Study of Carbon Emissions in the Use of Fossil and Renewable Energy to Respond to the Urgency of a Sustainable Energy Transition in Indonesia’s Group of Twenty (G20) Presidency: A Short Communication

Wahyono, Yoyon; Irviandi, Risnu; Gilbran, Adam; Parlaungan Panggabean, Lambas; Ridlo, Rohmadi; Sundari, S.; Dewi Suryaningtyas, Anissa; Lomak Prihatin, Anggara; Dwi Novianti, Endah; Citrawati Lestari, Mutia; Anisah, A.; Kumalasari, Isnaeni; Zasyana Eka Putri, Virny; Raihan Farras Hakim, Muhammad; Ariyanto, Novy; Habibah Nurauliyaa, Aida; Alex Fadhly, Muhammad; Prastianto Setiawan, Risqi; Fahrurrozy Indriawan, Muhammad

doi:10.1051/e3sconf/202451903007

E3S Web Conf.

2024

DOI: 10.1051/e3sconf/202451903007

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Study of Carbon Emissions in the Use of Fossil and Renewable Energy to Respond to the Urgency of a Sustainable Energy Transition in Indonesia’s Group of Twenty (G20) Presidency: A Short Communication

Yoyon Wahyono,

Risnu Irviandi,

Adam Gilbran

et al.

Abstract: The energy industry is responsible for about 90% of carbon dioxide (CO2) emissions on a worldwide scale, making it the primary contributor to climate change. The Group of Twenty (G20) members are making substantial endeavors to accomplish a sustainable energy transition primarily due to the imperative of addressing climate change. The observable consequences of global climate change on many aspects of life include the disappearance of ice in the Arctic, the increase in sea levels, and the persistence of extend… Show more

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Environmental impact assessment of manufacturing seawater desalination technology using life cycle assessment

Putri,

Wahyono,

Ariyanto

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

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The seawater desalination technology, named WEFO (Water with Electrolysis, Filtration, and Ozonation), holds significant potential for addressing clean water scarcity in coastal areas. This study employs Life Cycle Assessment (LCA) to evaluate the environmental impact of producing the WEFO device. The LCA results indicate notable environmental impacts, mostly attributable to using stainless steel and aluminum alloy. Stainless steel contributes 72.81% to abiotic depletion, 85.54% to acidification, 47.64% to eutrophication, 79.87% to freshwater ecotoxicity, 81.05% to terrestrial ecotoxicity, and 81.40% to photochemical oxidation. Meanwhile, aluminum alloy is responsible for 57.48% of global warming and 64.10% of ozone layer depletion. The manufacturing process of these materials emits pollutants that damage air and water quality and contributes to climate change and ecosystem disturbance. To mitigate these impacts, it is advisable to decrease the utilization of materials with significant environmental consequences in components such as wheel plates, faucets, and frames, replacing them with more environmentally friendly alternatives. Implementing these alternatives is expected to make WEFO technology more sustainable and provide an environmentally friendly solution to clean water scarcity in coastal areas while preserving human and ecosystem health.

show abstract

Environmental impact assessment of manufacturing seawater desalination technology using life cycle assessment

Putri,

Wahyono,

Ariyanto

et al. 2024

IOP Conf. Ser.: Earth Environ. Sci.

View full text Add to dashboard Cite

show abstract

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Study of Carbon Emissions in the Use of Fossil and Renewable Energy to Respond to the Urgency of a Sustainable Energy Transition in Indonesia’s Group of Twenty (G20) Presidency: A Short Communication

Cited by 1 publication

References 18 publications

Environmental impact assessment of manufacturing seawater desalination technology using life cycle assessment

Environmental impact assessment of manufacturing seawater desalination technology using life cycle assessment

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