Renewable energy and greenhouse gases emission reduction potential of biogas from palm oil mill effluent
Document Type
Article
Publication Date
9-1-2024
Abstract
Emissions of biogas from palm oil mill effluent (POME) via anaerobic digestion is a greenhouse gas (GHG) that can be mitigated by capturing and utilising as renewable energy (RE). Huge energy potential of biogas has been reported, but none has specifically explored this potential based on actual scenario of mills equipped with biogas plants in the Malaysian palm oil industry. This study analyses the potential of biogas from POME for RE and GHG emissions reduction from two scenarios: Overall (nationwide) and mills having biogas plants. The overall potential of biogas volume, electricity generation and bio-compressed natural gas (Bio-CNG) production from all palm oil mills in 2021 were estimated at 1648 million m3, 508 MW and 988 million m3 Bio-CNG, respectively. With 135 mills having biogas capturing facilities, 33% of the country's overall potential energy from POME could be harnessed and utilised to potentially mitigate 4.96 million tonnes CO2eq GHG annually. The study indicated that electricity generation is the major use of biogas in the country, particularly for grid connection. Activities of biogas capture and utilisation have thus demonstrated a feasible approach in addressing sustainable issue of the palm oil industry, which contribute to RE and GHG reduction targets in Malaysia.
Keywords
Bio-compressed natural gas, Biogas utilisation, Electricity, Palm oil, Sustainability
Divisions
sch_che,ocean
Funders
Universiti Malaya
Publication Title
Journal of Oil Palm Research
Volume
36
Issue
3
Publisher
Malaysian Palm Oil Board
Publisher Location
PO BOX 10620, KUALA LUMPUR, 50720, MALAYSIA