FAKULTEIT INGENIEURSWESE
Nagraadse Studieprospektus 2007
Augustus 2006 (v.0)
© Fakulteit Ingenieurswese, Noordwes-Universiteit (Potchefstroomkampus), Augustus 2006
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Inhoud
Nagraadse opleiding struktuur...........................................................................................................................3
Nagraadse programme.......................................................................................................................................4
Opsomming: Verloop van studie ........................................................................................................................5
Buitelandse studente ..........................................................................................................................................7
Klasgelde ............................................................................................................................................................7
Stappe: van aansoek tot registrasie ...................................................................................................................8
Nagraadse kwalifikasiekodes ...........................................................................................................................12
Algemene kontakbesonderhede.......................................................................................................................13
Projekte 2007....................................................................................................................................................14
Doel van hierdie dokument
Die doel van hierdie dokument is hoofsaaklik om:
• Voornemende nagraadse studente bekend te stel aan nagraadse studie by die fakulteit Ingenieurswese.
• Beskikbare navorsingsprojekte vir studente in 2007 bekend te stel.
• Te dien as inligtingsgids vir aansoek-, registrasie- en studieproses doeleindes.
Drie dokumente is baie belangrik m.b.t. nagraadse studie in die fakulteit Ingenieurswese - maak asb. seker dat jy 'n kopie daarvan kry:
� NWU Algemene reëls ("A-reëls") � Fakulteitsjaarboek � Handleiding vir Nagraadse Studie
(Bogenoemde dokumente is beskikbaar op die webwerf: www.puk.ac.za)
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Nagraadse opleiding struktuur Die fakulteit bestaan uit 4 skole en 2 sentrums, en dosente en studente is betrokke by 2 navorsings-fokusareas:
SKOOL FOKUSAREA
(hoofsaaklik betrokke) Fokusarea
SUB-PROGRAMME
Skool vir Chemiese en Mineraalingenieurswese Skeidingswetenskap en -tegnologie
Steenkooltegnologie
Prosesingenieurswese, ens.
Skool vir Elektriese, Elektroniese en Rekenaaringenieurswese
Eenheid vir Energiestelsels Elektriese Energiestelsels
Inligtingstelsels en Kommunikasie
Skool vir Meganiese Ingenieurswese Eenheid vir Energiestelsels Meganiese Energiestelsels
Materiale en Vervaardiging
Termo-vloei stelsels
Nagraadse Skool vir Kernwetenskap en -ingenieurswese
Eenheid vir Energiestelsels Kerningenieurswese
CRCED Pretoria Eenheid vir Energiestelsels Navorsing en Kommersialisering
CRCED Vaaldriehoek Eenheid vir Energiestelsels Ontwikkeling en Bestuur
*CRCED: Centre for Research and Continued Engineering Development
Die skole funksioneer hoofsaaklik op die Potchefstroomkampus, maar Kerningenieurswese se lesings word in Centurion aangebied.
Studente wat by CRCED Pretoria studieleiding ontvang, is gewoonlik opsie A studente (i.e. vol verhandeling opsie), aangesien daar nie lesings aangebied word nie.
Studente by CRCED Vaaldriehoek is hoofsaaklik studente wat vir die M.Ing. / PhD in Ontwikkeling en Bestuur ingeskryf is. Alle lesings word op die Vaaldriehoekkampus aangebied.
Bestuur:
• 'n Dekaan staan aan die hoof van die fakulteit.
• 'n Direkteur staan aan die hoof van elk van die skole binne die fakulteit. Skooldirekteure is verantwoordelik vir alle aspekte rakende voor- en nagraadse opleiding (d.w.s. kursusmodules).
• Nagraadse programleier/s word aangestel binne elke skool om na die nagraadse programinhoud om te sien.
• 'n Navorsingsdirekteur staan aan die hoof van die Navorsingsfokusarea. Die navorsingsdirekteur is verantwoordelik vir alle aspekte rondom navorsing.
• Akademiese personeel kan deel wees van die fokusarea as deelnemers, gedefinieër as personeel wat navorsingsuitsette lewer, en/of as nagraadse studieleiers.
• Studieleiers neem direk verantwoordelikheid vir die navorsingskomponent van hul eie nagraadse studente, binne spesifieke sub-programme.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Nagraadse programme
Meestersgrade: Toelatingsvereistes
M.Ing program
Die M.Ing graad is 'n graad wat volg op 'n vier-jarige ECSA-geakkrediteerde Baccalaureusgraad in Ingenieurswese.
M.Sc (Ingenieurswetenskappe) program:
Die M.Sc in Ingenieurswetenskappe volg op 'n B.Sc (Hons) graad of 'n vierjarige Baccalaureus in Ingenieurswese or 'n ander erkende kwalifikasie wat aan die student ekwivalente status verleen en wat goedgekeur is deur die Nagraadse Navorsingskwaliteitsversekeringskomitee.
In sommige gevalle en op diskresie van die fakulteitsbestuur, kan studente deur 'n proses van "Erkenning van Vorige Leer" toelating kry tot een van bogenoemde programme, waar daar nie aan die toelatingsvereistes voldoen word nie.
Samestelling van die program
Volledige inligting word vervat in die fakulteitsjaarboek. Die 3 x opsies vir M-studie kan as volg opgesom word:
OPSIE A OPSIE B OPSIE C
Beskrywing Kt'e Beskrywing Kt'e Beskrywing Kt'e
Verhandeling 172 Skripsie 92 Skripsie 44
Nav. metodiek 8 Nav. metodiek 8 Nav. metodiek 8
180 1 Kursusmodule 16 1 Kursusmodule 16
2 Kursusmodule 16 2 Kursusmodule 16
3 Kursusmodule 16 3 Kursusmodule 16
4 Kursusmodule 16 4 Kursusmodule 16
5 Kursusmodule 16 5 Kursusmodule 16
180 6 Kursusmodule 16
7 Kursusmodule 16
8 Kursusmodule 16
180
OPSOMMING: VERLOOP VAN STUDIE
WAT WIE WAAR WANNEER HOE
Identifiseer studieleier Student Dosente wat nagraadse studente inneem
Voor aansoek indien Prospektus
Gesprekke dosente
Aansoek om toelating Student Akademiese Admin (M&D Toelatings)
Voor einde November Vul vorm in, dien in by AKA met nodige dokumentasie
Aanvaarding as student Fakulteit nagraadse admin Fakulteit Soos aansoeke ontvang word
Goedkeuring skool- en NFA direkteure en admin bestuurder, + vorm geteken deur studieleier (almal behalwe Kerning. en Ontwikkeling & Bestuur)
Keuse van modules Student (opsie B of C) In samewerking met studieleier Voor registrasie Gesprek met studieleier
Betaalbare gelde Student self Dept. Finansiële Administrasie Voor registrasie Kassiere of elektroniese oorbetaling
Beursgewer betaal Dept. Finansiële Administrasie Voor registrasie Brief aan Finansiële Admin
Registrasiekontrole Student Fakulteit admin bestuurder Voor registrasie Student en admin bestuurder teken vorm
Registrasie Student of admin bestuurder
Akademiese Admin (M&D Rekords)
Met registrasie Vorm na AKA
Navorsingsmetodiek Student en studieleier Kontaksessie ± middel Februarie Student en studieleier werk saam aan navorsingsvoorstel
Kursusmodules (student opsie B/C)
Student in oorleg met studieleier
Skool vir EERI Eerste semester Soos deur elke dosent bepaal
Student in oorleg met studieleier
Skool vir MEGI
Blok-weke deur die loop van die jaar
Soos deur elke dosent bepaal
Student in oorleg met studieleier
Nagr. Skool Kerning. Blok-weke deur die loop van die jaar
Soos deur elke dosent bepaal
Student in oorleg met studieleier
Ontwikkeling en Bestuur (VDK) Aandklasse 1ste en 2de semester, Vaaldriehoek
Soos deur elke dosent bepaal
WAT WIE WAAR WANNEER HOE
Titelregistrasie Studieleier In fokusarea sub-programverband April/Mei (M-studente); September (D-studente)
Colloquiums waar navorsingsvoorstelle en titels voorgelê word vir "peer review" goedkeuring, op voorgeskrewe vorm ES_2a
Titelwysiging Studieleier Dagbestuur goedkeuring Wanneer nodig Student en studieleier voltooi vorm ES_2b en dien in by fakulteit admin bestuurder.
Navorsing/projek Studente in samewerking met studieleier
Soos deur projek bepaal Deurlopend Soos deur projek bepaal
Klassifikasie (bv. konfidensieel)
Student Akademiese Admin (M&D Rekords)
Wanneer nodig Op voorgeskrewe vorm van Akademiese Administrasie
Kennis ter indiening Student Fakulteit admin bestuurder ± 2 maande voor beplande indiening vir eksaminering
Op voorgeskrewe vorm ES_4
Aanwys van eksaminatore
Studieleier Dagbestuur goedkeuring Betyds sodat eksaminator kennis kry van aanstelling voor hy/sy eksamenkopieë ontvang
Studieleier voltooi vorm ES_3 en dien in by fakulteit admin bestuurder, saam met CV van eksterne eksaminator.
