| Course code | Course Name |
Course Purpose / Overview |
Core or Elective |
| ACE 612 | Solar Photovoltaics and Wind Technologies |
This course equips the students with the needed skills to design solar PV and Wind technologies. Topics covered include: Solar photovoltaic and wind energy system designs; PV system sizing, system configurations, stand-alone and grid-tied systems, standard test conditions (STC), Design considerations for standalone and grid-tied wind generator farms. Mini-grid installation, and feed-in metering. | Core |
| ACE 614 | Bioenergy Engineering | This course deepens the understanding of the students on the concepts of Bioenergy engineering. Topics covered include: Principles and processing methods involved in bioenergy production, Characterization of the properties of biomass, biofuels from biomass conversion processes, Introduction to thermochemical, biochemical, and mechanical conversion processes, Management of biomass process wastes. |
Core |
| ACE 616 | Hydropower and Geothermal Energy Technologies |
This course equips the students with the needed skills to design and analyze hydropower and Geothermal technologies. Topics covered include: Hydroenergy and Geothermal types, elements of hydropower and Geothermal plants and auxilliaries, Hydroelectricity generating plant design considerations (environmental, infrastructure, input/output power, etc), design of dams for hydropower generation, analysis of water turbines and hydroelectric generators. |
Core |
| ACE 618 | Solar Thermal Engineering |
It deepens the students understanding on Solar thermal engineering. Topics covered include: Basic components and operations of a solar thermal system- absorbers, collectors, thermal stores, pump, and expansion vessels. Solar Thermal applications in agriculture, heating processes and refrigeration. Hybrid Solar PV/thermal systems. Performance evaluation of Solar thermal systems. |
Core |
| ACE 620 | Energy Conversion and Storage Processes |
The student is taught Energy conversion and storage processes. Topics to be covered include: conventional energy sources, review of basic concepts of thermodynamic cycles, chemical reactions and combustion processes, Energy storage techniques-thermal, mechanical, electrical, chemical, electromechanical and hydrogen energy. Hydrogen and hydrogen fuel cells and their applications. Batteries; advances in high-power density batteries, Lithium iron and Liquid-metal batteries. |
Core |
| ACE 615 (TEA-LP1) | Local Solutions to Energy Access |
This course aims to provide the student with the skills and knowledge to analyse the regional DRE sector, to assess its challenges and to offer potential solutions. The topics covered includes: Entrepreneurship opportunities, Finance for the DRE sector, Policy & Regulation – best practices, productive uses, community engagement, Environmental Stewardship (eWaste solutions, etc), global/ regional solutions – best practices, future options; grid integration – DRE |
Core (New TEA-LP Course) |
| ACE 610 (TEA-LP2) | Design and Operations of Minigrids |
This course wiil provide the student with the skills and knowledge to contribute to the off-grid appliances sector, to assess its challenges and to offer potential solutions. The topics covered are : Business models: demand creation, productive use, financing; Mini-grid management; Best practices for Mini-grid regulation & policy; Generation and Storage options; Demand assessment and community engagement; DC technology, demand creation, financing; Smart mini-grid benefits: peer to peer democratisation, digitalisation; Future options for Grid integration. |
Core (New TEA-LP Course) |
