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Tytuł artykułu

Impact Analysis of Renewable Energy based Generation in West Africa – A case study of Nigeria

Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Analiza produkcji opartej na odnawialnych źródłach energii w Afryce Zachodniej – studium przypadku Nigerii
Języki publikacji
EN
Abstrakty
EN
The limited supply of fossil fuels, constant rise in the demand of energy and the importance of reducing greenhouse emissions has brought about the adoption of renewable energy sources for generation of electrical power. In this paper, the impact of renewable energy generation in Nigeria is explored. A review of renewable deposits in Nigeria with a focus on Solar, Biomass, Hydropower, Pumped Storage Hydro and Ocean energy is detailed. The impact of renewable energy-based generation is assessed from three different dimensions: Economic Impact, Social Impact and Environmental Impact. In accessing economic impact; the conditions are employment and job creation, gross domestic product (GDP) growth and increase in local research and development. To analyze the social impact; renewable energy education, renewable energy businesses, ministries and institutes, renewable energy projects and investments as well as specific solar and wind projects across Nigeria were considered. Also, environmental issues were discussed. Similarly, policy imperatives for renewable energy generation in Nigeria was provided. This paper would be useful in accessing the successes Nigeria has experienced so far in the area of sustainable development and the next steps to achieving universal energy for all in Nigeria in 2030.
PL
Ograniczona podaż paliw kopalnych, stały wzrost zapotrzebowania na energię oraz konieczność ograniczenia emisji gazów cieplarnianych pociągnęły za sobą konieczność stosowania odnawialnych źródeł energii do wytwarzania energii elektrycznej. W artykule zbadano wpływ wytwarzania energii odnawialnej w Nigerii. Szczegółowy przegląd zasobów energii odnawialnej w Nigerii, ze szczególnym uwzględnieniem energii słonecznej, biomasy, energii wodnej i elektrowni szczytowo-pompowych i energii oceanicznej. Produkcja energii ze źródeł odnawialnych została przeanalizowana w trzech różnych wymiarach: wpływ na gospodarkę, wpływ na społeczeństwo i wpływ na środowisko. W aspekcie wpływu na gospodarkę wzięto pod uwagę: zatrudnienie i tworzenie miejsc pracy, wzrost produktu krajowego brutto (PKB) oraz wzrost lokalnych badań i rozwój. Analiza wpływu społecznego objęła: edukację w zakresie energii odnawialnej, przedsiębiorstwa, ministerstwa i instytuty zajmujące się energią odnawialną, projekty i inwestycje w zakresie energii odnawialnej, a także konkretne projekty dotyczące energii słonecznej i wiatrowej w całej Nigerii. Omówiono również kwestie środowiskowe. W podobny sposób przedstawiono imperatywy polityczne dotyczące wytwarzania energii odnawialnej w Nigerii. Ten artykuł wskazuje na istotny dla Nigerii cel zrównoważonego rozwoju, jakim jest odnawialna energia dla wszystkich. Celem jest osiągnięcie w tym kraju powszechnej odnawialnej energii dla wszystkich w 2030 r.
Czasopismo
Rocznik
Strony
67--78
Opis fizyczny
Bibliogr. 44 poz., fig., tab.
Twórcy
  • Covenant University, Canaanland, Nigeria
autor
  • Atilim University, Ankara, Turkey
  • Kaunas University of Technology, Kaunas, Lithuania
Bibliografia
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  • 5. CHIYEMBEKEZO S.K., CUTHBERT Z.K., TORBJORN K.N., 2012, Energy Potential of SmallScale Hydropower for Electricity Generation in SubSaharan Africa, in: International Scholarly Research Network.
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  • 9. DIOHA M. O., EMODI N.V., MATHEW M., DIOHA E.C., 2018, Techno-economic feasibility of domestic solar water heating system in Nigeria, Paper presented at the 2018 International Conference on Power Energy, Environment and Intelligent Control (PEEIC).
  • 10. EMODI N.V., BOO K.-J., 2015, Sustainable energy development in Nigeria: Current status and policy options, in: Renewable and Sustainable Energy Reviews, 51, p. 356-381, DOI: 10.1016/j.rser.2015.06.016.
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  • 14. JAYESH D.S., ARUN K.D., PATIL P.N., SHAILENDRA K.D., 2013, Small Pumped Storage Hydro Power Plant – A Feasibility Study for MIDC Dhule, Maharashtra, in: Global Journal of Researches in Engineering Electrical and Electronics Engineering, 13(12).
  • 15. JOHN T.M., UCHEAGA E.G., BADEJO J.A., ATAYERO A.A., 2018, Is There a Link between Air Pollution and Economic Growth?, Paper presented at the Proceedings – 2017 International Conference on Computational Science and Computational Intelligence, CSCI 2017.
  • 16. JOHN T.M., UCHEAGA E.G., OLOWO O.O., BADEJO J. A., ATAYERO A.A., 2017, Towards building smart energy systems in sub-Saharan Africa: A conceptual analytics of electric power consumption, Paper presented at the FTC 2016 – Proceedings of Future Technologies Conference.
