The Potential Utilization of Oil Palm Production Waste at PT. Tata Hamparan Eka Persada

  • Debby Ramadhanti Universitas Bangka Belitung, Bangka, Indonesia
  • Muhammad Yonggi Puriza Universitas Bangka Belitung, Bangka, Indonesia
  • Wahri Sunanda Universitas Bangka Belitung, Bangka, Indonesia
DOI: https://doi.org/10.31258/ijeepse.6.1.99-104
Abstract viewed: 367 times
pdf downloaded: 278 times
Keywords: CO2 Emissions, Energy, Palm Oil Waste.

Abstract

Oil palm (Elaeis guineensis Jacq.) is one of the commodities that is expected to increase the economic income of the community, especially plantation farmers. The palm oil industry in Bangka district in 2020 is 41.88 thousand tons. The production process of crude palm oil produces waste that has the potential to pollute the environment, namely solid waste and liquid waste. Palm oil mill effluent (POME) contains methane gas (CH4) which has the potential to be a source of energy that can be processed into biogas and solid waste in the form of shells, fiber, EFB has the potential to become biomass. The results obtained from the calculation of the total power that can be generated for 2.5 years of liquid waste (POME) is 6.9462 MW in the category of high heat waste, followed by solid waste (TKS) of 1.4881 MW, fiber waste of 0.9864 MW and shell waste of 0.5646 MW. The total CO2 emissions generated from the generator for 2.5 years for solid waste are 73893.63 tons of CO2 in the category of high-heat waste, and for liquid waste, it is 65867.09 tons of CO2.

References

Statistics, BP (2019). Directory of Oil Palm Plantation Companies. Central Bureau of Statistics, 330 pages.

Welly Yandi, Sunanda, W., & Fitsa Alfazumi, N. Study on the Potential of Waste in Pangkalpinang as Source of Power Generation. International Journal of Electrical, Energy and Power System Engineering, 4(3), 196–199, 2021.

Minister of Energy and Mineral Resources of the Republic of Indonesia. PT PLN (Persero) Electricity Supply Business Plan (RUPTL) 2021-2030. Electricity Supply Business Plan 2021-2030, 2019-2028, 2021.

Wahyuni, S. No Title. In S. Nugroho (Ed.), Practical Guide to Biogas (Print Pe, p. 116). Self-Help Spreader, 2013.

Parinduri, L. Analysis of POME utilization as a source of biogas power plants in palm oil mills. Journal of Electrical Technology, 3(3), 180–183, 2016.

Nurika, I & Suhartini, S. No Title. In UB Press Team (Ed.), Bioenergy and Biorefinery (Print Pe, p. 186). UB Press, 2019.

M. Arief, L. No Title. In E. Risanto (Ed.), Industrial Waste Treatment Basics of Knowledge and Application in the Workplace (p. 234). ANDI OFFSET CV, 2016.

Firdausi, M. Potential of POME for Biogas Power Plant in Tanjung Jabung Barat Regency. 22(1), 1–6, 2020.

Dinata, A., Junaidi, & Kurniawan, E. Study on Utilization of Solid Waste Biomass from Palm Oil Mills (PKS) for Electrical Energy Generation. Journal of Mechanical Engineering, 2019.

Tajalli, A. Guide to the Assessment of Biomass Potential as an Alternative Energy Source in Indonesia (p. 37). Penabulu Alliance, 2015.

Wibawa, U. A Practical Approach to Generating New & Renewable Energy (W. Wiranata & I. Setyawan (ed.); print pe). UB Press, 2017.

THEP. Fresh Fruit Bunches Data, 2022.

Energy Efficiency of Biogas Production Fiqh Pertiwi et al Fiqh Pertiwi et al Energy Efficiency of Biogas Production. 42 Journal of Industrial Technology and Agricultural Products, University of Lampung, 19(1), 42–53.

Devita, W., Fauzi, AM, & Purwanto, YA. Analysis of the potential and development of the renewable energy industry based on agricultural waste biomass in Jambi province, 2018.

General of Electricity, Ministry of Energy and Mineral Resources, D., & Energy -Electricity Sub-Sector, B. Guidelines for Calculation and Reporting of Greenhouse Gas Inventories. 15, 2018.

Wibawa, U. A Practical Approach to Generating New & Renewable Energy (W. Wiranata & I. Setyawan (ed.); print pe). UB Press, 2017.

Published
2023-02-28
How to Cite
[1]
D. Ramadhanti, M. Y. Puriza, and W. Sunanda, “The Potential Utilization of Oil Palm Production Waste at PT. Tata Hamparan Eka Persada ”, IJEEPSE, vol. 6, no. 1, pp. 99-104, Feb. 2023.