Title Life cycle impact assessment on electricity production from biomass power plant system through Life Cycle Assessment (LCA) method using biomass from palm oil mill in Indonesia
Authors Siregar, Kiman ; Luthfi Machsun, Achmadin ; Sholihati, Sholihati ; Alamsyah, Rizal ; Ichwana, Ichwana ; Christian Siregar, Nobel ; Syafriandi, Syafriandi ; Sofiah, Intan ; Miharza, Try ; Muhammad Nur, Syukri ; Anne, Olga ; Hendroko Setyobudi, Roy
DOI 10.1051/e3sconf/202018800018
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Is Part of E3S web of conferences: 4th International Conference on Electrical Systems, Technology and Information (ICESTI 2019) : Bali, Indonesia, October 24-27, 2019.. Ulis : EDP Sciences. 2020, vol. 188, art. no. 00018, p. 1-11.. ISSN 2555-0403. eISSN 2267-1242
Keywords [eng] greenhouse gas ; gasification technology ; renewable energy ; waste to electricity
Abstract [eng] New energy and renewable widely available in Indonesia. One of them is the biomass that can be used with gasification technology. Biomass is an organic matter to which derived from biological materials. This research was used integration gasification system with a gas engine, which works more properly with CO, and H2. The advantage of this biomass power plant compared the environmental impact on other types of plants such as coal-fired power plants, diesel power plants, etc. Therefore the potential of environmental impacts was generated, it is necessary to calculate quantitatively through the life cycle assessment methods. This research aimed to calculate impact assessment on electricity production from a Biomass Power Plant system through a life cycle assessment with boundary cradle to grave in Indonesia. The study revealed that greenhouse gas (GHG) emission of electricity production from an empty fruit bunch palm oil mill was 0.15 kg CO2-eq kWh–1. The gas engine was the highest GHG emission contributor during its life cycle. Empty fruit bunch as a source of biomass for electricity production was considered as climate-friendly power plant system due to its potential in reducing GHG emission from palm oil production and released lower GHG emission.
Published Ulis : EDP Sciences
Type Conference paper
Language English
Publication date 2020
CC license CC license description