Biogas Production Technology of Livestock Waste To Meet Household Energy Need
DOI:
https://doi.org/10.35450/jip.v6i01.55Keywords:
Cow Dung, Biogas, MethaneAbstract
Livestock waste can reduce the quality of the environment if not managed properly, on the other hand livestock waste can be processed into a source of energy that can be utilized by the household. Livestock waste is processed into biogas by anaerobic fermentation process. Biogas is one of renewable energy and environmentally friendly. Biogas energy can be obtained from household waste water; liquid waste from chicken, cow, pig farms; organic waste from the market; food industry and so on. To convert livestock wastes into biogas, a series of devices called biogas reactors are needed. The use of a biogas reactor system has the advantage of reducing greenhouse gases, reducing odor, preventing the spread of disease, heat, power (mechanical / electrical) and byproducts of solid and liquid fertilizers. Biogas reactors are divided into three types: floating type, fixed dome type, and balloon type. The recommended type of biogas reactor for biogas processing of livestock waste is fixed dome type reactors because it has advantages such as construction cost is cheaper than floating reactor, can be done by breeder, more durable than balloon type reactor, and easier maintenance.
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References
Bernard, C. W., and D. O. Hill. 1983. Energy from renewable resources. In : H. J. Rehm and G. Reed (Eds.). Biotechnology, vol. 3. Verlag Chemie, Wieinheim Deerfield, Florida. Basel.
Grady Jr. C.P.L., and H. C. Lim. 1980. Biological Wastewater Treatment, Theory and Applications. Marcel Dekker Inc. New York.
Marchaim, U. 1992. Biogas Processes for Sustainable Development Food and Agriculture Organization of the United Nations, Viale delle Terme di Caracalla, 00100 Rome, Italy.
Mc. Carty, P. L. 1964. Anaerobic waste treatment fundamentals III. J. Publ. Wks. 95: 91 – 94.
Nijaguna, B.T. 2002. Biogas Technology. New Age International (P) Ltd. New Delhi.
Syamsuddin, T.R. dan Iskandar, H.H. 2005. Bahan Bakar Alternatif Asal Ternak. Sinar Tani, Edisi 21-27 Desember 2005. No.3129 Tahun XXXVI.
Tim BIRU. 2010. Model Instalasi Biogas Indonesia. http://www.biru.or.id/index.php/download/7/model-instalasi-biogas-indonesia-panduan-konstruksi-biru.html.
Widodo, T.W. dan Nurhasanah, A. 2004. Kajian Teknis Teknologi Biogas dan Potensi Pengembangannya di Indonesia. Prosiding Seminar Nasional Mekanisasi Pertanian. Bogor, 5 Agustus 2004.
Widodo, T.W., Asari, A., Nurhasanah, A. and Rahmarestia, E. 2006. Biogas Technology Development for Small Scale Cattle Farm Level in Indonesia. International Seminar on Development in Biofuel Production and Biomass Technology. Jakarta, February 21-22, 2006 (Non-Presentation Paper).
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