  • 17. KARKEZI S., McDADE S., BOARDMAN B., KIMANI J., 2012, Energy, poverty, and development, in: Global Energy Assessment – Toward a Sustainable Future, eds. Johansson C., Pathwardhan T.B., Nakicenovic N., GomezEcheverri L., Cambridge University Press, Cambridge, United Kingdom and New York.
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  • 19. MANDELLI S., MEREU R., 2013, Distributed generation for access to electricity: 'Off-main-grid' systems from home-based to microgrid, in: Renewable energy for unleashing sustainable development, Springer, eds. Colombo E. Bologna S., Masera D., p. 75-97.
  • 20. MANOHAR K., ADEYANJU A.A., 2009, Hydro Power Energy Resources in Nigeria, in: Journal of Engineering and Applied Sciences, 4(1), p. 68-73.
  • 21. MAS’UD, A.A., VERNYUY W. A., MUHAMMAD-SUKKI A., MAS’UD F., MUNIR I.A., MD YUNUS N., 2015, An assessment of renewable energy readiness in Africa: Case study of Nigeria and Cameroon, in: Renewable and Sustainable Energy Reviews, 51, p. 775-784, DOI: 10.1016/j.rser.2015.06.045.
  • 22. MOSS T., BAZILIAN M., 2018,Signalling, governance, and goals: Reorienting the United States Power Africa initiative, in: Energy Research & Social Science, 39, p. 74-77.
  • 23. MURENZI J. P., USTUN T.S., 2015,. The case for microgrids in electrifying Sub-Saharan Africa, Paper presented at the Renewable Energy Congress (IREC), 2015 6th International.
  • 24. OKEWU E., 2017, Model-Driven Engineering and Creative Arts Approach to Designing Climate Change Response System for Rural Africa: A Case Study of Adum-Aiona Community in Nigeria, in: Problemy Ekorozwoju/ Problems Of Sustainable Development, 12(1), p. 101-116.
  • 25. OKEWU E., MISRA S., FERNANDEZ S.L., AYENI F., MBARIKA V., DAMASEVICIUS R, 2019, Deep Neural Networks for Curbing Climate ChangeInduced Farmers-Herdsmen Clashes in a Sustainable Social Inclusion Initiative, in: Problemy Ekorozwoju/ Problems Of Sustainable Development, 14(2), p. 143-155.
  • 26. OKEWU E., MISRA S., FERNANDEZ S.L., MASKELIUNAS R., DAMASEVICIUS R, 2018, An e-environment system for socio-economic sustainability and national security, in: Problemy Ekorozwoju/ Problems Of Sustainable Development, 13(1), p. 121-132.
  • 27. OKOYE O. C., BAKER D.K., 2015, Solar energy potentials in strategically located cities in Nigeria: Review, resource assessment and PV system design, in: Renewable and Sustainable Energy Reviews, 55, p. 550-566.
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  • 31. Power People Planet, 2015, Seizing Africa's Energy and Climate Opportunities, in: Africa Progress Report 2015, https://reliefweb.int/report/world/afric a-progress-report-2015-power-people-planet-seizing -africas-energy-and-climate.
  • 32. RAINER Q., S. R., JACOBS D., BAYER B., El MOSTAFA E.J., WAWERU Y., MATSCHOSS Y,, atschoss, 2016, The Future of Africa's Energy Supply: Potentials and Development Options for Renewable Energy, Potsdam.
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  • 35. SAMBO A., 2008, Matching electricity supply with demand in Nigeria, in: International Association of Energy Economics, 4, p. 32-36.
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  • 40. THOMAS C.T., OGUNGUNBIYI O., AKOREDE M.F., YAHAYA B., ALABI, K.O., OLUFEAGBA B.J., 2019, Evaluation of Failure and Repair of the Jebba and the Shiroro Hydroelectric Power Stations, in: Journal of Failure Analysis and Prevention, 19(2), p. 488-495, DOI: 0.1007/s11668-019-00624-y.
  • 41. TORRES O., 2011, Life Cycle Assessment of a Pumped Storage Power Plant., in: NTNU open.
  • 42. WORLD BANK Indicators, 2020, Population, Total, https://data.worldbank.org/indicator/SP.POP.TOTL.
  • 43. XUE S., SONG J., WANG X., SHANG Z., SHENG C., LI C., LIU, J. 2020). A systematic comparison of biogas development and related policies between China and Europe and corresponding insights. Renewable and Sustainable Energy Reviews, 117, 109474.
  • 44. ZAHND A., STAMBAUGH M., JACKSON D., GROSS T., HUGI C., STURDIVANT R., SHARMA S., 2018, Modular Pico-hydropower System for Remote Himalayan Villages, in: Transition Towards 100% Renewable Energy, Springer, p. 491-499.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a148ee4e-c4cb-499a-8d56-8c6240d7ac23
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