Indiening vir eksaminering
Student Akademiese Admin (M&D Rekords)
± middel Mei vir Sep. gradeplegtigheid
± einde Nov. vir Mei gradeplegtigheid
1 x kopie vir elke eksaminator en 1 x kopie vir die biblioteek, saam met verklarings deur student (ES_5) en studieleier (ES_6)
Eksaminering Eksaminatore Eksaminatore ± 6 weke tyd om te eksamineer
Volgens riglyne en gestelde uitkomste vir elke kurrikulum
Uitslag Eksamenkomitee Eksamenkomitee Voor graduandilyste ingedien moet word
Behandel uitslae (modules en verhandeling) en keur finale punt goed.
Finale wysigings en bind
Student By Akademiese Administrasie Voor gradeplegtigheid Bring finale wysigings aan indien nodig en laat bind 4 x kopieë vir biblioteek, en 1 vir elke eksaminator
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Buitelandse studente Studente met buitelandse (i.e. nie-RSA) kwalifikasies, moet 'n sertifikaat uitgereik deur SAKO (Suid-Afrikaanse Kwalifikasie Owerheid, wat buitelandse kwalifikasies evalueer en die Suid-Afrikaanse ekwivalent daarvan aandui) indien vir toelatingsdoeleindes. Dit is die student se verantwoordelikheid om by SAKO hiervoor aansoek te doen.
Suid-Afrikaanse Kwalifikasie Owerheid (SAKO)
Tel: (012) 346-9158
Faks: (012) 346-5814
Internet: www.saqa.org.za
LW: Aansoekgelde vir buitelandse studente verskil van studente met RSA-kwalifikasies s'n. Navrae: Akademiese Administrasie.
Klasgelde Klasgeldtydperke waarop die betaalbare gelde bereken word is:
Meestersgrade: 3 jaar Doktorsgrade: 4 jaar
Ph.D Eerste jaar van registrasie: Registrasiegeld + klasgeld Tweede , derde en vierde jaar van registrasie: Registrasiegeld Vyfde jaar-oorskrydings heffing: 35% van klasgeld + registrasiegeld Meestersgrade Eerste jaar van registrasie: 35% van klasgeld + registrasiegeld Tweede jaar van registrasie: 35% van klasgeld + registrasiegeld Derde jaar van registrasie: 30% van klasgeld + registrasiegeld Vierde jaar van registrasie: 35% van klasgeld + registrasiegeld
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Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
STAPPE: VAN AANSOEK TOT REGISTRASIE
1. Identifiseer projek/studieleier
STAP 1: IDENTIFISEER 'N STUDIELEIER/PROMOTOR EN NAVORSINGSONDERWERP
Bestudeer hierdie die Nagraadse Studieprospektus of gesels met 'n studieleier van jou keuse oor 'n moontlike onderwerp (sien kontakdetails in projeklys).
LW: Die onderwerpe in hierdie prospektus is hoofsaaklik gemik op navorsing in die fokusarea Eenheid vir Energiestelsels.
Vir deelname in die navorsingsfokusarea Skeidingswetenskap en -tegnologie (hoofsaaklik Chemiese Ingenieurswese), kontak
asb:
- Navorsingsdirekteur: Prof. Dolf Bruinsma by tel (018) 299-1669 of e-pos [email protected].
- Administratiewe beampte: Me. Yolande Bullock by tel (018) 299-1668 of e-pos [email protected].
STAP 2: DOKUMENTASIE Voltooi die vorm (ES_1) hierby ingesluit, kry die studieleier se handtekening en stuur aan die fakulteitsbestuurder: nagraadse administrasie:
Faks: +27 (18) 299-4450
E-pos: [email protected]
Lewer af: Kamer 223, Skool vir Elektriese, Elektroniese & Rekenaaringenieurswese, Noordwes-Universiteit (Potchefstroomkampus), Hoffmanstraat, Potchefstroom, 2531
Pos aan: Christel Eastes, Fakulteit Ingenieurswese (288), Noordwes-Universiteit (Potchefstroomkampus), Privaatsak X6001, Potchefstroom, 2520
2. Aansoek om toelating as nagraadse student
STAP 1: VOLTOOI NWU AANSOEKVORM
Voornemende studente moet aansoek doen om toelating tot die Universiteit via die Akademiese Administrasie afdeling (M&D Toelatings). Kontakpersoon/navrae: Mev. Marietjie Ackermann - tel. +27 (18) 299-4262 of e-pos [email protected].
1. Voltooi aansoekvorm
2. Betaal aansoekgelde (R150)
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
STAP 2: DIEN AANSOEK IN BY AKADEMIESE ADMINISTRASIE
Stuur die voltooide, oorspronklike aansoekvorm saam met alle relevante dokumentasie na:
Nagraadse Toelatingskantoor (460) Noordwes-Universiteit Privatsak X6001 POTCHEFSTROOM 2520
Aansoeke om toelating gedurende 'n spesifieke jaar, sluit aan die einde van November van die voorafgaande jaar.
STAP 3: GOEDKEURING DEUR DIE NFA EN FAKULTEITSADMINISTRASIE
• Akademiese Administrasie verwerk die aansoek.
• Aansoek word na fakulteit/fokusarea gestuur vir goedkeuring.
NB: Indien 'n studieleier/promotor nie geïdentifiseer is nie, sal die aansoek nie geteken word nie (uitsondering toegelaat vir Kerningenieurswese en Ontwikkeling en Bestuur studente).
STAP 4: AANSOEK GOEDGEKEUR / AFGEKEUR
• Fakulteit stuur aansoeke terug na Akademiese Administrasie.
• Akademiese Administrasie stuur brief aan student met uitslag van aansoek.
Indien jou aansoek aanvaar is, is jy dus nou TOEGELAAT tot nagraadse studie.
NB!! Dit beteken NIE dat jy nou geregistreer is nie!
3. Betaalbare gelde Alle finansiële navrae moet gerig word aan (dit sluit ook kwotasies in): Mev R (Ronell) van der Walt Finansiële Administrasie Noordwes-Universiteit Privaatsak X6001 2520 POTCHEFSTROOM Tel: (018) 299-2668/9 Faks: (018) 299-2707 E-pos: [email protected] Bankbesonderhede: Naam van rekeninghouer: Noordwes-Universiteit Bank: ABSA Rekeningnommer: 670 162 168 Takkode: 632 005 (Tomstraat, Potchefstroom) Verwysingsnommer: Student se universiteitsnommer
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
BEURSE:
Universiteitsbeurse (Nagraadse Beursskema): Slegs vir voltyds geregistreerde studente. Akademiese merietebeurse ook beskikbaar. Kontakpersoon: Mev. Elize van Vreden Beurse en Lenings Departement Tel: (018) 299-2188 Werkgewer of projek-borg betaal: Brief van werkgewer of beursgewer moet ingedien word, wat spesifiseer WAT betaal word, bv. - Aansoekgelde - Registrasiegeld - Klasgeld, ens. NB: Indien beurs aan STUDENT uitbetaal word (i.e. nie direk deur beursgewer aan universiteit), is student SELF verantwoordelik vir betaalbare gelde.
4. Registrasie
STAP 1: REGISTRASIEVORM
Akademiese Administrasie pos registrasievorms en riglyne vir registrasie aan studente teen einde November. Indien jy dit nie ontvang nie, kontak asb. die fakulteitsbestuurder: nagraadse administrasie (fakulteit) of die beampte by Akademiese Administrasie.
STAP 2: KONTROLE
NB: VOOR JY KAN REGISTREER: • Student moet die registrasievorm teken. • Die Fakulteitsbestuurder: Nagraadse Administrasie (fakulteit Ingenieurswese) moet die vorm
kontroleer en teken. • Betaalbare gelde vir die jaar (of minimum gelde vir PhD's) moet betaal wees.
Indien jy vir 'n opsie B of C kurrikulum gaan inskryf, moet die modules in oorleg met die studieleier gekies word.
STAP 3: REGISTREER
Kampusstudente moet asb. by die fakulteitsbestuurder: nagraadse administrasie aanmeld. Nadat die vorm geteken is, kan die student dit na Akademiese Administrasie neem óf die fakulteitsbestuurder kan dit na Akademiese Administrasie stuur.
Indien jy nie op kampus is nie:
Jy kan die registrasievorm (en bewys van betaling, indien nodig) faks. Die fakulteitsbestuurder: nagraadse administrasie sal dan die registrasie namens jou afhandel MITS die betaalbare gelde in orde is.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
WANNEER MOET EK REGISTREER?
Registrasie vind gewoonlik vanaf Februarie plaas. Nuweling nagraadse studente word toegelaat om te registreer tot einde Junie MAAR geen student mag lesings bywoon as hy/sy nie geregistreer is nie. Dit is dus beter om so vroeg as moontlik te registreer.
NB: Nagraadse studente moet elke jaar weer registreer (teen einde Maart van die betrokke jaar).
