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Journal : Science Information System and Technology

The Role of Wind Power Plant in Energy Transition towards Net Zero Emission Judijanto, Loso; ZM, Ajub Ajulian; Winardi, Bambang; Joni, Joni
West Science Information System and Technology Vol. 3 No. 01 (2025): West Science Information System and Technology
Publisher : Westscience Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58812/wsist.v3i01.1847

Abstract

This literature review explores the role of wind power plants in the global transition towards zero emissions, synthesizing insights from 20 Scopus-indexed articles. The review highlights technological advancements in turbine design, offshore wind power, and energy storage solutions, which enhance wind power efficiency and reliability. It also examines the critical role of supportive policies, such as feed-in tariffs and power purchase agreements, in fostering wind energy growth. Environmental impacts, particularly regarding wildlife and ecosystem disruptions, are considered, alongside strategies to mitigate these effects. Furthermore, the economic viability of wind power is assessed, with a focus on cost reduction, job creation, and local economic development. Finally, the integration of wind power into existing energy grids is discussed, emphasizing the need for grid modernization and storage solutions. The review concludes that wind power is a central component of a zero-emissions energy system, though challenges remain in its widespread adoption and integration.
The Effect of Temperature and Weather Conditions on the Performance of Photovoltaic Modules in Tropical Indonesia ZM, Ajub Ajulian; Sinuraya, Enda Wista; Winardi, Bambang
West Science Information System and Technology Vol. 3 No. 01 (2025): West Science Information System and Technology
Publisher : Westscience Press

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58812/wsist.v3i01.1870

Abstract

This study explores the effect of temperature and weather conditions on the performance of photovoltaic (PV) modules in tropical Indonesia, utilizing a qualitative approach with interviews from five solar energy professionals. The research identifies key environmental factors such as high temperatures, humidity, and rainfall as significant influences on PV module efficiency. Participants noted that elevated temperatures reduce energy output by causing thermal losses, while high humidity and rainfall lead to dust accumulation and reduced sunlight exposure, further affecting efficiency. Additionally, challenges related to corrosion and dust accumulation were highlighted, particularly in coastal and inland regions. The study also suggests various strategies, including the use of anti-reflective coatings, cooling systems, and optimal panel placement, to mitigate these effects. Regional variations in climate necessitate site-specific maintenance and design strategies. This research provides important insights into optimizing PV system performance in tropical climates and emphasizes the need for tailored approaches in PV design and maintenance.