, management and marketing in energy and
power engineering and related fields. They can also pursue further studies in this
major or related majors to pursue master's and doctoral degrees.
Beijing Jiaotong University's "Energy and Power Engineering" professional
practice platform mainly relies on the "New Energy Vehicle Powertrain Technology"
Beijing Key Laboratory and the "Advanced Manufacturing and Measurement and
Control Technology for Vehicles" Ministry of Education Key Laboratory; And many
experimental platforms such as liquid fuel combustion, engine electronic control
technology, diesel combustion and emission control, engine cooling, hybrid system,
heat and mass transfer, pulsating heat pipe, proton exchange membrane fuel cell, fine-
scale boiling, mixed gas condensation, etc. The calculation and analysis platform has
a number of undergraduate and postgraduate practice teaching bases, such as thermal
laboratories, combustion laboratory, engine laboratory, disassembly laboratory, etc.,
and has the hardware foundation for cultivating high-level undergraduates and
postgraduates.
Industrial engineering
Industrial engineering is a complex engineering major that intersects engineering
technology and management technology. It combines the expertise and technology of
mathematics, physics and social sciences, and is dedicated to researchers, engineering
principles and methods. The planning, design, improvement, and optimization of
integrated systems of materials, equipment, energy, and information to achieve high
efficiency, high quality, and low consumption of the system. In the more than 100
years of industrial engineering development, a series of effective methods have been
proposed for work organization, quality improvement, production planning and
control, facility layout, enterprise site selection, material and procurement
management, and supply chain design. The efficiency and quality of production and
services have reduced costs and promoted the rapid development of social
productivity.
Beijing Jiaotong University is affiliated with the School of Mechanical and
Electronic Control Engineering, relying on the “Internationalized Entrepreneurship
Engineering and Management Compound Talent Training Model Innovation
Experimental Zone (National)”, “Mechanical Engineering Experimental Teaching
Demonstration Center (National)” and "State Key Laboratory of Rail Traffic Control
and Safety", guided by the characteristics of Beijing Jiaotong University, implements
the teaching philosophy of "doing middle school, industry-university cooperation,
internationalization", and is committed to cultivating the engineering background,
management and technology integration. Internationalized compound talents that
focus on practice and innovation. Professional students are required to study the basic
courses of public basic courses and mechanical design, management operations
research (biling), manufacturing processes and systems, as well as production
planning and control (biling), quality management and reliability (English) ), logistics
analysis and facility planning (bilingual), engineering economics (bilingual), system
modeling and simulation (bilingual), human factors engineering, and other
professional courses; also participate in automated manufacturing system practice,
production system practice, and the United States Woods Institute of Technology's
international collaborative practice and other practical courses to develop students'
ability to solve practical problems.
At present, the industrial engineering profession has the first domestic
comprehensive monitoring and simulation platform for rail transit human factors with
independent intellectual property rights, modern integrated manufacturing systems,
and production and service system operation optimization and simulation laboratories,
which can guarantee teaching and scientific research in all aspects.
Mechanical and Electronic Engineering (International Class)
The Internationalization Program in Mechanical Engineering (hereinafter
referred to as the International Class) is an important component and forward-looking
measure of Beijing Jiaotong University's education internationalization strategy. In
September 2010, our school selected students from the freshmen to form the first
international class of mechanical engineering and automation. The school utilizes a
wealth of high-quality international education resources, employs a group of foreign
teachers to participate in the teaching of the international class, and teaches in English
to create an international educational environment and atmosphere. It is guided by the
international advanced engineering education concept and aims to train a group of
Mechanical engineering talents with international vision, cross-cultural
communication skills and international competitiveness.
The international class adopts the teaching content and teaching mode that is in
line with the world's top universities. The main courses are taught in English. The
first-class original English textbooks are used. From lectures and discussions to
examinations, all English are used. Foreign professors are hired for short-term
classroom teaching. Opportunities to experience the teaching and learning methods of
top foreign universities, create opportunities for students to exchange face-to-face
with foreign professors, and offer special cultural courses and global vision lectures to
help students understand the impact of different cultural backgrounds on economic
and technological exchanges. Students' international vision and international
communication skills.
