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PROPOSAL For Energy Engineering MSc . Programme

PROPOSAL For Energy Engineering MSc . Programme. Group Members: Prof. Chandrabhan Sharma Mr. Hopeton Heron Prof. Michael Kraetzschmar Prof. Ishenkumba Kahwa Ms. Jonelle Peart. Learning outcomes:. Understand the use and application of the different sources of energy

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PROPOSAL For Energy Engineering MSc . Programme

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  1. PROPOSAL For Energy EngineeringMSc. Programme Group Members: Prof. Chandrabhan Sharma Mr. Hopeton Heron Prof. Michael Kraetzschmar Prof. IshenkumbaKahwa Ms. JonellePeart

  2. Learning outcomes: • Understand the use and application of the different sources of energy • Be able to Apply energy engineering techniques to country & environment • Be able to understand the Social & Environmental impacts • Be proficient in the application of Financial analysis techniques • Understand and apply carbon accounting tools & methodologies • Be proficient in Energy auditing • Have a firm grasp of Energy efficiency and its cost implications • Understand and apply the science of Asset (or Plant) management • Be aware of the Laws ( environment & country) as applied to Energy • Be capable to apply Energy optimization ( mathematical models)

  3. Entry requirements • Applicants shall possess a BSc. in Engineering or Natural Sciences from a recognised university.

  4. Course Structure • A total of nine taught courses, 4 credits each. (24 credits core courses and 12 credits electives) • Capstone project, 9 credits. • Total credits: 45 • Duration: 2 years (full time)

  5. Core Courses • Power Generation – Rankine & Brayton cycles and their application (4 credits). • Basics of Energy Engineering and Auditing- energy analysis and auditing , buildings & air-condition (or HVAC) design (4 credits). • Energy Efficient Design – related to buildings, the Leed Standard (4 credits). • Developing & Evaluating Proposals for Energy Systems – conventional & renewable (4 credits). • Economics & Finance as applied to Engineering (4 credits). • Research Methodologies (4 credits).

  6. Electives • Advanced and Renewable Energy Engineering – technologies in energy engineering & production (4 credits). • Management of Engineering Projects – advanced economics & project management techniques for large construction projects (4 credits). • Laws, International Conventions & Standards as applied to Engineering (4 credits). • Capstone project (9 credits)

  7. Thanks for your attention!

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