5. Navorsingsmetodiek (alle opsies)
Navorsingsmetodiek is 'n verpligte module vir alle M-studente.
Vanaf 2007 is daar een kontakgeleentheid aan die begin van die jaar, en daarna werk die student saam met sy/haar studieleier om uiteindelik 'n navorsingsvoorstel gereed te kry.
6. Klasroosters/modules (opsies B en C)
Modules word voor registrasie met die studieleier en/of nagraadse programbestuurder uitgeklaar. Die modules word deur die onderskeie SKOLE bestuur, terwyl die navorsing deur die onderskeie NAVORSINGSFOKUSAREAS bestuur word. Klasroosters is by die onderskeie skoolsekretaresses beskikbaar.
Akademiese Nagraadse Programbestuurders:
Studierigting Naam Telefoon E-pos
Chemies Prof. Hein Neomagus (018) 299-1991 [email protected]
Rekenaar/Elektronies Prof. Charles Bodenstein (018) 299-1964 [email protected]
Elektries/Elektronies Prof. Jan de Kock (018) 299-1970 [email protected]
Meganies Dr. Barend Botha (018) 299-1319 [email protected]
Kerningenieurswese Prof. Gideon Greyvenstein (018) 299-4363 [email protected]
Ontwikkeling en Bestuur Prof. Piet Stoker (016) 981-3951 [email protected]
Studente registreer elke jaar vir die skripsie/verhandelingsmodule, en ook vir alle ander modules waarin eksamen afgelê word.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Opsomming van nagraadse kwalifikasiekodes en kurrikulumkodes
KURRIKULUM M.ING
PROGRAM KWAL. KODE Opsie A Opsie B Opsie C
Chemies 702104 I871P I872P I873P
Elektries 702105 I874P
Elektronies 702106 I877P
Rekenaar 702112 I871P
Elektries en Elektronies 702108 I884P I885P
Rekenaar en Elektronies 702109 I887P I888P
Meganies 702107 I880P I881P I882P
Ontwikkeling en Bestuur 702111 I891P I892P I893P
Kerningenieurswese 702110 I801P I802P
KURRIKULUM M.SC (Ingenieurswetenskappe)
PROGRAM KWAL. KODE Opsie A Opsie B Opsie C
Chemies 203153 I890P I891P I892P
Elektries en Elektronies 203155 I894P I895P
Rekenaar en Elektronies 203154 I897P I898P
Meganies 203152 I887P I888P I889P
Kernwetenskap 203150 I801P I802P
PH.D PROGRAM KWAL.
KODE KURRIKULUM
Chemies 703104 I901P
Elektries 703105 I902P
Elektronies 703106 I903P
Rekenaar 703113 I906P
Meganies 703107 I904P
Ontwikkeling en Bestuur 703111 I908P
Ingenieurswetenskappe 703110 I907P
Kern 703112 I909P
Die inligting hierbo is onderworpe aan verandering. Raadpleeg in alle gevalle die fakulteitsjaarboek.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Algemene Kontakbesonderhede: Fakulteit Ingenieurswese (Nagraads) ALGEMENE NAVRAE: Nagraadse Admin Bestuurder: Mev. Christel Eastes Tel. +27 (18) 299-4020 Faks: +27 (18) 299-4450 E-pos: [email protected] NWU Akademiese Administrasie (Nagraads) Toelatings: Mev. Marietjie Ackermann - tel. +27 (18) 299- 4262 of e-pos [email protected] Rekords: Mev. Edwina Fransman - tel. +27 (18) 299-2626 of e-pos [email protected] Navorsingsfokusarea Eenheid vir Energiestelsels Direkteur: Prof. George van Schoor - tel. +27 (18) 299-1962 of e-pos [email protected] Administratiewe navrae: Mev. Christel Eastes - tel. +27 (18) 299-4020 of e-pos [email protected] Skool vir Elektriese, Elektroniese en Rekenaaringenieurswese Direkteur (waarnemend): Prof. Jan de Kock - tel. +27 (18) 299-1970 of e-pos [email protected] Sekretaresse: Mev. Louise Cilliers - tel. +27 (18) 299-1978 of e-pos [email protected] Skool vir Meganiese Ingenieurswese Direkteur: Prof. Jat du Toit - tel. +27 (18) 299-1322 of e-pos [email protected] Sekretaresse: Mev. Jorina le Roux - tel. +27 (18) 299-1316 of e-pos [email protected] Skool vir Chemiese en Mineraalingenieurswese Direkteur: Prof. Frans Waanders - tel. +27 (18) 299-1994 of e-pos [email protected] Sekretaresse: Me. Sanet van Deventer - tel. +27 (18) 299-1656 of e-pos [email protected]
Skeidingswetenskap en Tegnologie: Prof. Dolf Bruinsma - tel. +27 (18) 299-1669 of e-pos [email protected] Nagraadse Skool vir Kernwetenskap en -ingenieurswese Direkteur (waarnemend): Prof. Gideon Greyvenstein - tel. +27 (18) 299-4060 of e-pos [email protected] Administratiewe ondersteuning: Me. Elmari Bester - tel. +27 (18) 299-4363 of e-pos [email protected] CRCED (Vaal) Akademiese Programbestuurder: Prof. Piet Stoker - tel. +27 (16) 981-3956 of e-pos [email protected] Administratiewe Assistent: Mev. Sandra Stoker - tel. +27 (16) 981-3956 of e-pos [email protected] CRCED (Pretoria) Direkteur: Prof. Eddie Mathews - tel. +27 (12) 991-5568 of e-pos [email protected] Assistent: Me. Annatjie Joubert - tel. +27 (12) 991-5568 of e-pos [email protected]
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Navorsingsprojekte 2007 / Research projects for 2006 This section lists the postgraduate research projects identified for 2006 by members of the faculty who will act as study leaders. For each of these projects the envisaged source of funding for student support is also indicated, were applicable.
PLEASE NOTE THAT PROJECTS ARE NOT LIMITED TO THESE LISTED BELOW. You are welcome to discuss a possible research topic with any of the supervisors in order to
pursue research as part of your Masters or PhD studies.
Hierdie afdeling lys die nagraadse navorsingsprojekte soos geïdentifiseer vir 2006, deur lede van die fakulteit wat as studieleiers sal optree. Vir elkeen van hierdie projekte word 'n bron van inkomste/beurs, waar van toepassing, aangedui.
LET ASB. DAAROP DAT PROJEKTE NIE BEPERK IS TOT DIE LYS NIE U is welkom om 'n moontlike navorsingsonderwerp met enige van die studieleiers te bespreek,
ten einde navorsing as deel van u Meesters- of PhD-studie daaroor te doen.
