Solar Engineering

After admission has been granted, a selection of the courses below will allow students to complete a certificate, diploma or advanced diploma. A minimum of ten subjects are required for a certificate, for a diploma at least twenty subject and advanced diploma a minimum of thirty subjects are required. In most cases, completing between thirty to fourty subjects will give students all the academic equivalency to apply for credit transfer into a degree program provided they have the correct subject balance at the lower and upper degree levels. In some cases the completion of a thesis/will be a requirement also at the bachelor degree level. It is a specific requirement for master and doctoral degrees. Details will be provided as well as instructions to write your research work.

AWARD: CERTIFICATE

Please select any ten subjects from the list below

AWARD: DIPLOMA

In addition to the certificate (ten subjects minimum), please select any ten subjects from the list below

AWARD: ADVANCED DIPLOMA

In addition to the certificate and diploma (20 subjects minimum), please select any ten subjects from the list below

Mathematics 1A

Introduction to Electrical Engineering

Professional Skills

Introduction to Electronics

Mathematics 1B

Statics and Dynamics

Introduction to Computer Engineering

Product Development

Strength of Materials

Principles of Management

Electronics 2

Mathematics 2A

Electronic Systems Technology

Electrical Power

Microprocessors and Microcontrollers

Introduction to Solar Engineering

Signals and Systems

Electromagnatics

Design in Electrical Technology

Team Management

Physics of Solar Engineering

Fuel Cell Principles and Design

Solar Thermal Conversion

Harnessing Solar Heat

Solar Collectors, Panels Theory and Design

Project Management, Team Working and Leadership

Thin Film Solar Cells

Organic Solar Cells

Solar Thermal and Biomass Energy Systems

Modelling and Control of Sustainable Power System

Solar Energy Sciences and Applications

Engineering Economics

Power Grid Design for Renewable Energy Systems

Electrochemical Power Sources

Battery Storage Systems and Design

Inverter Design AC-DC Systems

Large Energy Storage Systems

Energy Research Development

Optimum Design of Renewable Energy Systems

Solar Energy Application, Economics and Public Perception

Solar Economy

Safety, Risk and Reliability Management

Quality Management for Engineers

Management for Engineers

Skills

Posted on

January 25, 2017

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