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Exploring acceptance on benefits of solar farm implementation in Malaysia. Implementation of solar farms to generate electricity is still low in Malaysia, where only 1%, or 227.5 MW of the total installed electrical capacity in Malaysia was produced from solar PV installations in 2016. Renewable energies, e.g. solar energy, have been adopted in many countries to generate electricity as a response to global environment issues. The aim of this study is to determine financial opportunities and benefits of solar farm implementation towards the society and the environment. Data were acquired through a literature review and questionnaire survey that was conducted among the respondents that are directly involved in the solar energy. Long-term financial savings constitute the most identified financial opportunities for the implementation of solar farms in generating clean electricity. Implementation of solar farms will encourage more businesses related to solar energy to be established in the country and will lead to new business opportunities. Solar farms are far better than conventional fossil fuel power plants in terms of the environmental effect and also reduce the health effects on the society during the electric generating process.
Rocznik
Tom
Strony
87--98
Opis fizyczny
Bibliogr. 21 poz., tab., wykr.
Twórcy
autor
- MARA Technological University (UiTM), College of Engineering, School of Civil Engineering, Malaysia
- MARA Technological University (UiTM), College of Engineering, School of Civil Engineering, Malaysia
- MARA Technological University (UiTM), College of Engineering, School of Civil Engineering, Malaysia
autor
- University of Technology Malaysia (UTM), Faculty of Engineering, School of Civil Engineering, Malaysia
autor
- Envirab Services, Malaysia
Bibliografia
- Ali, S. B. M., Hasanuzzaman, M., Rahim, N. A., Mamun, M. A. A. & Obaidellah, U. H. (2021). Analysis of energy consumption and potential energy savings of an institutional building in Malaysia. Alexandria Engineering Journal, 60 (1), 805-820.
- Alves, T., Machado, L., Souza, R. de & Wilde, P. (2018). Assessing the energy saving potential of an existing high-rise office building stock. Energy and Buildings, 173, 547-561.
- Economic Planning Unit, Prime Minister’s Department (2015). Eleventh Malaysia Plan, 2016-2020. Kuala Lumpur: Economic Planning Unit, Prime Minister’s Department.
- Economic Planning Unit, Prime Minister’s Department (2021). Twelfth Malaysia Plan, 2021-2025. Kuala Lumpur: Economic Planning Unit, Prime Minister’s Department.
- Hasanuzzaman, M., Zubir, U., Ilham, N. & Che, H. (2016). Global electricity demand, generation, grid system, and renewable energy polices: a review. Wiley Interdisciplinary Reviews: Energy and Environment, 6 (3), 222.
- Jeyhun, I. M., Shahriyar, M., Hasan, D., Serhat, Y. & Ridvan, A. (2020). Elasticity analysis of fossil energy sources for sustainable economies: A case of gasoline consumption in Turkey. Energies, 13 (3), 731.
- Jo, J., Ilves, K., Barth, T. & Leszczynski, E. (2017). Implementation of a large-scale solar photovoltaic system at a higher education institution in Illinois, USA. AIMS Energy, 5 (1), 54-62.
- Kobayashi, T., Kanematsu, H., Hashimoto, R., Morisato, K., Ohashi, N., Yamasaki, H. & Takamiya, S. (2013). Study on environment and energy using belonging materials. International Journal of Sustainable Development & World Policy, 2 (4), 50-58.
- Ma, Y. X. & Yu, C. (2020). Impact of meteorological factors on high-rise office building energy consumption in Hong Kong: from a spatiotemporal perspective. Energy and Buildings, 228, 110468.
- Martins, F., Felgueiras, C., Smitkova, M. & Caetano, N. (2019). Analysis of fossil fuel energy consumption and environmental impacts in European countries. Energies, 12 (6), 964.
- Mohammad, S., Zakaria, R., Omar, W., Abd Majid, M. Z., Saleh, A. L., Mustaffar, M., Zin, R. M. & Jainudin, N. (2013). Potential of solar farm development at UTM campus for generating green energy. Applied Mechanics and Materials, 479-480, 553-558.
- Payam, F. & Taheri, A. (2018). Challenge of fossil energy and importance of investment in clean energy in Iran. Journal of Energy Management and Technology, 2 (1), 1-8.
- Saidur, R., Hasanuzzaman, M., Yogeswaran, S., Mohammad, H. A. & Hossain, M. S. (2010). An end-use energy analysis in a Malaysian Public Hospital. Energy, 35 (12), 4780-4785.
- Saudi, M. H. M. (2019). The role of renewable, non-renewable energy consumption and technology innovation in testing Environmental Kuznets Curve in Malaysia. International Journal of Energy Economics and Policy, 9 (1), 299-307.
- Song, Y., Ji, Q., Du, Y. J., & Geng, J. B. (2019). The dynamic dependence of fossil energy, investor sentiment and renewable energy stock markets. Energy Economics, 84, 104564.
- Sustainable Energy Development Authority Malaysia [SEDA] (2009). National renewable energy policy and action plan. Kuala Lumpur: SEDA.
- Umar, M., Ji, X., Kirikkaleli, D. & Alola, A. (2021). The imperativeness of environmental quality in the United States transportation sector amidst biomass-fossil energy consumption and growth. Journal of Cleaner Production, 285, 124863.
- U.S. Energy Information Administration [EIA] (2018). World energy balances: overview. Retrieved from: https://webstore.iea.org/world-energy-balances-2018-overview [accessed 23.08.2022].
- U.S. Energy Information Administration [EIA] (2019). Southeast Asia Energy Outlook 2019. Retrieved from: https://www.iea.org/reports/southeast-asia-energy-outlook-2019 [accessed 23.08.2022].
- U.S. Energy Information Administration [EIA] (2020). Electricity information: overview. Retrieved from: https://www.iea.org/reports/electricity-information-overview [accessed 23.08.2022].
- U.S. Energy Information Administration [EIA] (2022). Electricity explained. Retrieved from: https://www.eia.gov/energyexplained/electricity/electricity-and-the-environment.php [accessed 23.08.2022].
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-368476ac-2ef0-4c17-b437-90c77419e501