About the Program
The Master's program in Sustainable Energy involves advanced learning across engineering and public policy. Students will specialize in either the engineering or the policy side of the program, graduating with either an engineering degree (M.A.Sc. or M.Eng. in Sustainable Energy) or a public-policy degree (M.A. in Sustainable Energy). While specializing in either side of the program, students will also take courses that engage with the other disciplinary component. Students across the program will learn together, garnering an understanding of sustainable-energy problems in a setting of interdisciplinary collaboration.
Academic Regulations
- See the General Regulations section of this Calendar.
- Academic Standing - a grade of B- or better must be obtained in each course counted towards the master's degree.
- Full-time Continuation -
students will be required to withdraw from the program if their weighted grade point average falls below 7.0 (B-) after two terms of full-time study (or equivalent), or if they receive a grade of
less than B- in any two courses they have registered in. - Part- time continuation - students will be required to withdraw from the program if their weighted grade point average falls below 7.0 (B-) after completing 2.0 credits, or if they receive a grade of less than B- in any two courses they have registered in.
Admission Requirements
Applicants must have a bachelor's degree (or equivalent) in a discipline relevant to engineering disciplinary foundations.
Normally, an average of B+ or higher is required for admission.
Program Requirements
Five (5.0) credits as follows:
- 0.5 credit in SERG 5000 Cross Disciplinary Course in Sustainable Energy
- 0.5 credit in SERG 5001 Sustainable Energy Policy for Engineers
- 0.0 credit in SERG 5800 Sustainable Energy Seminar Course
- 1.0 credit in courseses from the Mechanical Energy Conversion or Efficient Electrical Energy Systems fields listed below
- 1.0 credit from graduate-level courses offered in the Faculty of Engineering and Design
- 2.0 credits in M.A.Sc. thesis (MECH 5909/SYSC 5909/ELEC 5909)
Notes:
- Courses must be appropriate to the student's qualifications and selected with the approval of the student's program supervisor.
- Only a selection of courses listed is given in a particular academic year.
Course Fields
1. Mechanical Energy Conversion
ENVE 5101 Air Pollution Control
ENVE 5102 Traffic Related Air Pollution
ENVE 5103 Air Quality Monitoring
ENVE 5104 Indoor Air Quality
MECH 5009 Environmental Fluid Mechanics Relating to Energy Utilization
MECH 5201 Methods of Energy Conversion
MECH 5400 Gas Turbine Combustion
MECH 5402 Gas Turbines
MECH 5403 Advanced Thermodynamics
MECH 5407 Conductive and Radiative Heat Transfer
MECH 5408 Convective Heat and Mass Transfer
MECH 5809 Fundamentals of Combustion
SERG 5906 Directed Study in Sustainable Energy
2. Efficient Electrical Energy Systems
ELEC 5200 Advanced Topics in ICs and Devices
ELEC 5509 Integrated Circuit Technology
ELEC 5705 Advanced Topics in VLSI
ELEC 5707 Microsensors and MEMS
ELEC 5808 Signal Processing Electronics
ELEC 5900 Engineering Project
SYSC 5001 Simulation and Modeling
SYSC 5004 Mathematical Programming for Engineering Applications
SYSC 5006 Design of Real-time and Distributed Systems
SYSC 5103 Software Agents
SYSC 5104 Methodologies for Discrete-Event Modelling and Simulation
SYSC 5105 Software Quality Engineering and Management
SYSC 5201 Computer Communications
SYSC 5207 Distributed System Engineering
SYSC 5306 Mobile Computing
SYSC 5401 System Modeling and Control
SYSC 5600 Adaptive Signal Processing
SERG 5906 Directed Study in Sustainable Energy
