Abstract
With a growing global population and energy demand, there is increasing concern about the world’s reliance on fossil fuels, which have a negative impact on the climate, necessitating the immediate transition to a cleaner energy resource. This effort can be initiated in the rural areas of developing countries for a sustainable, efficient and affordable energy source. This study evaluated four types of renewable energy (solar, wind, biomass, and mini-hydro energy) using the integrated Life Cycle Assessment (LCA) and Analytical Hierarchy Process (AHP) approaches to select the best renewable energy source in Tatau, Sarawak. The criteria under consideration in this study included the environment, engineering and economics. The LCA was used to assess the environmental impact of renewable energies from gate-to-grave boundaries based on 50 MJ/day of electricity generation. The AHP results showed that solar energy received the highest score of 0.299 in terms of the evaluated criteria, followed by mini-hydro, biomass and wind energy, which received scores of 0.271, 0.230 and 0.200, respectively. These findings can be used to develop a systematic procedure for determining the best form of renewable energy for rural areas. This approach could be vital for the authorities that are responsible for breaking down multi-perspective criteria for future decision making in the transition into renewable energy.
Highlights
Petroleum crude oil and natural gas are the main energy sources in Malaysia [1]
The integrated Life Cycle Assessment (LCA)-Analytical Hierarchy Process (AHP) approach was successfully applied to determine the best type of renewable energy for the rural area of Tatau, Sarawak
Solar energy had the greatest impact in terms of both global warming potential (GWP) and acidification potential (AP), with 104 kg CO2 eq and 528 kg SO2 eq, respectively
Summary
The overall conventional fuel business, on the other hand, has deteriorated due to price instability, supply insufficiency, and the environmental damage it causes, thereby ushering us into the inevitable era of renewable energy [2]. The Malaysian government has set a target of 20% renewable energy, in terms of total electricity generation, by 2025 [3]. According to Abdullah et al [4], Malaysia has a wide range of opportunities and potential for focusing on renewable energy, solar, wind, hydro, biogas and biomass. Realizing this potential would necessitate an immense effort from the government in terms of providing incentives as well as developing and implementing systemically effective policies
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