DM Development and Management ES Electrical Energy Systems IC Information Systems & Communication MF Materials & Manufacturing MS Mechanical Energy Systems TS/TM Mechanical Energy Systems (Thermal-Fluid Systems) RC Research & Commercialization Nx Nuclear Engineering
Verw/Ref
Titel/Onderwerp Studieleier/s
DM001 Developing an appropriate Production and Business Management Process for the Instrumentmaking division of NWU Potchefstroom Campus
Prof. JIJ Fick Prof. LJ Grobler
ES001 Die ontwerp van 'n lae-spoed, hoë-draaimoment permanente-magneet sinkrone masjien (PMSM) met aandrywing
Prof. S.R. Holm AS Jonker
ES002 Die ontwerp van 'n hoë-spoed permanente-magneet sinkrone generator
Prof. S.R. Holm Dr. B.W. Botha
ES003 A co-generation investigation for a new power plant Prof. JA de Kock
IC001 UHF RFID reader front-end optimisation Prof. Johann Holm
IC002 UHF RFID base-band filter design Prof. Johann Holm
IC003 DSP based receiver for UHF RFID reader Prof. Willie Venter
IC004 DSP based receiver for HF RFID reader Prof. Willie Venter
IC005 Design, simulation and characterisation of application specific far field UHF RFID readers
Prof. Alwyn Hoffman
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Verw/Ref
Titel/Onderwerp Studieleier/s
IC006 Design, simulation and characterisation of application specific near field UHF RFID readers
Prof. Alwyn Hoffman
IC007 Development of elliptic curve based encryption algorithm for RFID data
Prof. Albert Helberg
IC008 Design, simulation and characterisation of application specific lo frequency / high frequency RFID readers
Prof. Alwyn Hoffman
IC009 High speed implementation of elliptic curve cryptography for RFID Prof. Albert Helberg
IC010 Development of a supply chain simulator for RFID applications Prof. Charles Bodenstein
IC011 Development of a traffic system simulator for RFID applications Prof. Charles Bodenstein
IC012 Development of an artificial intelligence based system that use Intelligent Agents for monitoring RFID data
Prof. Charles Bodenstein
IC013 Development of an artificial intelligence based system that use Intelligent Agents for monitoring RFID readers
Prof. Alwyn Hoffman
MF001 Optimisation of product development cycle for injection moulding Prof LJ Grobler Prof. Schalk Vorster
MF002 Commercialisation of a sinus pump Prof LJ Grobler Prof. Schalk Vorster
MS001 Measurement and Verification of DSM projects Prof. LJ Grobler
MS002 Design of a micro gas turbine for power generation Dr. BW Botha
MS004 Design of a helium blower Dr. BW Botha
MS003 Design of a combustion chamber for a micro gas turbine Dr. BW Botha Prof CG du Toit
MS005 Evaluating the impact of CO2 on heat pump performance M van Eldik Prof PG Rousseau
MS006 Investigation into the friction factors and Nusselt numbers for laminar flow in ducts
Prof CG du Toit
MS007 Evaluation of the impact of evaporator circuiting on heat pump performance
Prof PG Rousseau M van Eldik
MS008 Investigation of pressure drop and velocity profile characteristics for gas flow through cylindrical and annular packed pebble beds
Prof CG du Toit Prof PG Rousseau
MS009 Investigation of ‘braiding effect’ characteristics for gas flow through cylindrical and annular packed pebble beds
Prof PG Rousseau Prof CG du Toit
TM001 Modeling of Stirling engines with Flownex Prof GP Greyvenstein TM002 Advanced HX modeling in Flownex (Integrate with ESDU / HX design
programme) Prof GP Greyvenstein
TM003 Modeling of DX coils and air-cooled condensers in Flownex Prof GP Greyvenstein TM004 Modeling of refrigeration cycles with Flownex Prof GP Greyvenstein TM005 Modeling of air conditioning systems in Flownex Prof GP Greyvenstein
TM006 Genetic optimization of thermal-fluid networks in Flownex Prof GP Greyvenstein
TM007 Progressive systems CFD analysis of a standard air refrigeration cycle Prof CG du Toit TS001 Development of a 1 kW Stirling solar power generator Prof GP Greyvenstein
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Verw/Ref
Titel/Onderwerp Studieleier/s
TS002 Development of solar power generator based on an Organic Rankine Cycle (ORC)
Dr BW Botha
TS003 Thermo-well refrigeration and power generation Prof GP Greyvenstein TS004 Development of CO2 heat pump Mr Martin van Eldik TS005 Development of heat pump for domestic water heating Mr Martin van Eldik
TS006 Development of a heat pump low pressure hot water system Mr Martin van Eldik
TS007 Heat Pump electronic control and measurement Mr Martin van Eldik
RC001 Simulation of the Human Energy System Prof EH Mathews
RC002 Using cell phone technology for Biotech products Prof EH Mathews
RC003 Simulation of industrial processes Prof M Kleingeld
NUCLEAR ENGINEERING
A: MAGNETIC BEARINGS AND CONTROL Prof G van Schoor NC001 Combined low loss permanent magnet biased active magnetic bearing Prof G van Schoor
Mr EO Ranft NC002 The Design of Catcher Bearings for AMB Supported Rotors Mnr. JG Roberts
Prof. G van Schoor NC003 Determination of the Windage Losses of the flywheel UPS Rotor Mnr. JG Roberts
Prof. G van Schoor NC004 Permanent magnet synchronous motor drive and controller Prof G van Schoor
Mr EO Ranft NC006 Electrical design of flywheel energy storage system Prof G van Schoor
Mr EO Ranft NC007 Mechanical design of flywheel energy storage system Mnr. JG Roberts
Prof. G van Schoor NC008 Comprehensive AMB model taking rotor dynamic effects into account Prof G van Schoor
Mr EO Ranft NC009 State-space modelling of thermo-hydraulic systems based on Bond
graphs Prof G van Schoor Mr KR Uren
NC010 Model predictive control of a Brayton cycle based power conversion unit Prof G van Schoor Mr KR Uren
NC011 Investigation into the dynamic behavior of the Reactor Cavity Cooling System of the PBMR
Prof GP Greyvenstein
B: HTR MATERIALS Prof J Markgraaff NM001 Static failure theories applicable to reactor graphite for PBMR Mr JG Roberts C: THERMAL FLUID SYSTEMS MODELLING (MODEL
DEVELOPMENT, V&V, BENCHMARKING) Prof GP Greyvenstein
NL001 A comparison of Flownex, EPANET, XNet and other codes for the analysis of water pipe networks.
Prof CG du Toit Prof GP Greyvenstein
NL002 Explicit time-wise integration algorithms for the solution of the transient thermal-fluid conservation equations
Prof CG du Toit Prof GP Greyvenstein
NL003 Development of computer model for the prediction of homogeneous two-phase flows in pipe networks based on the fully-implicit back-substituted method (FIBS).
Prof GP Greyvenstein
NL004 Development of a drift flux model for two-phase flows in pipe networks Prof GP Greyvenstein NL005 Modeling of the PBMR Reactor Cavity Cooling System (RCCS) with
Relap Prof GP Greyvenstein
NL006 Modeling of compressor performance using Flownex Prof GP Greyvenstein
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
NL007 Strategy for interfacing Flownex with a CFD code Prof GP Greyvenstein Prof CG du Toit
NL008 Comparison of different matrix solution techniques for Flownex Prof GP Greyvenstein D: TEST FACILITIES Prof PG Rousseau NF001 Characterization of micro gas turbine test facility using Flownex Dr BW Botha NF002 Pressure drop in annular packed beds with reference to the Pebble Bed
Modular Reactor Prof CG du Toit Prof PG Rousseau
NF003 Evaluation of the enhanced fluid conductivity for gas flow through packed pebble beds
Prof PG Rousseau
NF004 Evaluation of the effective conductivity through a packed pebble bed due to radiation and point contact conduction
Prof PG Rousseau
E: THERMAL FLUID SYSTEMS DESIGN Prof GP Greyvenstein ND001 Design of a Model of a Combined Cycle Power Plant for the PBMR Prof GP Greyvenstein ND002 Techno-economical study into the feasibility of a 50 MW PBMR power
plant for remote communities Prof GP Greyvenstein
ND003 Design of a Combined Cycle (CC) power conversion unit (PCU) for the PBMR
Prof GP Greyvenstein
F: REACTOR ANALYSIS AND DESIGN Prof E Mulder NR001 Evaluation of MicroShield Build Up Factors and their limits of
applicability. Sergio Korochinsky, with Gert de Beer as advisor
NR002 Development of a coupled 3D neutronics / thermo-hydraulic model for the PBMR
Prof GP Greyvenstein
NR003 Design of a 100 MWt Pebble Bed reactor Prof GP Greyvenstein NR004 Development of a modified Point Kinetics model to analyze major
transients in the Pebble Bed Reactor Prof Osman Kadiroglu
NR005 3D Modeling of block fuel reactors with Flownex Prof GP Greyvenstein G: PROCESS HEAT APPLICATIONS NH001 Design of a bench top system of the Hybrid Sulphur process for
hydrogen production Prof GP Greyvenstein
NH002 Conceptual design of an intermediate heat exchanger for a PBMR process heat plant
Prof GP Greyvenstein Prof J Markgraaff
NH003 Modeling of chemical reactions in Flownex Prof GP Greyvenstein NH004 Modeling of a SMR system in Flownex Prof GP Greyvenstein NH005 Modeling of a fuel cell system in Flownex Dr BW Botha
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
ONTWIKKELING EN -BESTUUR / DEVELOPMENT AND MANAGEMENT
Project Title/ Projektitel Developing an appropriate Production and Business Management Process for the Instrumentmaking division of NWU Potchefstroom Campus
Reference / Verwysing DM001
Supervisor / Studieleier Prof. JIJ Fick & prof. LJ Grobler
E-mail / E-pos [email protected] / [email protected]
Description/ Beskrywing Die instrumentmakery op die Potchefstroom kampus lewer 'n baie hoë vlak van ambagswerk in die ontwerp, vervaardiging en instanshouding van 'n wye verskeidenheid van navorsings-en-onderrig toerusting. Geskikte mannekrag is baie skaars en relatief duur, en dit is noodsaaklik dat hulle tyd effektief aangewend word en nie verkwis word op administratiewe rompslomp nie. Hierdie studie beoog om geleenthede vir die verbetering in effektiwiteit deur die toepassing van toepaslike tegnologië te ondersoek en te implementeer.
Funding / Befondsing Ja
Level / Vlak Meestersgraad of PhD
Other / Ander Kwalifikasie: M.Ing. in Ontwikkeling en Bestuur
Elektriese Energiestelsels / Electrical Energy Systems
.
