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Modelling and management of smart microgrid for rural electrification in sub-saharan Africa: The case of Nigeria |
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| Authors: | Eunice C Nnaji Donald Adgidzi Michael O Dioha Daniel RE Ewim Zhongjie Huan |
| Affiliation: | 1. Department of Sustainable Energy Systems, College of Science & Engineering, University of Edinburgh, Edinburgh, EH9 3JY, United Kingdom;2. Department of Environmental & Agricultural Engineering, College of Engineering, Federal University of Agriculture, Makurdi, P.M.B, 2373, Makurdi, Benue State, Nigeria;3. Department of Energy & Environment, TERI School of Advanced Studies, 10 Institutional Area, Vasant kunj, New Delhi, 110070, India;4. Department of Mechanical Engineering, Mechatronics and Industrial Design, Tshwane University of Technology, Private Bag X860, Pretoria, 0001, South Africa;5. Nigeria Atomic Energy Commission, 9 Kwame Nkrumah Crescent, 900231, Asokoro, Nigeria |
| Abstract: | Access to electricity is still a challenge in many parts of sub-Saharan Africa. In Nigeria, over 70% of the rural dwellers do not have access to electricity. The purpose of this paper is to examine the potential of a smart microgrid for off-grid rural electrification in Nigeria. A combination of design thinking and model-based design methodology is employed to select a suitable microgrid configuration and to develop a smart microgrid model. A system consisting of a solar photovoltaic array, battery energy storage and a diesel generator is selected, and the model is developed in Simulink. Demand data from 10 rural communities in Nigeria are used to validate the performance of the model and the potential for demand management is considered. The use of energy efficient light bulbs is found to reduce the peak electricity demand of the case study communities by 42 to 76%. Combining the proposed system with the use of LED bulbs makes the system to have 56 to 81% less net present cost than a system with a diesel generator alone and incandescent light bulbs. The proposed smart microgrid is found to be more suitable for off-grid rural electrification in Nigeria than diesel generators which are currently used for off-grid electrification in Nigeria. |
| Keywords: | Corresponding authors at: Nigeria Atomic Energy Commission 9 Kwame Nkrumah Crescent 900231 Asokoro Nigeria AC alternating current AMI advanced metering infrastructure CAES compressed air energy storage CFL compact fluorescent lamp DC direct current DISCO distribution company DSN distributed Sensor Network EU European Union GHI global horizontal irradiance HOMER hybrid optimisation model for electric renewables ICT information and communication technology IDS intrusion detection systems IEA international energy agency kW kilowatts L litre LCOE levelized cost of electricity LEC levelized energy cost LED light emitting diodes LOLP loss of load probability Mtoe metric tonnes of oil equivalent MW megawatts NPC net present cost PHCN power holding company of nigeria PV photovoltaic RC-SHP regional centre for small hydro power in Africa REA rural electrification agency SOC State of charge of battery SSA sub-saharan Africa STC standard test condition UNIDO united nations industrial development organisation WSN wireless sensor network Energy access Off-grid rural electrification HOMER Simulink Nigeria |
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