Photovoltaics & Solar Energy - 3642
Program Summary
Faculty: Faculty of Engineering
Contact: http://www.pv.unsw.edu.au
Campus: Kensington Campus
Career: Undergraduate
Typical Duration: 4 Years
Typical UOC Per Semester: 24
Min UOC Per Semester: 3
Max UOC Per Semester: 27
Min UOC For Award: 192
UAC Code: 425003
International Entry Requirements: See International Entry Requirements
Award(s):
Bachelor of Engineering (Major)
Program Description
The undergraduate engineering degree in Photovoltaics (PV) and Solar Energy was established in 2000 and is a four year full-time program. It is the first of its kind internationally and won the Education and Awareness Award at the 2004 Energy and Water Green Globe Awards held by the Department of Energy, Utilities and Sustainability. The program has been established in response to rapid growth in the industry in recent years in both manufacturing capacity and job creation. Global manufacturing of solar cells expanded 67% in 2004, and a further 45% in 2005, and 85% in 2008 - growth reminiscent of the electronics industry in the booming 1980s. What’s more, the industry further expanded by 55% in 2009 despite the Global Financial Crisis.
The program includes training in technology development, manufacturing, quality control, reliability and life-cycle analysis, cell interconnection and encapsulation, a range of solar cell applications, system design, maintenance and fault diagnosis, marketing, policy development and the use of other renewable energy technologies. Emphasis is placed on gaining hands-on experience of working with solar energy devices, modules and systems.
Innovative teaching techniques have been developed to enhance the learning environment including the 'Virtual Production Line' and 'Virtual World Solar Car Challenge'. UNSW academics in the photovoltaic field have been consistently ranked amongst the leaders worldwide through international peer review. This team has held the world record for silicon solar cell efficiencies for decades and were responsible for developing the most successfully commercialized new photovoltaic technology internationally throughout the same period. From 2006 onwards we have seen an explosion of interest in the School's technologies from major industry players all around the world.
Second Area of Specialisation
The cross-disciplinary nature of photovoltaics and renewable energy applications necessitates many PV engineers possessing broad engineering backgrounds or else working in teams with other engineers. A good example is the UNSW Solar Car Project involving PV engineers, electronics engineers, control engineers, mechanical engineers, chemical engineers, power engineers, biomedical engineers, computer engineers, and communication engineers. Therefore it is important for photovoltaic engineers to have a broader understanding of other engineering disciplines.
A unique feature of this program is that in Year 2, students have the opportunity to select a strand to complement their education in Photovoltaics and Solar Energy. Each strand comprises 18 units of credit with the opportunity to subsequently select additional electives in the corresponding area in the final two years, subject to the approval of the Undergraduate Coordinator. The strands available are listed below and cover areas such as computing, electronics, mathematics, mechanical engineering, civil engineering, physics, chemical engineering, and architecture. Students may also formulate their own strands subject to the approval of the Undergraduate Coordinator.
Selection of a second area of specialization is subject to the program rule that states that no more than 60 UOC of first-year level courses may be counted toward the BE degree in Photovoltaics and Solar Energy.
The program includes training in technology development, manufacturing, quality control, reliability and life-cycle analysis, cell interconnection and encapsulation, a range of solar cell applications, system design, maintenance and fault diagnosis, marketing, policy development and the use of other renewable energy technologies. Emphasis is placed on gaining hands-on experience of working with solar energy devices, modules and systems.
Innovative teaching techniques have been developed to enhance the learning environment including the 'Virtual Production Line' and 'Virtual World Solar Car Challenge'. UNSW academics in the photovoltaic field have been consistently ranked amongst the leaders worldwide through international peer review. This team has held the world record for silicon solar cell efficiencies for decades and were responsible for developing the most successfully commercialized new photovoltaic technology internationally throughout the same period. From 2006 onwards we have seen an explosion of interest in the School's technologies from major industry players all around the world.
Second Area of Specialisation
The cross-disciplinary nature of photovoltaics and renewable energy applications necessitates many PV engineers possessing broad engineering backgrounds or else working in teams with other engineers. A good example is the UNSW Solar Car Project involving PV engineers, electronics engineers, control engineers, mechanical engineers, chemical engineers, power engineers, biomedical engineers, computer engineers, and communication engineers. Therefore it is important for photovoltaic engineers to have a broader understanding of other engineering disciplines.
