Estimating of Photovoltaic Energy Saving Potential and Investment Energy Value in Malaysia based on GIS Technology

Abstract

Abstract Creating environmentally friendly energy schemes that are sustainable is critical as a solution to the economic, ecological, and societal influences related to the energy sector. It should be noted that buildings utilize up to forty percent of global energy consumption. Furthermore, by 2030, it is anticipated to reach fifty percent. As a result, the world faces a significant dilemma in overcoming such worldwide energy generation issues. Concerning primary energy consumption, Malaysia is among Asia’s largest consumers. Malaysia’s immediate energy use in 2018 was 3.79 quadrillion Btu, growing at a 4.58% annualized rate. This article thoroughly reviewed past studies of global energy usage, particularly in Malaysia, and how the geographical information system (GIS) methodologies were employed for spatial evaluation of energy efficacy. Undoubtedly, effective energy strategies are critical in energy policy, and they can be developed through the application of a variety of methods for energy conservation in building structures. The findings of this study indicate that some GIS methods, such as machine learning, deep learning and multiple criteria decision analysis, are mainly employed for calculating energy consumption, researching renewable energy sources, and analyzing solar radiation. The results also show that the fuzzy_AHP and fuzzy_DS techniques have a higher capability and reliability in identifying the most suitable sites for photovoltaic (PV) farms. Due to the generation of a 3D model exportable to software tools through this technique, the 3D models are deemed efficient for calculating solar radiation. Furthermore, GIS and 3D can assist with various tasks, including access to sunlight in built structures and environments in urban areas, urban growth prediction models, and the habitability of public spaces analysis.