Production of sorghum pellets for electricity generation in Indonesia: A life cycle assessment

The current study makes use of life cycle assessment to evaluate the potential greenhouse gas (GHG) savings in coal electricity generation by 5% co-firing with sorghum pellets. The research models the utilization of 100 thousand hectares of under-utilized marginal land in Flores (Indonesia) for biom...

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Veröffentlicht in:Biofuel research journal 2020-09, Vol.7 (3), p.1178-1194
Hauptverfasser: Wiloso, Edi Iswanto, Setiawan, Arief Ameir Rahman, Prasetia, Hafiizh, ‏‏‎ ‎, Muryanto, Wiloso, Adisa Ramadhan, ‏‏‎ ‎, Subyakto, Sudiana, I. Made, Lestari, Reni, Nugroho, Satya, Hermawan, Dede, Fang, Kai, Heijungs, Reinout
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Sprache:eng
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Zusammenfassung:The current study makes use of life cycle assessment to evaluate the potential greenhouse gas (GHG) savings in coal electricity generation by 5% co-firing with sorghum pellets. The research models the utilization of 100 thousand hectares of under-utilized marginal land in Flores (Indonesia) for biomass sorghum cultivation. Based on equivalent energy content, 1.12 tons of pellets can substitute one ton of coal. The calculated fossil energy ratio of the pellets was 5.8, indicating that the production of pellets for fuel is energetically feasible. Based on a biomass yield of 48 ton/ha·yr, 4.8 million tons of pellets can be produced annually. In comparison with a coal system, the combustion of only pellets to generate 8,300 GWh of electricity can reduce global warming impacts by 7.9 million tons of CO2-eq, which is equivalent to an 85% reduction in GHG emissions. However, these results changed when reduced biomass yield of 24 ton/ha·yr, biomass loss, field emissions, and incomplete combustion were considered in the model. A sensitivity analysis of the above factors showed that the potential GHG savings could decrease from the initially projected 85% to as low as 70%. Overall, the production of sorghum pellets in Flores and their utilization for electricity generation can significantly reduce the reliance on fossil fuels and contribute to climate change mitigation. Some limitations to these conclusions were also discussed herein. The results of this scenario study can assist the Indonesian government in exploring the potential utilization of marginal land for bioenergy development, both in Indonesia and beyond.
ISSN:2292-8782
2292-8782
DOI:10.18331/BRJ2020.7.3.2