A unique feature of this program is that in Year 2, students have the opportunity to select a strand to complement their education in Photovoltaics and Solar Energy. Each strand comprises 18 units of credit with the opportunity to subsequently select additional electives in the corresponding area in the final two years, subject to the approval of the Undergraduate Coordinator. The strands available are listed below and cover areas such as computing, electronics, mathematics, mechanical engineering, civil engineering, physics, chemical engineering, and architecture. Students may also formulate their own strands subject to the approval of the Undergraduate Coordinator.
Selection of a second area of specialization is subject to the program rule that states that no more than 60 UOC of first-year level courses may be counted toward the BE degree in Photovoltaics and Solar Energy.
Note:
Photovoltaics and Solar Energy is also available as a component of the dual degree programs:
BE (Pvse)/BSc, program 3655 programs/3655
BE (Pvse)/BA, program 3704 programs/3704
BE (Pvse)/BCom, program 3715 programs/3715
BE (Pvse)/LLB, program 4778 programs/4778
For details of all academic requirements see Rules
BE (Pvse)/BSc, program 3655 programs/3655
BE (Pvse)/BA, program 3704 programs/3704
BE (Pvse)/BCom, program 3715 programs/3715
BE (Pvse)/LLB, program 4778 programs/4778
For details of all academic requirements see Rules
Program Objectives and Graduate Attributes
Please see: Rules
Program Structure
The program structure below gives one sequence of courses that fulfils the requirements of the degree. The timing of the general education courses and elective courses may be modified to optimize the student's choice of courses. While some courses are given twice a year, many courses are given only once a year and some once every two years. In addition, courses may have prerequisites and exclusions. Thus students should plan their enrolments appropriately.
Year 1
Choose ONE of:
Choose ONE of:
- MATH1131 Mathematics 1A (6 UOC)
- MATH1141 Higher Mathematics 1A (6 UOC)
And ONE of
- MATH1231 Mathematics 1B (6 UOC)
- MATH1241 Higher Mathematics 1B (6 UOC)
And ONE of
- PHYS1121 Physics 1A (6 UOC)
- PHYS1131 Higher Physics 1A (6 UOC)
And ONE of
- PHYS1221 Physics 1B (6 UOC)
- PHYS1231 Higher Physics 1B (6 UOC)
Plus the following 2 courses:
- ENGG1000 Engineering Design (6 UOC)
- ENGG1811 Computing for Engineers (6 UOC)
Plus choose 2 electives from the Year 1 Elective list Electives
Suggested Year 1 Electives for this program are:
Suggested Year 1 Electives for this program are:
- ELEC1111 Elec & Telecomm Eng (6 UOC)
- SOLA1070 Sustainable Energy (6 UOC)
- COMP1911 is an acceptable alternative for ENGG1811
- Not all courses are offered in both semesters but students should complete 24 UOC in each semester.
- For timetabling reasons, MATS1101 is not a preferred first year elective for this program.
Year 2
- ELEC1111 Elec & Telecomm Eng (6 UOC)
- MATH2089 Numerical Methods & Statistics (6 UOC)
- MATS1101 Engineering Materials and Chem (6 UOC)
- SOLA2051 Project in PV and SE 1 (6 UOC)
- SOLA2052 Project in PV and SE 2 (6 UOC)
- SOLA2053 Sust. & Renew. En. Tech (6 UOC)
- SOLA2060 Intro to Elec Devices (6 UOC)
- SOLA2540 Applied PV (6 UOC)
Year 3
- SOLA3010 Low Energy Buildings and PV (6 UOC)
- SOLA3020 PV Technology & Manufacturing (6 UOC)
- SOLA3507 Solar Cells (6 UOC)
- Strand Elective (6 UOC)
- Professional Electives (12 UOC)
- General Education/ Free Elective (6 UOC)
- Professional Electives / Strand (6UOC)
- Strand Elective (6 UOC)
Year 4
- ELEC4122 Strategic Leadership & Ethics (6 UOC)
- SOLA4012 Grid-Connect PV Syst (6 UOC)
- SOLA4910 Thesis Part A (6 UOC)
- SOLA4911 Thesis Part B (6 UOC)
- Professional Electives (12 UOC)
- General Education (6 UOC)
- Professional Electives/Strand(6UOC)
Years 2 & 3 Strand Options
Please note that the strands listed below are subject to change and may not be available every year. The strands published here are for students commencing the second year of their program. Third year students should complete the strand courses they have already nominated and consult the School Office as required.