Project Title/ Projektitel Die ontwerp van 'n lae-spoed, hoë-draaimoment permanente-magneet sinkrone masjien (PMSM) met aandrywing
Reference / Verwysing ES001
Supervisor / Studieleier Prof. S.R. Holm (studieleier); Mr. AS Jonker (mede-studieleier)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing Hierdie projek handel oor die elektromagnetiese ontwerp van 'n lae-spoed, hoë-draaimoment PMSM met 'n aandrywingstelsel. Die tipiese toepassings van so 'n masjien indien hy as motor gebruik word is in traksie (swaar voertuie wat stadig beweeg, bv. industriële en mynbou voertuie wat swaar materiaal moet skuif, groot skepe, ens.) Vir toepassing as generator kan so 'n masjien gebruik word as direkte-aandrywing windgenerator (d.i. sonder die ratkas wat by konvensionele hoë-spoed masjiene benodig word). Die uitdaging in so 'n ontwerp is die haal van 'n hoë koppeldighteid [Nm/m3] en spesifieke koppel [Nm/kg]. Die fokus van die projek is op die masjienontwerp, maar 'n werkende aandrywingstelsel sal benodig word om die masjien te toets, en vorm dus deel van die projek. (Die aandrywingstelsel kan in samewerking met ander lede van die navorsingsgroep ontwikkel en gebou word, of selfs deur 'n buite-kontrakteur gedoen word.) 'n Skaalmodel van 'n masjien en aandrywing sal afgelewer word na afloop van die studie.
Funding / Befondsing Ja
Level / Vlak Meestersgraad
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Die ontwerp van 'n hoë-spoed permanente-magneet sinkrone generator
Reference / Verwysing ES002
Supervisor / Studieleier Prof. S.R. Holm (studieleier); Dr. B.W. Botha (mede-studieleier)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing Hierdie projek behels die ontwerp van 'n hoë-spoed permanente-magneet sinkrone generator. Toepassings is tipies in hoë spoed vliegwiele, hoë spoed turbo-masjiene of hoë spoed waaiertoepassings. Die uitdagings van die ontwerp sluit in om die verliese so laag moontlik te hou en 'n hoë drywingsdigtheid [W/m3] te behaal. Die masjien word gebou en getoets aan die einde van die projek. Die masjien word belas deur 'n gelykrigterbrug, en die interaksie hiermee moet ook ondersoek word.
Funding / Befondsing Ja
Level / Vlak Meestersgraad
Project Title/ Projektitel A co-generation investigation for a new power plant
Reference / Verwysing ES003
Supervisor / Studieleier Prof. JA de Kock
E-mail / E-pos [email protected]
Description/ Beskrywing A new co-generation power plant is being designed for an existing industrial plant. The investigation requires the evaluation of different design topologies and power system configurations to be investigated. The power quality of the utility is below average and means must be found to sucessfully integrate the new generator into the existing system. The network configuration and transient stabilty of the system needs to be investigated to determine the optimal design.
Funding / Befondsing Yes
Level / Vlak Masters'
Inligtingstelsels en Kommunikasie / Information Systems and Communication
Project Title/ Projektitel UHF RFID reader front-end optimisation
Reference / Verwysing IC001
Supervisor / Studieleier Prof. Johann Holm
E-mail / E-pos [email protected]
Description/ Beskrywing The evaluation and optimisation of RF front-ends for UHF RFID readers with the aim of improving the robustness of such readers in the presence of co-located readers in the same frequency band. The project will involve the detailed characterisation of an existing analogue transmitter and receiver operating in the UHF band, and the improvement of the ability of this design to reject the impact of unwanted signals received from other RFID readers.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel UHF RFID base-band filter design
Reference / Verwysing IC002
Supervisor / Studieleier Prof. Johann Holm
E-mail / E-pos [email protected]
Description/ Beskrywing Development of a base-band filter, using a combination of analogue and digital techniques, that is optimised to provide separation between the signals received by a UHF RFID readers from tags, and signals received from other readers that are communicating with tags within the same and adjacent frequency channels.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel DSP based receiver for UHF RFID reader
Reference / Verwysing IC003
Supervisor / Studieleier Prof. Willie Venter
E-mail / E-pos [email protected]
Description/ Beskrywing Development of a DSP based receiver for a UHF RFID reader that will optimise read range for battery-assisted tags that communicate with the reader using passive backscattering, and the investigation of the robustness of different tag modulation schemes in the presence of ambient noise
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel DSP based receiver for HF RFID reader
Reference / Verwysing IC004
Supervisor / Studieleier Prof. Willie Venter
E-mail / E-pos [email protected]
Description/ Beskrywing Development of a DSP based receiver for an RFID reader using LF for energising tags and HF for tag communication, optimised for reliable operation in the presence of the following types of noise: - Spike noise; - White noise; - A combination of both
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Design, simulation and characterisation of application specific far field UHF RFID readers
Reference / Verwysing IC005
Supervisor / Studieleier Prof. Alwyn Hoffman
E-mail / E-pos [email protected]
Description/ Beskrywing The design, simulation and characterisation of a UHF RFID reader and tag combination, using existing reader and tag designs, that is optimised for one of the following practical applications: − 4 lane vehicle access control with lane differentiation using not more than
2 W EIRP reader power, with all readers operating in the same band. − 4 lane electronic tolling with lane differentiation using not more than 2 W
EIRP reader power. − 4 lane container monitoring, with tags on both the container and the
container locking mechanism, with lane differentiation using not more than 2 W EIRP reader power.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel Design, simulation and characterisation of application specific near field UHF RFID readers
Reference / Verwysing IC006
Supervisor / Studieleier Prof. Alwyn Hoffman
E-mail / E-pos [email protected]
Description/ Beskrywing The design, simulation and characterisation of a near field based UHF RFID portal reader and tag combination that is optimised for one of the following practical applications: − 100 tagged DVDs that are packed in DVD cases and stacked in a carton box. − 50 tagged shirts that are stacked in a carton box. − 100 carton folders containing documents, with thicknesses varying
between 2mm and 10 mm, stacked in a carton box.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel Development of elliptic curve based encryption algorithm for RFID data
Reference / Verwysing IC007
Supervisor / Studieleier Prof. Albert Helberg
E-mail / E-pos [email protected]
Description/ Beskrywing The development of an asymmetric encryption algorithm based on elliptic curve cryptography (ECC) for securing data written onto RFID tags, with key length not more than 192 bits, and the investigation of key distribution techniques that will ensure privacy of such data.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Design, simulation and characterisation of application specific lo frequency / high frequency RFID readers
Reference / Verwysing IC008
Supervisor / Studieleier Prof. Alwyn Hoffman
E-mail / E-pos [email protected]
Description/ Beskrywing The design, simulation and characterisation of a dual frequency (i.e. combined LF and HF) RFID portal reader and tag combination that is optimised for one of the following practical applications: − Up to 30 tagged people moving through a 2 m wide doorway carrying up to
4 tagged items, e.g. instrument or laptops. − Up to 100 tagged crates stacked on pallets in 3D configurations,
containing food or beverages and moving through a 3 m wide doorway. − Up to 100 carton folders containing documents, with thicknesses varying
between 2mm and 10 mm, stacked in a carton box.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel High speed implementation of elliptic curve cryptography for RFID
Reference / Verwysing IC009
Supervisor / Studieleier Prof. Albert Helberg
E-mail / E-pos [email protected]
Description/ Beskrywing The implementation of an elliptic curve cryptography (ECC) based algorithm on an FPGA (field programmable gate array) to allow the very fast encryption and decryption of RFID data, in order to match the decryption speed with the speed at which RFID tags can be identified by an RFID reader (up to 200 tags per second).
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel Development of a supply chain simulator for RFID applications
Reference / Verwysing IC010
Supervisor / Studieleier Prof. Charles Bodenstein
E-mail / E-pos [email protected]
Description/ Beskrywing The development of a simulator for a large RFID system deployed as part of logistics operations, describing the way in which RFID data will be generated when tagged items are identified at different points of monitoring along a value chain, e.g. within a factory, when shipped to a distribution centre, when received at a retail store and during stock control inside a warehouse or retail store. This simulator will be used to model scenarios where illegal activities are occurring within supply chains, to demonstrate how RFID based monitoring of goods can help identify such activities.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Development of a traffic system simulator for RFID applications
Reference / Verwysing IC011
Supervisor / Studieleier Prof. Charles Bodenstein
E-mail / E-pos [email protected]
Description/ Beskrywing The development of a simulator for a large RFID system deployed as part of traffic control systems, describing the way in which RFID data will be generated when tagged vehicles are identified at different points of monitoring within a large traffic system, e.g. at depots where trucks are dispatched, along a route serviced by a delivery vehicle, and at border posts. This simulator will be used to model scenarios within which vehicles are being used as part of illegal activities, to demonstrate how RFID based traffic monitoring can help identify such activities
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel Development of an artificial intelligence based system that use Intelligent Agents for monitoring RFID data
Reference / Verwysing IC012
Supervisor / Studieleier Prof. Charles Bodenstein
E-mail / E-pos [email protected]
Description/ Beskrywing The development of an artificial intelligent based system, using the concept of Intelligent Agents, to detect suspicious trends and patterns in RFID data captured within either large supply chains or within large traffic systems. This AI system will be used for the early detection of suspected illegal activities within such systems. The techniques will initially be trained on simulated data, and this will eventually be replaced by data captured within practical systems
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Development of an artificial intelligence based system that use Intelligent Agents for monitoring RFID readers
Reference / Verwysing IC013
Supervisor / Studieleier Prof. Alwyn Hoffman
E-mail / E-pos [email protected]
Description/ Beskrywing The development of an artificial intelligent based system, using the concept of Intelligent Agents, to implement automated diagnostics for RFID readers. This AI system will be used for the early detection of problems occurring in RFID reader-tag setups, providing and automated indication that a reader is not working normally, and identifying the most likely reason for the detected problem. The techniques will initially be trained on simulated data, and this will eventually be replaced by data captured within practical systems.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Materiale en Vervaardiging / Materials and Manufacturing
Project Title/ Projektitel Optimisation of product development cycle for injection moulding
Reference / Verwysing MF001
Supervisor / Studieleier Prof LJ Grobler (studieleier); prof. Schalk Vorster (mede-studieleier)
E-mail / E-pos [email protected]
Description/ Beskrywing The student will need to develop and optimise the process develop new products for injection moulding. The study will consist of the following: literature survey, simulation of product flows through moulds, design of moulds for new products, coordination of mould manufacturing, testing and improvement of mould design, conclusion and recommendations on future research.
