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Food, fibre and pharmaceuticals from animals
REVIEW

Opportunities and challenges of converting biogas from pig farms into renewable energy in developing countries in Asia – a Malaysian experience

J. B Liang A D , S. Suzuki B , A. Kawamura B , A. Habasaki C and T. Kato C
+ Author Affiliations
- Author Affiliations

A Institute of Bioscience, University Putra Malaysia, 43400 UPM Serdang, Malaysia.

B EX Corporation, 17-22, Takada 2 chome, Toshima-ku, Tokyo 171-0033, Japan.

C Takenaka Corporation, 1-1-1 Shinsuna, Koto-ku, Tokyo 136-0075, Japan.

D Corresponding author. Email: jbliang@ibs.upm.edu.my

Australian Journal of Experimental Agriculture 48(2) 54-59 https://doi.org/10.1071/EA07200
Submitted: 7 July 2007  Accepted: 19 November 2007   Published: 2 January 2008

Abstract

To meet the rapid and increased demand for animal protein, intensive poultry and livestock farming units are growing quickly in many developing countries in Asia. To access the markets, such production units are primarily located in peri-urban areas where available land for manure treatment and/or recycling back to the soil is limited, thus leading to serious environmental pollution. Although poultry manure from these farms is readily used as organic fertiliser for the production of cash crops, pig manure is usually washed and discharged, with or without treatment, into nearby streams and rivers. Efficient treatment of wastewater from pig farms with limited land is very expensive as it normally requires some degree of artificial aeration. Although it has long been proven that the biogas produced from the anaerobic lagoons can be converted to reusable fuel for heating and/or the generation of electricity for the farm, the technology has not been well received by farmers because they have easy access to other cheap energy sources. However, due to the opportunity of gaining extra monetary return from carbon credit trading under the initiative of the Kyoto Protocol, many pig farmers are beginning to show interest in this technology. From a recent feasibility study conducted in Malaysia to assess the technical and economic viabilities of converting biogas from pig farms into electricity, the following challenges were identified: (i) the organic content of the wastewater generated from the pig farm was far below that required for the efficient production of biogas; (ii) the high costs required for the modification of the existing farm infrastructures and additional equipment made the project economically unattractive; (iii) the potential amount of electricity generated from such a project does not match the daily fluctuating electricity demand on-farm; (iv) current governmental policies and infrastructural supports to buy back the extra electricity generated from such a project are inadequate; (v) the misconception by farmers that recovery of biogas from an anaerobic lagoon will enhance the efficiency of wastewater treatment and thus improve the quality of their wastewater at endpoint to meet the governmental requirements for discharge; and (vi) the quantum sharing of the carbon fund by farmers and the carbon credit trading company.

Additional keyword: pig waste treatment.


References


Burton CH , Turner C (2003) Anaerobic treatment options for animal manures. In ‘Manure management–treatment strategies for sustainable agriculture’. 2nd edn. (Eds JAF Beck, J Martinez, W Martens, O Pahl, S Piccinini, I Svoboda) pp. 273–320. (Silsoe Research Institute: Bedford, UK)

Liang JB (2000) Environmental challenges to intensive animal production in tropical Asia. In ‘Proceedings of the 2nd national pig environmental conference, 28–29 June 2000’. pp. 5–9. (University of Queensland Press: Gatton)

Ong HK (2002) Livestock waste management in Southeast Asia. In ‘Proceedings of the 4th international livestock waste management symposium, Penang, Malaysia, 19–23 May 2002’. pp. 59–67.

Ong HK , Suhaimi M , Yusoff AM (2005) Assessment of greenhouse gas emission from waste treatment facilities in a pig farming area. In ‘Working papers of the 2nd international conference on greenhouse gases and animal agriculture, GGAA2005. 20–24 September, 2005’. pp. 51–54. (ETH: Zurich Switzerland)

Soon HY (2005) CDM potential in Malaysia. Paper presented at 2nd regional workshop on exploring cooperation in CDM implementation in ASEAN, 23–24 February 2005, Kuala Lumpur.

Tee TP , Liang JB , Chew ES , Jelan ZA , Log TC , Loganatahn P (2002) Mapping waste distribution in intensive pig production areas using GIS. In ‘Proceedings of the 4th international livestock waste management symposium, Penang, Malaysia, 19–23 May 2002’. pp. 85–90.

Teoh SS, Taiganides EP, Yap TC (1988) Engineering design parameters of waste from pig farms in Malaysia. Biological Waste 24, 95–104.
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