Year 1
units (120 credits)
|
1A
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A student will take
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Semester 1
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CHM155
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Organic Chemistry for Chemical Engineers
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AUT SEM
|
10 credits
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FCE1001
|
Global Engineering Challenge Week
|
AUT SEM
|
0 credits
|
Semester 2
|
CPE106
|
Fluid Mechanics and Heat Transfer
|
SPR SEM
|
10 credits
|
CPE108
|
Chemical Engineering Thermodynamics
|
SPR SEM
|
10 credits
|
Full academic year
|
CPE101
|
Applied Chemical Engineering
|
ACAD YR
|
20 credits
|
MAS140
|
Mathematics (Chemical)
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ACAD YR
|
20 credits
|
|
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Year 2
units (120 credits)
|
2A
|
|
A student will take
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Semester 1
|
CPE211
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Chemistry for Chemical Engineers
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AUT SEM
|
10 credits
|
CPE213
|
Transport Processes 1
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AUT SEM
|
10 credits
|
CPE214
|
Separation Processes 1
|
AUT SEM
|
10 credits
|
FCE2001
|
Engineering - You're Hired
|
AUT SEM
|
0 credits
|
MAS248
|
Mathematics III (Chemical)
|
AUT SEM
|
10 credits
|
Semester 2
|
CPE221
|
Biochemistry
|
SPR SEM
|
10 credits
|
CPE223
|
Transport Processes 2
|
SPR SEM
|
10 credits
|
CPE224
|
Separation Processes 2
|
SPR SEM
|
10 credits
|
CPE225
|
Fuel and Energy Utilisation
|
SPR SEM
|
10 credits
|
Full academic year
|
CPE2012
|
Chemical Engineering Design
|
ACAD YR
|
30 credits
|
CPE210
|
Practical Chemical Engineering
|
ACAD YR
|
10 credits
|
|
|
2B
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A student must pass FCE1001 and FCE2001 in order to proceed to Level 3.
|
Year 3
units (120 credits)
|
3A
|
|
A student will take
|
Semester 1
|
ACS334
|
Process Dynamics and Control
|
AUT SEM
|
10 credits
|
CPE3002
|
Chemical Engineering Design
|
AUT SEM
|
20 credits
|
CPE318
|
Environmental Protection
|
AUT SEM
|
10 credits
|
MAT3910
|
Nuclear Science, Engineering and Technology
|
AUT SEM
|
10 credits
|
Semester 2
|
CPE3003
|
Advanced Chemical Engineering
|
SPR SEM
|
20 credits
|
MAT3860
|
Nuclear Waste Immobilisation and Disposal
|
SPR SEM
|
10 credits
|
MGT389
|
Project Management and HRM for Engineers
|
SPR SEM
|
10 credits
|
Full academic year
|
CPE321
|
Process Design Project
|
ACAD YR
|
30 credits
|
|
|
3B
|
A student who does not pass CPE321 (Process Design Project) at the first attempt will be ineligible for the award of the Degree with Honours.
|
3C
|
A student must satisfy the requirements of the General Regulations for First Degrees as to progression in order to continue as a student for the Degree of MEng in Chemical Engineering with Nuclear Technology (Year in Industry) (CPEU28). A student who fails to satisfy these requirements may be permitted by the Faculty to become instead a student for the Degree of BEng in Chemical Engineering (CPEU02).
|
Year 4
units (120 credits)
|
4A
|
|
A student will take
|
Full academic year
|
CPE320
|
Year in Industry
|
ACAD YR
|
120 credits
|
|
|
4B
|
A student must normally achieve a weighted mean grade of 54.5 or above at Level 2 and Level 3 in order to proceed to the Year in Industry, progression being at the discretion of the Board of Examiners. A student who fails to progress may be permitted to become instead a student for the Degree of BEng Chemical Engineering (CPEU02) or, at the discretion of the Board of Examiners, for the Degree of MEng Chemical Engineering with Nuclear Technology (CPEU18).
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4C
|
A student will be responsible for securing a suitable industrial placement in order to take CPE320 Year in Industry. The appropriateness of the placement will be determined by the Chemical and Biological Engineering Director of Learning and Teaching. A student who fails to obtain a suitable placement will instead be required to become a student for the Degree of MEng Chemical Engineering with Nuclear Technology (CPEU18). A student will take CPE320 Year in Industry before proceeding to Level 5.
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4D
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A student will normally spend the Year in Industry between the third and fourth year of the degree programme. However, with the permission of the Head of Department the student may spend the Year in Industry between the second and third year of the degree programme.
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4E
|
CPE320 requires that a student will spend a minimum of 38 weeks working in an industrial establishment, the arrangements being subject to the approval of the Chemical and Biological Engineering Director of Learning and Teaching. The Year in Industry will be assessed on a written report and a post-placement presentation. A student who fails to satisfy these requirements may be permitted by the Faculty to become instead a student for the Degree of MEng Chemical Engineering with Nuclear Technology (CPEU18).
|
Year 5
units (100 credits)
|
5A
|
|
A student will take
|
Semester 1
|
CPE402
|
Computational Fluid Dynamics
|
AUT SEM
|
10 credits
|
Semester 2
|
CPE406
|
Energy from Biomass and Waste
|
SPR SEM
|
10 credits
|
CPE419
|
Nuclear Reactor Engineering
|
SPR SEM
|
10 credits
|
CPE430
|
Low Carbon Energy Science and Technology
|
SPR SEM
|
10 credits
|
MAT4900
|
Advanced Nuclear Systems
|
SPR SEM
|
10 credits
|
MEC6422
|
Nuclear Thermal Hydraulics and Heat Transfer
|
SPR SEM
|
10 credits
|
Full academic year
|
CPE401
|
Research Project
|
ACAD YR
|
40 credits
|
|
|
units (20 credits)
|
5B
|
|
A student will take 20 credits from this group.
|
Semester 1
|
CPE403
|
Environment - Gaseous Emissions
|
AUT SEM
|
10 credits
|
MEC408
|
Industrial Marketing: Basics and Cases
|
AUT SEM
|
10 credits
|
Semester 2
|
CPE407
|
Environment - Particulate Emissions
|
SPR SEM
|
10 credits
|
CPE408
|
Environment - Liquid Effluents
|
SPR SEM
|
10 credits
|
MEC414
|
Engineering Marketable Solutions: Make a Change!
|
SPR SEM
|
10 credits
|
MEC428
|
The Professional Responsibility of Engineers
|
SPR SEM
|
10 credits
|
|
|
5C
|
A student must pass CPE401 (Research Project) at the first attempt in order to be eligible for the award of Degree of MEng in Chemical Engineering with Nuclear Technology (Year in Industry). A candidate who fails to satisfy this requirement may be awarded the Degree of BEng in Chemical Engineering (CPEU02).
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