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Commercialisation of a sinus pump
Reference / Verwysing MF002
Supervisor / Studieleier Prof LJ Grobler (studieleier); prof. Schalk Vorster (mede-studieleier)
E-mail / E-pos [email protected]
Description/ Beskrywing The student will be involved in the optimisation and commercialisation of a positive displacement sinus pump. The study will consist of the following: literature survey, design and improvement of sinus pump, material selection, testing and evaluation of pump, costing, commercialisation, conclusions and recommendations.
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Meganiese Energiestelsels / Mechanical Energy Systems
Project Title/ Projektitel Measurement and Verification of DSM projects
Reference / Verwysing MS001
Supervisor / Studieleier Prof. LJ Grobler
E-mail / E-pos [email protected]
Description/ Beskrywing The student will be responsible for the development of new methodologies and procedures to measure and verify the impact of demand side management projects. The study will consist of the following: literature survey, baseline development, development of baseline modelling and simulation, model verification, experimental metering, performance assessment, performance tracking.
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Design of a micro gas turbine for power generation
Reference / Verwysing MS002
Supervisor / Studieleier Dr. BW Botha
E-mail / E-pos mgibwb@ puk.ac.za
Description/ Beskrywing The concept of decentralized power generation has created an opportunity for developing micro gas turbines capable of supplying sufficient energy for the use of its owner. Additional capacity can then be supplied to the national grid during peak times. Similar systems have been developed in the USA generating around 30 kW of power using a high speed generator. The study will include the detail design of the turbo-machine unit incorpo-rating a suitable combustion chamber and recuperator. The combustion chamber design and recuperator will be performed by other people.
Funding / Befondsing Please contact supervisor
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Design of a combustion chamber for a micro gas turbine
Reference / Verwysing MS003
Supervisor / Studieleier Dr. BW Botha / Prof CG du Toit
E-mail / E-pos mgibwb@ puk.ac.za
Description/ Beskrywing The concept of decentralized power generation has created an opportunity for developing micro gas turbines capable of supplying sufficient energy for the use of its owner. Additional capacity can then be supplied to the national grid during peak times. Similar systems have been developed in the USA generating around 30 kW of power using a high speed generator. The study will investigate the suitability of a micro gasturbine combustion chamber to operate on bio-fuels. It will include a study into the required changes from a traditional combustion chamber. Hereafter the study will do a detail design of such a chamber using CFD analysis.
Funding / Befondsing Please contact supervisor
Level / Vlak Masters'
Project Title/ Projektitel Design of a helium blower
Reference / Verwysing MS004
Supervisor / Studieleier Dr. BW Botha
E-mail / E-pos [email protected]
Description/ Beskrywing The availability of the Concepts software puts the North-West University in the ideal situation to develop the expertise to design centrifugal compressors and/or blowers. With the development of other commercial projects we also have the opportunity to investigate blower designs and compare the results with that obtained in practise. The study will include the detail design of a suitable impeller and diffuser for a helium blower according to required specifications
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Evaluating the impact of CO2 on heat pump performance.
Reference / Verwysing MS005
Supervisor / Studieleier M van Eldik and Prof PG Rousseau
E-mail / E-pos [email protected]
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Description/ Beskrywing Due to the international phase-out of refrigerants classified as harmful to the environment, research has focused on finding alternative refrigerants. One of the alternatives identified is CO2 which is a by-product of chemical processes. The major advantage of using CO2 compared to existing refrigerants applied in water heating heat pumps is that higher outlet water temperatures can be obtained. High water temperatures, in the region of 90°C, have ample industrial process applications. This combined with the high efficiency of a heat pump will supply the industry with an energy efficient solution. The purpose of this study will be to investigate the impact of CO2 as working fluid on the overall heat pump performance. This project will require of the candidate at Masters degree level to:
• Conduct a detailed investigation into the current state of CO2 technology focusing on heat pump applications.
• Set up simulation models for each individual component in the heat pump cycle using Engineering Equation Solver (EES).
• Integrate the individual models into a CO2 heat pump system model.
• Validate the simulation models through comparison with empirical data found in the literature.
• Apply the simulation model to investigate and evaluate the overall heat pump performance.
• Encapsulate the results in a manner that can be useful to heat pump designers.
Funding / Befondsing Yes
Level / Vlak Masters'
Other / Ander This project can accommodate one student at Masters' degree level.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Investigation into the friction factors and Nusselt numbers for laminar flow in ducts
Reference / Verwysing MS006
Supervisor / Studieleier Prof CG du Toit
E-mail / E-pos [email protected]
Description/ Beskrywing The determination of the wall shear stress and the heat flux at the wall of a duct is of utmost importance in the analysis and design of, for example heat exchangers, which play a significant role in numerous applications. The friction coefficients and the heat transfer coefficients needed in the design and analysis process to calculate the wall shear stress (and subsequently the pressure drop) and the heat flux, are normally obtained from the friction factors and Nusselt numbers respectively for the various duct sections which may be encountered in practice. This project will require of the candidate at Masters degree level to:
• Collect and study the relevant literature on the subject. • Familiarize himself / herself with the various analytical solutions
that have been developed for a number of cases. • Make use of existing finite element codes to model the above
mentioned cases numerically. Where necessary the codes must be adapted.
• Employ the finite element codes to determine the friction factors and Nusselt numbers for a selection of cases where no analytical solutions are available.
• Where possible the methodology and results must be compare with other numerical solutions.
Funding / Befondsing Yes
Level / Vlak Masters'
Other / Ander This project can accommodate one student at Masters level.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Evaluation of the impact of evaporator circuiting on heat pump performance
Reference / Verwysing MS007
Supervisor / Studieleier Prof PG Rousseau and M van Eldik
E-mail / E-pos [email protected]
Description/ Beskrywing It is well-known that overall counterflow circuiting provides the highest values of effectiveness in most finned-tube heat exchangers. However, in the case of direct expansion evaporators this may not always be the case. The reason for this is that the pressure drop on the refrigerant/tube side could result in inverted temperature gradients in some sections of the heat exchanger. This effect can become very pronounced in the case of zeotropic refrigerant mixtures and could possibly be exploited to provide useful improvements in heat exchanger effectiveness. The purpose of this study will be to investigate the effects of more intricate evaporator circuiting configurations on overall heat pump performance for different refrigerant types including R22 and R407C. This project will require of the candidate at Masters degree level to:
• Study the relevant circuiting methodologies and existing heat exchanger simulation models and data.
• Set up detailed discretized simulation models for direct expansion evaporators allowing a variety of intricate circuiting arrangements and refrigerants.
• Integrate the evaporator model in a simplified heat pump system model.
• Validate the simulation model through comparison with existing empirical data and where necessary generate additional empirical data with the aid of an existing heat pump test bench.
• Apply the simulation model to investigate and evaluate the effects of different circuiting arrangements on overall heat pump performance.
• Derive useful design guidelines or a design methodology to encapsulate the results in a manner that can be useful to heat pump designers.
Funding / Befondsing Yes
Level / Vlak Masters'
Other / Ander This project can accommodate one student at Masters degree level.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Investigation of pressure drop and velocity profile characteristics for gas flow through cylindrical and annular packed pebble beds
Reference / Verwysing MS008
Supervisor / Studieleier Proff CG du Toit and PG Rousseau
E-mail / E-pos [email protected]
Description/ Beskrywing The so-called Small Cylindrical Packed Bed (SCPB) and Small Annular Packed Bed (SAPB) test sections are part of the High Pressure Test Unit (HPTU) that forms part of the PBMR Heat Transfer Test Facility (HTTF). These test sections have both been designed to allow for the evaluation of the pressure drop and velocity profile characteristics that occur in fluid flow through a packed pebble bed. This project will require of the candidate at Masters degree level to:
• Study the relevant existing correlations and empirical data. • Take part in the planning and execution of the actual
measurements of pressure drop and velocity profile on the SAPB and SCPB.
• Do the data reduction and evaluate the empirical results. • Set up suitable numerical simulation models and analyse and
compare the numerical and experimental results for the different bed configurations.
