Browsing by Author "Da Silva, I.P."
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- PublicationDiffusion of solar energy technologies in rural Africa: Trends in Kenya and the LUAV experience in UgandaDa Silva, I.P.; Batte, G; Ondraczek, J; Ronoh, G.; Ouma, C.A. ; Da Silva, IzaelThe diffusion of Modern Energy Technologies Africa has been found to be very low especially for solar energy systems. The installed solar PV capacity in Africa is a major issue of concern globally. This low trend in technology adoption is of interest because Africa enjoys some of the best solar radiation levels in the world averaging between 4 – 6 kWh/m2/day for most of the year. It was initially speculated that the low uptake of solar technology was associated with the continent’s high poverty levels and limitations in technical capacity as well as awareness; nevertheless, the introduction of Mobile Telephony Technology (MTT) has cast some doubt on those speculations due to the rapid assimilation and diffusion of the technology in several African countries. The paper elaborates on the approach taken by a successful MET business model known as the Lighting-up-a-village (LUAV), designed by an energy company, Barefoot Power (BFP), in Uganda. This model has been used to distribute micro solar home systems in rural Uganda and exhibited a rapid uptake rate that resulted in the establishment of 18 LUAV projects in a span of 12 months. Through the LUAV program, more than 3000 households took up the technology securing their own independent power generation hub. The success factors noted in the LUAV business model were identified and highlighted so as to present recommendations on the key factors that can possibly drive a rapid adoption of METs.
- PublicationImplementation of a solar test laboratory in sub-Sahara AfricaDa Silva, Izael; Da Silva, I.P.; Wassler, S.Penetration of decentralized power supply for households and commercial enterprises is low in Sub-Sahara Africa. Solar Home Systems (SHS), despite their widespread use in other continents have failed to attain much success in Africa. One of the reasons is the high rate of failure of existing implementations. Data shows earlier failure rates of 50 [1]. This is largely attributed to poor quality of products used, inefficient installation, mismanagement and lack of maintenance. To address this problem, the Centre for Research in Energy and Energy Conservation (CREEC) has set up a Solar PV test laboratory in Uganda. This paper describes the process used and how to sustain the laboratory after implementation. The lab is intended to provide a forum for training, research and consultancy under CREEC. It is intended as a tool to implement the triple helix and clusters procedure in the PV industry. This paper offers detail covering the current situation of the energy sector in Uganda and how the lab helps capacity building in the University to support the upcoming demand.