Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
8107117 | Journal of Cleaner Production | 2014 | 9 Pages |
Abstract
The research draws on field and experimental data from palm oil and biogas production in Sumatra, Indonesia. The findings show that the energy output from the conversion of POME to methane via anaerobic digestion and the subsequent combustion of the methane in a combined heat-power plant exceeds the energy consumption of the palm oil milling process. Treating POME in an anaerobic digester and using the biogas to generate electricity and heat has the potential to significantly reduce the GHG emissions of biodiesel production from palm oil. In the studied case, the energy output from the conversion of POME to electricity and heat is 0.44 MJ kgâ1 biodiesel and the net energy yield is 0.42 MJ kgâ1 biodiesel. The ratio of energy output to energy input of the conversion process is about 23.1. The potential reduction of GHG emissions is 658 g CO2-eq kgâ1 biodiesel or 15.96 g CO2-eq MJâ1. This is equivalent to about 33% of the total GHG emissions of biodiesel production from palm oil. Against this background we recommend to further develop and implement the treatment of POME in anaerobic digestion combined with the purposeful use of the methane, electricity and heat produced from the POME. This can make a significant contribution toward meeting international targets of emissions reduction for biodiesel production.
Keywords
CO2-eqFFBCPOLUCEFBGHGCH4GWPCHPGreenhouse gas emissionsBiodieselCombined Heat and PowerLand use changechemical oxygen demandEmpty fruit bunchesDAYcrude palm oilHouryearNet energy yieldPalm oil mill effluentMethaneCarbon dioxide equivalentsAnaerobic digestionhectareglobal warming potentialPOMEFresh fruit bunchesCodGreenhouse gasesGram
Related Topics
Physical Sciences and Engineering
Energy
Renewable Energy, Sustainability and the Environment
Authors
Soni Sisbudi Harsono, Philipp Grundmann, S. Soebronto,