This project will require of the candidate at Doctoral degree level to: • Study the relevant existing correlations and empirical data. • Identify what novel contribution can be made with regard to the
numerical modelling of the pressure drop/velocity profile interaction with the aid of conventional CFD and systems-CFD simulation models.
• Take part in the planning and execution of the actual measurements of pressure drop and velocity profile on the SAPB and SCPB.
• Do the data reduction and evaluate the empirical results. • Set up suitable conventional CFD and systems-CFD numerical
simulation models and analyse and compare the numerical and experimental results for the different bed configurations as well as the different simulation methodologies.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Other / Ander This project can accommodate one student at Masters or one student at Doctoral degree level.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Investigation of ‘braiding effect’ characteristics for gas flow through cylindrical and annular packed pebble beds
Reference / Verwysing MS009
Supervisor / Studieleier Proff PG Rousseau and CG du Toit
E-mail / E-pos [email protected]
Description/ Beskrywing The so-called Small Cylindrical Packed Bed (SCPB) and Small Annular Packed Bed (SAPB) test sections are part of the High Pressure Test Unit (HPTU) that forms part of the PBMR Heat Transfer Test Facility (HTTF). These test sections have both been designed to allows for the evaluation of the so-called ‘braiding effect’ characteristics that occur in fluid flow through a packed pebble bed. The braiding effect implies an apparent enhancement of the fluid conductivity due to turbulent mixing that occurs as the flow criss-crosses between the pebbles. This project will require of the candidate at Masters degree level to:
• Study the relevant existing correlations and empirical data. • Take part in the planning and execution of the actual
measurements of braiding effect on the SAPB and SCPB. • Do the data reduction and evaluate the empirical results. • Set up suitable numerical simulation models and analyse and
compare the numerical and experimental results for the different bed configurations.
This project will require of the candidate at Doctoral degree level to: • Study the relevant existing correlations and empirical data. • Identify what novel contribution can be made with regard to the
numerical modelling of the braiding effect with the aid of conventional CFD and systems-CFD simulation models.
• Take part in the planning and execution of the actual measurements of braiding effect on the SAPB and SCPB.
• Do the data reduction and evaluate the empirical results. • Set up suitable conventional CFD and systems-CFD numerical
simulation models and analyse and compare the numerical and experimental results for the different bed configurations as well as the different simulation methodologies.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Other / Ander This project can accommodate one student at Masters or one student at Doctoral degree level.
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Mechanical Energy Systems: Thermal-fluid Systems / Meganiese Energiestelsels: Termo-vloei stelsels
Project Title/ Projektitel Modeling of Stirling engines with Flownex
Reference / Verwysing TM001
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Advanced HX modeling in Flownex (Integrate with ESDU / HX design programme)
Reference / Verwysing TM002
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of DX coils and air-cooled condensers in Flownex
Reference / Verwysing TM003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of refrigeration cycles with Flownex
Reference / Verwysing TM004
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of air conditioning systems in Flownex
Reference / Verwysing TM005
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Genetic optimization of thermal-fluid networks in Flownex
Reference / Verwysing TM006
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Progressive systems CFD analysis of a standard air refrigeration cycle
Reference / Verwysing TM007
Supervisor / Studieleier Prof. CG du Toit
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' / PhD
Project Title/ Projektitel Development of a 1 kW Stirling solar power generator
Reference / Verwysing TS001
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of solar power generator based on an Organic Rankine Cycle (ORC)
Reference / Verwysing TS002
Supervisor / Studieleier Dr. BW Botha
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Thermo-well refrigeration and power generation
Reference / Verwysing TS003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Development of CO2 heat pump
Reference / Verwysing TS004
Supervisor / Studieleier M van Eldik
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of heat pump for domestic water heating
Reference / Verwysing TS005
Supervisor / Studieleier M van Eldik
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of a heat pump low pressure hot water system
Reference / Verwysing TS006
Supervisor / Studieleier M van Eldik
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Heat Pump electronic control and measurement
Reference / Verwysing TS007
Supervisor / Studieleier M van Eldik
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Research and Commercialisation / Navorsing en Kommersialisering
Project Title/ Projektitel Simulation of the Human Energy System
Reference / Verwysing RC001
Supervisor / Studieleier Prof EH Mathews
E-mail / E-pos [email protected]
Description/ Beskrywing Worldwide Biotechnology is currently the hot technology. We are involved in this exciting field. Let us explain. The energy cycle of humans can be simulated by means of engineering principles. Our research group has made some ground breaking discoveries in this area. The work must now be extended. This research will have an important impact on cardiovascular disease and diabetes. The study will include literature surveys, development of new theoretical models and integrated computer simulations. This work will be done in collaboration with a team of experiences engineers and medical researchers. Verification of the results (clinical trials) will be done in South Africa and overseas.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Project Title/ Projektitel Using cell phone technology for Biotech products
Reference / Verwysing RC002
Supervisor / Studieleier Prof EH Mathews
E-mail / E-pos [email protected]
Description/ Beskrywing Various discoveries were made by our research team regarding the simulation of the human energy system. These discoveries lead to breakthroughs in treatment of cardiovascular disease and diabetes. Some of the disease management procedures will now be combined with the cell phone technology. The study will include technology reviews and the synthesis of simulation models with cell phone technology. The product will be validated together with a team of experienced engineers and medical researchers, locally and abroad.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Simulation of industrial processes
Reference / Verwysing RC003
Supervisor / Studieleier Prof M Kleingeld
E-mail / E-pos [email protected]
Description/ Beskrywing Industrial processes can be simulated by computer. We investigate energy savings using our integrated dynamic energy simulation software. Very interesting work has already been done for the mines and for other industrial applications. There is a need for further extension to this work. The study will include literature surveys, development of new element models, computer modelling and verification. The work will entail travelling to the industrial sites and will be done with a team of experienced engineers. This study will inter alia provide an excellent opportunity for ECSA accreditation.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Nuclear Engineering / Kerningenieurswese
Project Title/ Projektitel Combined low loss permanent magnet biased active magnetic bearing
Reference / Verwysing NC001
Supervisor / Studieleier Prof. G. van Schoor (Supervisor); Mr. E.O. Ranft (Co-supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing The MBMC Research Group is in the process of developing a high speed flywheel energy storage system. Since high efficiency is one of the basic requirements of a flywheel energy storage system, the use of low loss bearings is essential. Low loss Active Magnetic Bearings (AMBs) are used to suspend the flywheel rotor in a vacuum. The development of a low loss AMB utilising permanent magnets for biasing is proposed. Since two radial and one axial AMB are required in such a system, the one radial AMB and the axial AMB can be combined to better utilise space and magnetric material. The design of such a combined AMB is also part of this project.
Funding / Befondsing Yes
Level / Vlak Masters'
Other / Ander This study is for an option A (i.e. full dissertation) masters' degree
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel The Design of Catcher Bearings for AMB Supported Rotors
Reference / Verwysing NC002
Supervisor / Studieleier Mr. J.G Roberts (Supervisor); Prof. G. van Schoor (Co-supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing Rotors supported on Active Magnetic Bearings (AMB’s) require catcher bearings to support the rotor when the AMB controller is off and to prevent excessive damage of the machine in case the AMB system fails. The catcher bearings typically consist of low friction bushes located close to the AMB with a radial air gap of approximately half the magnetic air gap of the AMB. Another design uses rolling element bearings with inertia disks to retard the spin-up rate of the rolling element bearing. The emphasis of this M-study is to establish the design methodology and to define the required tools for designing the catcher bearings of an AMB supported rotor. This methodology shall be applied to the redesign of the catcher bearings of the Fly-ups rotor, provided all the design tools can be afforded. The student shall do low risk rundown tests on catcher bearings to learn more about the behaviour of the rotor supported on catcher bearings.
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Determination of the Windage Losses of the flywheel UPS Rotor
Reference / Verwysing NC003
Supervisor / Studieleier Mr. J.G Roberts (Supervisor); Prof. G. van Schoor (Co-supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing A number of theories exist to predict the windage loss of rotating cylinders and disks. However, the variance in these predictions is so large that windage losses cannot be predicted accurately enough with presently publicized theory. The Fly-ups rotor is an application of Active Magnetic Bearing (AMB) Design that consists of a combination or rotating cylinders and disks with varying air gaps. The density of the air can be adjusted by controlling the vacuum around the rotor. Other gasses could also be used to investigate the effect of viscosity of the fluid on the accuracy of the predictions. The emphasis of this M-study is on the theory to predict windage of a typical rotor supported in AMB’s sufficiently accurate by experimental measurement of the windage torque. The student shall devise a method to measure windage in the most cost effective way.
