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dc.contributor.authorHarismah, Kun
dc.contributor.authorDa’i, Muhammad
dc.contributor.authorAsngad, Aminah
dc.contributor.authorSamlawi, Samlawi
dc.date.accessioned2013-01-16T06:02:23Z
dc.date.available2013-01-16T06:02:23Z
dc.date.issued2011-10
dc.identifier.citationAbdullah, K., 2009, Peningkatan Agribisnis di Perdesaan melalui Pemanfaatan Desa Mandiri Energi, Makalah Temu Nasional Desa Mandiri Energi, 23- 25 November 2009, Bandung. Anonim, 2007, DJLPE (Direktorat Jenderal Listrik dan Pemanfaatan Energi), Jakarta. Anonim, Kementerian Energi dan Sumber Daya Manusia, 2009, Jakarta. Asngad, A., Harismah, K., dan Suparti, 2003 Teknologi Pengolahan Tetes Tebu Menjadi Etanol 90% dengan Alat Distilasi Menara Sinambung, Laporan kegiatan PRIDA, Program Kementrian Negara Ristek. Asngad, A., Suparti, dan Harismah, K., 2008, Teknologi Pembuatan Bioetanol dari Tetes Tebu sebagai Bahan Gasohol dengan Alat Distilasi Menara Sinambung, Laporan Program Insentif Peningkatan Kapasitas Iptek Sistem Produksi- Ristek. Bafrncová, P.D.; Smogrovicová, I.; Sláviková, J.; Pátková, dan, Dömèny, Z. 1999, Improvement of very high gravity ethanol fermentation by media supplementation using Saccharomyces cereviciae. Biotechnol. Lett., 21, 337- 341 Jones, M.A. dan Ingledew, W.M., 1994, Fuel alcohol production: optimization of temperature for efficient very-high-gravity fermentation, Applied and environmental microbiology, 60, 3, 1048-1051 Harismah, K., Asngad, A., dan Suparti, 2001. Modifikasi Alat Distilasi Alkohol dengan Menara Isian Secara Berkesinambungan, Pendaftaran paten no: S00200100010. Harismah, K., Asngad, A., dan Suparti, 2004. Penerapan alat distilasi menara sinambung untuk meningkatkan produksi alkohol menjadi kadar 90% bagi pengrajin arak di Kecamatan Kradenan Purwodadi, Laporan kegiatan IPTEKDA LIPI. Kadiman, K., 2005, Biofuel: the alternative fuel for (vehicles in) the future, dipresentasikan pada the Gaikindo Conference, 12.07.2005, Jakarta. Khongsay, N.; Laopaiboon, L.; dan Laopaiboon, 2010, growth and batch fermentation of saccharomyces cerevisiae on sweet sorghum stem juice under normal and very high gravity conditions, Biotechnoogy, 2010, ISSN 1682-296X © 2010 Asian Network for Scientific Information. Laopaiboon, L., Thanonkeo, P., Jaisil, P., and Laopaiboon, P., 2007. Ethanol production from sweet shorgum juice in batch and fed-batch fermentations by Saccharomyces cereviciae, World J. Microbiol Bioethanol, 23 (10): 1497-1501. Laopaiboon, L., Nuanpeng, S., Srinophakun, P., Klanrit, P., and Laopaiboon, P., 2008. Selection of Saccharomyces cereviceae and Investigation of its Performance for Very High Gravity Ethanol Fermentation, Biotechnology 7 (3): 493-498. ISSN 1682-296X. Lissens, dkk., 2004, Biodegradation, 15, 173-183 Liu, PhD Thesis, Technische Universität Hamburg Harburg, 2000 Mulyanto, Widjaja, T., M. A, Hakim, dan Frastiawan, E., Produktivitas etanol dari Molases dengan Proses Fermentasi Kontinyu Menggunakan Zymomonas mobilis dengan Teknik Immobilisasi Sel K-Karaginan dalam BioreaktornPacked-bed, Prosiding seminar Nasional XIV- FTI, Institut Teknologi Surabaya, Surabaya. Sritrakul, N., P. Laoparboon., P. Danviruati and L. Laoparboon. 2007. Continuous Manggo Wine Fermentation in a Packed-bed Bioreactors Using Immobilized Yeasts, System Stability and Volatile by Products. Thai Journal of Biotechnology 8(1): 5 – 10. Thanonkeo, P., Laopaiboon, L., and Laopaiboon, P., 2002. Renewable alternative fuel from sweet shorgum. The 14th international symposium on alcohol fuels (isaf x1v), Phuket, Thailand, 12-15 November 2002. Thomas, K.C., Hynes, S.H., dan Ingledew, W.M., 1996, Practical and Theoritical considerations in the Production of High Concentrations of Alcohol by Fermentation. Process Biochem., 31, 321-331. Yamba, F.D.; Wamukwamba, C.K.; Matsika, E.; dan Songiso, M., 2007, Investigations the production and use of bioethanol from sweet sorghum as an alternative fuel, Department of mechanical engineering, school of engineering, University of Zambia, Lusaka.en_US
dc.identifier.urihttp://hdl.handle.net/11617/2470
dc.description.abstractCarbohydrate biomass is considered as the future feedstock for bioethanol production because of its low cost and its huge availability. One of the major carbohydrate materials found in great quantities to be considered, especially in tropical countries, is rice bran. The effect of different pH and temperature with enzymatic saccharification treatment on conversion of rice bran was studied. Finally the sample was fermented using Saccharomyces cereviceae yeast and the amount of produced bioethanol was measured. Enzym treatment at 60ºC and pH 5 is an effective treatment method for converting rice bran to glucose. Up to 22.75% glucose v/v could be achieved after enzyme treatment. Fermentation of treated rice bran shown that glucose after 3 days fermentation the maximum bioethanol of 17.31% (v/v) was attained.en_US
dc.description.sponsorshipKERJASAMA ANTAR LEMBAGA DAN PERGURUAN TINGGIen_US
dc.publisherLPPM UMSen_US
dc.subjectRice branen_US
dc.subjectenzymatic hydrolysisen_US
dc.subjectfermentationen_US
dc.subjectbioethanolen_US
dc.titlePeningkatan Agribisnis di Pedesaan Melalui Pemanfaatan Bekatul untuk Produksi Bahan Bakar Bioetanol dalam Mewujudkan Ketahanan Panganen_US
dc.typeThesisen_US


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