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906761 
Journal Article 
Life cycle assessment of two palm oil production systems 
Stichnothe, H; Schuchardt, F 
2011 
Biomass and Bioenergy
ISSN: 0961-9534 
35 
3976-3984 
WOS:000294939100025 
In 2009 approx. 40 Mt of palm oil were produced globally. Growing demand for palm oil is driven by an increasing human population as well as subsidies for biodiesel and is likely to increase further in coming years. The production of 1 t crude palm oil requires 5 t of fresh fruit bunches (FFB). On average processing of 1 t FFB in palm oil mills generates 0.23 t empty fruit bunches (EFB) and 0.65 t palm oil mill effluents (POME) as residues. In this study it is assumed that land use change does not occur. In order to estimate the environmental impacts of palm oil production a worst and a best case scenario are assessed and compared in the present study using 1000 kg of FFB as functional unit. The production and treatment of one t FFB causes more than 460 kg CO2eq in the worst case scenario and 110 kg CO2eq in the best case scenario. The significant greenhouse gas (GHG) emission reduction is achieved by co-composting residues of the palm oil mill. Thus treating those residues appropriately is paramount for reducing environmental impacts particularly global warming potential (GWP) and eutrophication potential (EP). Another important contributor to the EP but also to the human toxicity potential (HTP) is the biomass powered combined heat and power (CHP) plant of palm oil mills. Frequently CHP plants of palm oil mills operate without flue gas cleaning. The CHP plant emits heavy metals and nitrogen oxides and these account for 93% of the HTP of the advanced palm oil production system, of which heavy metal emissions to air are responsible for 79%. The exact emission reduction potential from CHP plants could not be quantified due to existing data gaps, but it is apparent that cleaning the exhaust gas would reduce eutrophication, acidification and toxicity considerably. (C) 2011 Elsevier Ltd. All rights reserved. 
Greenhouse gases; Palm oil; Composting; Eutrophication; Toxicity 
IRIS
• Methanol (Non-Cancer)
Other
• Third Biofuels Report to Congress
     Included References
          20% to 30%
          20% to 30%
          Ch. 18 International environmental effects
          Ch. 19 Comparisons across environmental effects
          Future
          Primary biofuels