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Permanent magnet synchronous motor drive and controller
Reference / Verwysing NC004
Supervisor / Studieleier Prof. G van Schoor and Mr. EO Ranft
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Electrical design of flywheel energy storage system
Reference / Verwysing NC006
Supervisor / Studieleier Prof. G van Schoor and Mr. EO Ranft
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak PhD
Project Title/ Projektitel Mechanical design of flywheel energy storage system
Reference / Verwysing NC007
Supervisor / Studieleier Mr. JG Roberts and prof. G van Schoor
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak PhD
Project Title/ Projektitel Comprehensive AMB model taking rotordynamic effects into account
Reference / Verwysing NC008
Supervisor / Studieleier Prof. G. van Schoor (Supervisor); Mr. J.G. Roberts (Co-supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing The MBMC research group is amongst others striving towards a comprehensive modelling platform for the design of active magnetic bearing (AMB) systems. Up to date the AMB models only included the AMB as such and did not include any rotordynamic effects. The purpose of this project is to establish the impact of rotordynamics on system performance and its impact on AMB requirements. The inclusion of the rotordynamics into the design platform will significantly enhance system design integrity. The model performance will be verified with practical measurements and analytical analyses.
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel State-space modelling of thermo-hydraulic systems based on Bond graphs
Reference / Verwysing NC009
Supervisor / Studieleier Prof. G. van Schoor (Supervisor); Mr. KR Uren (Assistant supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing Bond graph theory was developed by H.M. Paynter in the 1960’s. The basic idea behind Bond graphs is to create a visual representation of the power flow through a system. By developing a power flow diagram and adding causal assignments identifying the causal relationships between state variables, creating equations describing the systems’s dynamic behaviour becomes a relatively straightforward task. The compact nature of Bond graphs lends it extremely well for computer-aided modelling. This distinguishes Bond graph modelling from other techniques as potentially the most useful systematic modelling technique. The project will be concerned with deriving low-order state-space models of thermo-hydraulic systems by applying bond graph theory. The state-space representation is preferred for modern controller design methods such as model predictive control. Computer modelling software such as Symbols 2000, Matlab and Simulink will be utilized.
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Model predictive control of a Brayton cycle based power conversion unit
Reference / Verwysing NC010
Supervisor / Studieleier Prof. G. van Schoor (Supervisor); Mr. KR Uren (Assistant supervisor)
E-mail / E-pos [email protected]; [email protected]
Description/ Beskrywing Model predictive control (MPC) was developed in the 1970’s specifically for industry. It’s popularity increased through the 1980’s and at present it is one of the most widely used multivariable control algorithms in industries and other areas. It’s main strengths lie in problems that has a large number of control variables, changing control objectives, constraints on control variables and time delays. MPC leads to an optimization problem wich is solved on-line in real time at each sampling interval. An existing state-space model of the power conversion unit of the PBMR is available. The poject will involve the application of MPC on this state-space model. This study will contribute in exploring the possibility of using MPC as an automatic controller design technique. Matlab has a MPC toolbox which provides a graphical interface for designing MPC controllers. This toolbox along with Simulink will be used to develop and analyze MPC controllers.
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Investigation into the dynamic behavior of the Reactor Cavity Cooling System of the PBMR
Reference / Verwysing NC011
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Static failure theories applicable to reactor graphite for PBMR
Reference / Verwysing NM001
Supervisor / Studieleier Mr. J.G. Roberts (Supervisor)
E-mail / E-pos [email protected]
Description/ Beskrywing Two failure theories are proposed for design of graphite structures for nuclear reactors. The first is the KTA rule that is based on Maximum Deformation Energy equivalent stresses and a modified Weibull distribution that determines the probability of failure of a component. The second is the CARES/Life criterion, developed by NASA, that uses a Weibull distribution to determine the probability of failure of a component. The main focus of this research is to evaluate the accuracy of these failure criteria by using publicized failure data. Static uniaxial as well as multiaxial failure data shall be used in this research.
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel A comparison of Flownex, EPANET, XNet and other codes for the analysis of water pipe networks
Reference / Verwysing NL001
Supervisor / Studieleier Prof. CG du Toit and Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Explicit time-wise integration algorithms for the solution of the transient thermal-fluid conservation equations
Reference / Verwysing NL002
Supervisor / Studieleier Prof. CG du Toit and Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Development of computer model for the prediction of homogeneous two-phase flows in pipe networks based on the fully-implicit back-substituted method (FIBS).
Reference / Verwysing NL003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of a drift flux model for two-phase flows in pipe networks
Reference / Verwysing NL004
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of the PBMR Reactor Cavity Cooling System (RCCS) with Relap
Reference / Verwysing NL005
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of compressor performance using Flownex
Reference / Verwysing NL006
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Strategy for interfacing Flownex with a CFD code
Reference / Verwysing NL007
Supervisor / Studieleier Prof. GP Greyvenstein and Prof. CG du Toit
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' / PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Comparison of different matrix solution techniques for Flownex
Reference / Verwysing NL008
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Characterization of micro gas turbine test facility using Flownex
Reference / Verwysing NF001
Supervisor / Studieleier Dr. BW Botha
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' (assigned)
Project Title/ Projektitel Pressure drop in annular packed beds with reference to the Pebble Bed Modular Reactor
Reference / Verwysing NF002
Supervisor / Studieleier Prof. CG du Toit and Prof. PG Rousseau
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' (assigned) / PhD
Project Title/ Projektitel Evaluation of the enhanced fluid conductivity for gas flow through packed pebble beds
Reference / Verwysing NF003
Supervisor / Studieleier Prof. PG Rousseau
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' / PhD
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Evaluation of the effective conductivity through a packed pebble bed due to radiation and point contact conduction
Reference / Verwysing NF004
Supervisor / Studieleier Proff PG Rousseau and CG du Toit
E-mail / E-pos [email protected]
Description/ Beskrywing The High Temperature Test Unit (HTTU) forms part of the PBMR Heat Transfer Test Facility (HTTF). One of the tasks that will be performed on the HTTU is the evaluation of the effective conductivity through the packed pebble bed structure at high temperatures, due to radiation and point contact conduction between the pebble surfaces. This phenomenon forms an integral part of the mechanism that allows for an inherently safe pebble bed nuclear reactor design. This project will require of the candidate at Masters degree level to: • Study relevant existing correlations and empirical data. • Take part in the planning and execution of the actual measurements of
effective conductivity. • Do the data reduction and associated theoretical analyses necessary to
assess the results. This project will require of the candidate at Doctoral degree level to: • Study relevant existing correlations and empirical data. • Identify what novel contribution can be made to address possible
deficiencies in existing correlations and/or methodologies for applying the correlations in a pebble bed design code.
• Take part in the planning and execution of the actual measurements of effective conductivity.
• Do the data reduction and associated theoretical analyses necessary to assess the results.
• Develop and implement new correlations and/or methodologies for applying the correlations in a pebble bed design code.
Funding / Befondsing Yes
Level / Vlak Masters' or PhD
Other / Ander One student at Masters or one student at Doctoral degree level.
Project Title/ Projektitel Design of a Model of a Combined Cycle Power Plant for the PBMR
Reference / Verwysing ND001
Supervisor / Studieleier Prof. GP Greyvenstein ([email protected])
Funding / Befondsing Yes
Level / Vlak Masters' (assigned)
Project Title/ Projektitel Techno-economical study into the feasibility of a 50 MW PBMR power plant for remote communities
Reference / Verwysing ND002
Supervisor / Studieleier Prof. GP Greyvenstein ([email protected])
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Design of a Combined Cycle (CC) power conversion unit (PCU) for the PBMR
Reference / Verwysing ND003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Evaluation of MicroShield Build Up Factors and their limits of applicability.
Reference / Verwysing NR001
Supervisor / Studieleier Sergio Korochinsky and Gert de Beer (advisor)
E-mail / E-pos Enquiries: Prof. GP Greyvenstein
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of a coupled 3D neutronics / thermo-hydraulic model for the PBMR
Reference / Verwysing NR002
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters' / PhD
Project Title/ Projektitel Design of a 100 MWt Pebble Bed reactor
Reference / Verwysing NR003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Development of a modified Point Kinetics model to analyze major
transients in the Pebble Bed Reactor
Reference / Verwysing NR004
Supervisor / Studieleier Prof. Osman Kadiroglu
E-mail / E-pos Enquiries: Prof. GP Greyvenstein
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel 3D Modeling of block fuel reactors with Flownex
Reference / Verwysing NR005
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Fakulteit Ingenieurswese / Faculty of Engineering 2006-08-11
Project Title/ Projektitel Design of a bench top system of the Hybrid Sulphur process for hydrogen production
Reference / Verwysing NH001
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Conceptual design of an intermediate heat exchanger for a PBMR process heat plant
Reference / Verwysing NH002
Supervisor / Studieleier Prof. GP Greyvenstein and Prof. J Markgraaff
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of chemical reactions in Flownex
Reference / Verwysing NH003
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of a SMR system in Flownex
Reference / Verwysing NH004
Supervisor / Studieleier Prof. GP Greyvenstein
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'
Project Title/ Projektitel Modeling of a fuel cell system in Flownex
Reference / Verwysing NH005
Supervisor / Studieleier Dr. BW Botha
E-mail / E-pos [email protected]
Funding / Befondsing Yes
Level / Vlak Masters'