The international education environment created by the international class will
lay a good language foundation for students participating in the international joint
training program, strengthen students' awareness of communication expression,
hands-on implementation and teamwork, improve students' adaptability in a
globalized environment, and broaden students. International exchange channels
enhance their future international competitiveness.
The first and second grade courses of the international class are mainly based on
the general engineering courses of mechanical and electrical categories, and the third
and fourth grades are mainly mechanical engineering courses, and various teaching
activities in the English environment are carried out. Humanities and social science
courses are still taught in Chinese. At the same time, from the beginning of the
freshman year, the "machine creative design practice" organization "quality
development" and other practical courses to strengthen students' hands-on ability,
open a global vision lecture, cultural dimension in the global business environment
and science and technology English writing courses to develop students International
vision to improve international communication skills.
2.2 Short summary of different majors
In this part, I will summarize the different majors in some key words, and express
the major in short sentences, meanwhile, I will compare the same points and differences
in the six majors.
Mechanical Engineering
Key words: design, manufacturing, technology development, applied research and
operational management.
It is mainly to cultivate the professional knowledge and skills of mechanical design,
manufacturing and automation as well as engineering practice ability. Graduates can be
in the field of mechanical design and manufacturing, mechanical and electronic,
information technology and related research institutes, modern manufacturing
companies, high-tech industry companies and government agencies, they are engaged
in scientific research, product development and management.
Vehicle Engineering
Key words: transportation, rail transit engineering, rail transit vehicles
Mainly used in the railway industry, it has played a major role in the development
of high-speed rail in recent years, mainly related to vehicle research, design and
development, manufacturing, quality inspection and control, use and maintenance,
related testing equipment and instrument development.
Measurement and Control Technology and Instruments
Key words: light, machine, electricity and control, automatic detection and control
Mainly engaged in computer applications, electronic information, intelligent
instruments, virtual instruments, measurement and control, automation and other fields
of product design and manufacturing, technology development, application research,
enterprise management and so on.
Energy and Power Engineering
Key words:,energy and power
Two research directions: “Car and Engine Directions”, “Thermal Engineering
Directions”. Meet the needs of the society for talents in research, design, teaching,
engineering, management and management in the field of energy and power
engineering.
Industrial Engineering
Key words: improvement and optimization.
Integration of engineering background, management and technology. Dedicated to
the planning, design, improvement and optimization of integrated systems of
researchers, materials, equipment, energy and information to achieve high efficiency,
high quality and low consumption of the system.
International Engineering Class for Mechanical Engineering
Key words: international communication, basis mechanical engineering courses.
Adopting a teaching model that is in line with international universities. The
course is an electromechanical engineering basic course and a mechanical engineering
course. The purpose is to broaden the channels for students to exchange internationally
and enhance their future international competitiveness.
2.3 Same points and differences
Same points: in my opinion, they all belong to engineering subjects, and students
in different majors will all learn the same courses in sophomore, called public
foundation course, and then they can choose what they like for further education.
Additionaly, Students will take course-related lab classes, physics experiments, etc.
Differences: there are many different aspects in the six majors.
From the overall design of the course, industrial engineering belongs to the
discipline of engineering and management. International engineering class for
mechanical engineering belongs to the international training mode. The other four
majors belong to traditional engineering subjects.
From the content of the major, there are many differences, Mechanical
engineering is mainly related to plant mechanical design, manufacturing and
automation, such as design-related instruments for automated operation design. It
works through mechanical products. Vehicle engineering is mainly focused on rail
transportation, such as the design and manufacture of high-speed rail. Measurement and
control technology and instruments are mainly engaged in the automatic detection and
control of instruments and equipment, and play an important role in the control of the
instrument. Energy and power engineering play a major role in the energy and power
fields, and play a role in how to make more energy in car engines and how to save
energy. Industrial engineering is mainly the combination of engineering analysis and
management to achieve system planning, design, improvement and optimization. The
International Course in Mechanical Engineering is based on mechanical engineering
and is mainly taught in English, which strengthens international exchanges.
