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Life cycle GHG emissions from Malaysian oil palm bioenergy development: The impact on transportation sector's energy security

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  • Hassan, Mohd Nor Azman
  • Jaramillo, Paulina
  • Griffin, W. Michael

Abstract

Malaysia's transportation sector accounts for 41% of the country's total energy use. The country is expected to become a net oil importer by the year 2011. To encourage renewable energy development and relieve the country's emerging oil dependence, in 2006 the government mandated blending 5% palm-oil biodiesel in petroleum diesel. Malaysia produced 16 million tonnes of palm oil in 2007, mainly for food use. This paper addresses maximizing bioenergy use from oil-palm to support Malaysia's energy initiative while minimizing greenhouse-gas emissions from land-use change. When converting primary and secondary forests to oil-palm plantations between 270-530 and 120-190Â g CO2-equivalent per MJ of biodiesel produced, respectively, is released. However, converting degraded lands results in the capture of between 23 and 85Â g CO2-equivalent per MJ of biodiesel produced. Using various combinations of land types, Malaysia could meet the 5% biodiesel target with a net GHG savings of about 1.03 million tonnes (4.9% of the transportation sector's diesel emissions) when accounting for the emissions savings from the diesel fuel displaced. These findings are used to recommend policies for mitigating GHG emissions impacts from the growth of palm oil use in the transportation sector.

Suggested Citation

  • Hassan, Mohd Nor Azman & Jaramillo, Paulina & Griffin, W. Michael, 2011. "Life cycle GHG emissions from Malaysian oil palm bioenergy development: The impact on transportation sector's energy security," Energy Policy, Elsevier, vol. 39(5), pages 2615-2625, May.
    • Handle: RePEc:eee:enepol:v:39:y:2011:i:5:p:2615-2625
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