Strand 1 Computing
Please note that the strands listed below are subject to change and may not be available every year. The strands published here are for students commencing the second year of their program. Third year students should complete the strand courses they have already nominated and consult the School Office as required.
Strand 1 Computing
And choose from the following to complete the strand:
Note: Selection of this strand is subject to the program rule that states that no more than 60 units of credit of first-year level courses may be counted towards the BE degree in PV & SE. Students interested in this strand should take the appropriate courses in year 1 that will allow them to meet this requirement.
Strand 2 Electronics
Strand 2 Electronics
- ELEC2133 Analogue Electronics (6 UOC)
- ELEC2134 Circuits and Signals (6 UOC)
And choose from the following to complete the strand:
- ELEC3106 Electronics (6 UOC)
- ELEC3117 Electrical Engineering Design (6 UOC)
- ELEC4614 Power Electronics (6 UOC)
Strand 3 Electric Energy
- ELEC2134 Circuits and Signals (6 UOC)
- ELEC3115 Electromagnetic Engineering (6 UOC)
- MATH2069 Mathematics 2A (6 UOC)
Note: Students taking this strand are encouraged to substitute ELEC3105 Electrical Energy for a professional elective.
Strand 4 Communications and Control
- ELEC2134 Circuits and Signals (6 UOC)
- MATH2069 Mathematics 2A (6 UOC)
And choose from the following to complete the strand:
- ELEC3104 Digital Signal Processing (6 UOC)
- ELEC3114 Control Systems (6 UOC)
- TELE3113 Analogue and Digital Comms (6 UOC)
Strand 5 Mathematics
And choose one from the following to complete the strand:
- MATH3041 Mathematical Modelling (6 UOC)
- MATH3101 Computational Mathematics (6 UOC)
- MATH3121 Mathematical Methods (6 UOC)
- MATH3261 Atmosphere-Ocean Dynamics (6 UOC)
Strand 6 Mechanical Engineering
- MMAN2600 Fluid Mechanics (6 UOC)
- MMAN2700 Thermodynamics (6 UOC)
And choose from the following to complete the strand:
Strand 7 Chemical Engineering
Strand 8 Physics
- MATH2011 Several Variable Calculus (6 UOC)
- PHYS2040 Quantum Physics (3 UOC)
- PHYS2060 Thermal Physics (3 UOC)
And choose from the following to complete the strand:
Strand 9 Faculty of the Built Environment
And choose from the following to complete the strand:
BENV2901 - (Please note this is the only 3 UOC course available. It's not recommended for students starting a new Strand)
Professional Electives
Because of timetable clashes not all combinations or courses are possible
Professional Electives
Because of timetable clashes not all combinations or courses are possible
- MECH9620 Computational Fluid Dynamics (6 UOC)
- MECH9720 Solar Thermal Energy Design (6 UOC)
- SOLA5050 Renew Energy Pol & Int Prog (6 UOC)
- SOLA5051 Life Cycle Assessment (6 UOC)
- SOLA5052 Biomass (6 UOC)
- SOLA5053 Wind Energy Converters (6 UOC)
- SOLA5054 PV Stand-Alone Sys. Des.&Inst. (6 UOC)
- SOLA5055 Semiconductor Devices (6 UOC)
- SOLA5056 Sust.Energy Developing Country (6 UOC)
- SOLA5057 Energy Efficiency (6 UOC)
- SOLA5508 High Efficiency Sl Solar Cells (6 UOC)
- SOLA5509 PV Materials Processing (6 UOC)
The course SOLA5051 is offered every second year and will next run in 2011.
With the program authority’s permission, courses can also be chosen from amongst the electives offered by other schools provided appropriate prerequisite requirements have been satisfied and they conform to the credit point requirements.
With the program authority’s permission, courses can also be chosen from amongst the electives offered by other schools provided appropriate prerequisite requirements have been satisfied and they conform to the credit point requirements.
General Education Requirements
Please see Rules
Honours
Please see Rules
Academic Rules
Please see Rules
Fees
For information regarding fees for UNSW programs, please refer to the following website: https://my.unsw.edu.au/student/fees/FeesMainPage.html
Industrial Experience Requirements
Please see Rules