2.4 Teacher's main research direction
鄂明成:Modern Production Model and System Integration, Manufacturing
and Service System Operation Optimization Theory and Technology
Teacher E mainly focuses on the lean production direction. The basic theoretical
research on industrial engineering is extensive, and the research is biased towards the
production and operation mode of modern factories and the optimization of production
lines.
Essay published:
【1】智能制造系统的自组织单元结构研究[J].北方交通大学学报,2000,
24(4)
蒋增强:The main research direction is manufacturing system operation
optimization theory and technology, maintenance optimization decision
Teacher Jiang’s lectures on our content mainly involve database knowledge. The
lectures are mainly for the development of information systems. We also completed the
development of a conference room information management system. His research
direction also includes research on enterprise production planning, how to formulate a
more reasonable production plan, rational allocation of enterprise resources, modeling
and simulation of the system operation and optimization.
Essay published:
【1】Distributed Dynamic Scheduling for Cyber-physical Production Systems
Based on a Multi-agent System[J]. IEEE Access, 2018,6(1):1855-1869.
【2】Optimizing the re-profiling policy regarding metropolitan train wheels based
on a semi-Markov decision process [J]. Proceedings of the Institution of Mechanical
Engineers, Part O: Journal of Risk and Reliability, 2017,231(5): 495-507.
李琦:Reliability and Quality Management, Risk Analysis, Operations
Research and Mathematical Modeling, Big Data Analysis.
Li Qi's research is mainly based on the analysis of the feasibility of quality research
based on data analysis, and includes the optimization of the system through knowledge
of operations research modeling. Teacher Li Qi also focuses on big data analysis and
collects and analyzes large-scale data to build models.
Essay published:
【1】A farm-level precision land management framework based on integer
programming." PloS one 12.3 (2017)
【 2 】 Techno-economic analysis of biofuel production considering logistic
configurations." Bioresource technology 206 (2016): 195-203.
朱 晓 敏 : Intelligent Manufacturing and Service System Operation
Optimization Theory and Technology, Complex System Modeling,
Simulation and Evaluation, Logistics System Planning and Operation Mode
Analysis
Teacher Zhu Xiaomin mainly studies modern manufacturing systems and their
operation scheduling optimization, job shop production scheduling model and
optimization algorithm, and flexible operation workshop production operation
optimization. The current research direction of the project mainly includes hospital
scheduling optimization.
Essay published:
【1】A Flexsim-based Optimization for the Operation Process of Cold-Chain
Logistics Distribution Center[J], Journal of Applied Research and Technology, 12: 270-
278, April 2014.
【2】A Novel Optimization Method on Logistics Operation for Warehouse & Port
Enterprises Based on Game Theory[J], Journal of Industrial Engineering and
Management, 6(4): 895-908, 2013.
刘阶萍:Logistics System Planning, Logistics Information System, Computer
Simulation, Scheduling Theory and Application, Robot Control
Teacher Liu’s courses for our undergraduate professors are mainly logistics
systems and modeling, but the projects they do are mainly robotic control.
Essay published:
【1】供应链配送网络设计优化模型及其求解 [J]。物流技术,2009-
05,5(5).95:98
陆一平:Manufacturing and service system operation optimization theory and
technology, intelligent engineering and knowledge management, cutting and
filling layout problems, optimal theory and method
Teacher Lu mainly teaches the course of operations research when he teaches
undergraduate courses. The research direction is mainly the optimization direction,
which mainly includes the optimization of manufacturing service system and a series
of optimization based on algorithm.
Essay published:
【1】Packing cubes into a cube is NP-complete in the strong sense [J]. Journal of
Combinatorial Optimization, 2015, 29(1): 197-215.