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4.2.11.2    Degree Requirements

The graduation requirements include obtaining a minimum Cumulative Average Point (CAP) of 3.00 (equivalent to an average of Grade B-) for the best modules equivalent of 40 MCs. Each graduate module of 39 lecture hours is usually assigned 4 MCs. Hence, in general, a student needs to complete 10 modules chosen from the list of modules. A maximum of 2 approved external modules are usually allowed. A candidate may read for a M.Sc. in Mechanical Engineering with or without a major or area of specialisation. Students must complete at least 5 modules from the core module list for the specialisation in order to graduate with the specialisation.

The following modules are offered for the M.Sc. (Mechanical Engineering)
General Modules
ME5001 Mechanical Engineering Project
ME5103 Plates and Shells
ME5106 Engineering Acoustics
ME5161 Optical Techniques in Experimental Stress Analysis
ME5204 Air Conditioning and Building Automation
ME5205 Energy Engineering
ME5207 Solar Energy Systems
ME5301 Flow Systems Analysis
ME5302 Computational Fluid Mechanics
ME5303 Industrial Aerodynamics
ME5304 Experimental Fluid Mechanics
ME5305 Fundamentals of Aeroelasticity
ME5309 Aircraft Engines and Rocket Propulsion
ME5361 Advanced Computational Fluid Dynamics
ME5401 Linear Systems
ME5402 Advanced Robotics
ME5403 Computer Control Systems
ME5404 Neural Networks
ME5405 Machine Vision
ME5506 Corrosion of Materials
ME5513 Fracture and Fatigue of Materials
ME5516 Emerging Energy Conversion and Storage Technologies
ME5608 Additive and Non-Conventional Manufacturing Processes
ME5611 Sustainable Product Design & Manufacturing
ME5612 Computer Aided Product Development
OT5102 Oil and Gas Technology
OT5301 Subsea Systems Engineering
OT5302 Flow Assurance
OT5303 Subsea Control
OT5304 Subsea Construction & Operational Support
OT5305 Pressures Surges in Oil & Gas Flow Systems
ME6105 Continuum Mechanics
ME6204 Convective Heat Transfer
ME6205 Advanced Topics in Heat and Mass Transfer
ME6303 Advanced Fluid Dynamics
ME6405 Autonomous Mobile Robotics
ME6406 Optimization Techniques for Dynamical Systems
ME6504 Defects and Dislocations in Solids
ME6505 Engineering Materials in Medicine
ME6604 Modelling of Machining Processes

 

Specialisation in Computation and Modelling
Modules for Specialisation (at least 5 modules)
ME4291 Finite Element Analysis
CE4257 Linear Finite Element Analysis
Students can only choose either ME4291 or CE4257, which is prerequisite for CE6006.
ME5300A Special Project in Computation and Modelling I
ME5300B Special Project in Computation and Modelling II
ME5301 Flow Systems Analysis
ME5302 Computational Fluid Mechanics
ME5361 Advanced Computational Fluid Dynamics
ME5401 Linear Systems
ME5404 Neural Networks
ME6105 Continuum Mechanics
ME6303 Advanced Fluid Dynamics
ME6604 Modelling of Machining Processes
CE5377 Numerical Methods in Mechanics & Envr. Flows
CE6006 Advanced Finite Element Analysis

Specialisation in Advanced Manufacturing
Modules for Specialisation (at least 5 modules include one core module)
Core Module
ME5608 Additive and Non-Conventional Manufacturing Processes
Elective Module
ME5402 Advanced Robotics
ME5403 Computer Control Systems
ME5405 Machine Vision
ME5513 Fracture and Fatigue of Materials
ME5600A Project in Advanced Manufacturing I
ME5600B Project in Advanced Manufacturing II
ME5611 Sustainable Product Design & Manufacturing
ME5612 Computer Aided Product Development
ME6505 Engineering Materials in Medicine
ME6604 Modelling of Machining Processes
MLE5102 Mechanical Behaviours of Materials
MLE5204 Advanced Processing of Metallic Materials
MST5001 Structure and Properties of Materials
MST5002 Materials Characterization
PR5211 Pharmaceutical Analysis IV
PR5216 Advances in Drug Delivery
ID5951B Topics in Industrial Design: Interaction Design
ID5951C Topics in Industrial Design: Healthcare Design

 

Not all modules listed are necessarily available in any one year.