DAFTAR PUSTAKA

[1] Luna, C., Verdugo, C., Sancho, E. D., Luna, D., Calero, J., Posadillo,A., Baustita, F.M., Romero, A.A., “Production of A Biodiesel-Like Biofuel Without Glycerol Generation, by Using Novozym 435, An Immobilized Candida Antarctica Lipase”, Bioresources and Bioprocessing, 1:11, 2014.

[2] Betiku, E. dan Ajala, S.O., “Modelling and Optimization of Thevetia Peruviana (yellow oleander) Oil Biodiesel Synthesis via Musa Paradisiacal (plantain) Peels As Heterogeneous Base Catalyst : A Case of Artificial Neural Network Vs. Response Surface Methodology”, Industrial Crops and Products, Vol. 53, Hal : 314 – 322, 2014.

[3] Suirta, I. W., “Preparasi Biodiesel dari Minyak Jelantah Kelapa Sawit”, Jurnal Kimia, Vol. 3, No.1, Hal: 1 – 6, ISSN : 1907-9850, 2009.

[4] Haigh, K.F., Saha, B., Vladisavljevic, G.T., Reynolds, J.C., “Kinetics of The Pre -Treatment of Used Cooking Oil Using Novozyme 435 for Biodiesel Production”,

Procedia Engineering, Vol.42, Hal: 1106 – 1113, 2012.

[5] Nazir, N., Ramli, N., Mangunwidjaja, D., Hambali, E., Setyaningsih, D., Yuliani, S., Yarmo, M.A., Salimon, J., “Extraction, Transesterification and Process Control In Biodiesel Production from Jatropha Curcas”, Review Article Eur. J. Lipid Sci.

Technol, Vol.111, Hal: 1185 – 1200, 2009.

[6] Sanjay, B., “Heterogeneous Catalysts Derived from Natural Resources for Biodiesel Production: A Review”, Research Journal of Chemical Science, Vol.3, No.6, Hal: 95 – 101, 2013.

[7] Guldhe, A., Singh, B., Mutanda, T., Permaul, K., Bux, “Advances In Synthesis of Biodiesel Via Enzyme Catalysis: Novel and F., Sustainable Approaches”, Renewable and Sustainable Energy Reviews, Vol.41, Hal: 1447 – 1464, 2015.

.[8] Febriansyah, H., Setiawan, A.A., Suryopratomo, K., dan Setiawan, A., “Gama Stove: Biomass Stove For Palm Kernel Shells In Indonesia”, Energy Procedia 47, Hal: 123 – 132, 2014.

[9] Silalertruksa, T., Bonnet, S., Gheewala, S.H., “Life Cycle Costing and Externalities of Palm Oil Biodiesel in Thailand”, Journal of Cleaner Production

Vol.28, Hal: 225 – - 232, 2012.

[10] Cadavid, J.G., Godoy-Silva, R.D., Narvaez, P.C., Camargo, M., Fonteix, C., “Biodiesel Production In A Counter-current Reactive Extraction Column; Modelling, Parametric Identification and Optimisation”, Chemical Engineering Journal, Vol. 228, Hal: 717 – 723, 2013.

[12] Zhao, X., Qi, F., Yuan, C., Du, W., Liu, D., “Lipase-Catalyzed Process For Biodiesel Production: Enzyme Immobilization, Process Simulation and Optimization”, Renewable and Sustainable Energy Reviews, 44, Hal: 182 - 197, 2015.

[13] Zakaria, R. dan Harvey, A.P., “Direct Production Of Biodiesel From Rapeseed By Reactive Extraction/In Situ Transesterification”, Fuel Processing Technology, 102, Hal : 53 - 60, 2012.

[14] Suganya, T., Kasirajan, R., Renganathan, S., “Ultrasound-Enchanced Rapid In Situ Transesterification Of Marine Macroalgae Enteromorpha compressa For Biodiesel Production”, Biosource Technology Vol.156, Hal: 183 – 290, 2014.

[15] Go, A-Ra, Youngrak Lee, Young Hwan Kim, Sehkyu Park, Joongso Choi, Jinwon Lee, Sung Ok Han, Seung Wook Kim, Chulhwan Park., “Enzymatic Coproduction of Biodiesel and Glycerol Carbonate from Soybean Oil in Solvent-Free System”, Enzyme and Microbial Technology, Vo.53, doi:10.1016/j.enzmictec.2013.02.016, Hal: 154–158, 2013.

[16] Zhang, L., Sun, S., Xin, Z., Sheng, B., Liu, Q., “Synthesis and Component Confirmation of Biodiesel from Palm Oil and Dimethyl Carbonate Catalyzed by Immobilized-Lipase in Solvent-Free System”, Fuel 89, Hal: 3960 - 3965, 2010.

[17] Lee, O.K., Kim, H.Y., Na, J.G., Oh, Y.K., Lee, E.Y., “Highly Efficient Extraction and Lipase-Catalyzed Transesterification of Triglycerides from Chlorella sp. KR-1 for Production of Biodiesel”, Bioresource Technology Vol.147, Hal: 240 – -245, 2013.

[18] Jairurob, P., Chantaraporn P., Na-udom, A., Petiraksakul, A., “Reactive Extraction of After-Stripping Sterilized Palm Fruit to Biodiesel”, Fuel Vol.107, Hal: 282 – 289, 2013.

[19] Su, E., You, P., Wei, D., “In Situ Lipase-Catalyzed Reactive Extraction of Oilseeds with Short-Chained Dialkyl Carbonates for Biodiesel Production”,

Bioresource Technology Journal, Vol.100, Hal: 5813–5817, 2009.

[20] Wang, Y., Chen, M.H., Ko, C.H., Lu, P.J., Chern, J.M., Wu, C.H., Chang, F.C., “Lipase Catalyzed Transesterifcation of tung and Palm Oil for Biodiesel”, World Renewable Energy Congress, Sweden, 2011.

[21] Haigh, K. F., Abidin, S.Z., Vladisavljevic, G.T., Saha, B., “Comparison of Novozyme 435 and Purolite D5081 as Heterogeneous Catalyst for the Pretreatment of Used Cooking Oil for Biodiesel Production”. Fuel, Vol. 111, doi:10.1016/j.fuel.2013.04.056, Hal: 186–193, 2013.

[23] Canacki, M. dan Gerpen, J. V., “Biodiesel Production From Oils And Fats With High Free Fatty Acids”, Transactions of the ASAE, Vol. 44, No.6, Hal: 1429 – 1436, 2001.

[24] Cho, S. S., Park, D. J., Simkhada, J. R., Hong, J. H., Sohng, J. K., Lee, O. H., Yoo, J. C., “A Neutral Lipase Applicable in Biodiesel Production Frim A Newly Isolated Streptomyces sp. CS326”, Bioprocess Bisyst Eng, Vol.35, Hal: 227 – 234, 2012.

[25] Rathore, V., Tyagi, S., Newalkar, B., Badoni, R.P., “Jtropha and Karanja Oil Derived DMC-Biodiesel Synthesis: A Kinetics Study”, Fuel, xxx, Hal : xxx - xxx, 2014.

[26] Romanano, S.D. dan P.A. Sorichetti, “Dielectric Spectroscopy in Biodiesel Production and Characterization”, Green Energy and Technology, DOI: 10.1007/978-1-84996-519-4_2, 2011.

[27] Royan, 2015. Sifat Kimia dan Kesuburan Tanah Perkebunan Kelapa Sawit Jadi Disertasi. www.pupukkaretdanwawit.com/rajalatex/category/info-sawit/budidaya-sawit/bagian-kelapas-sawit/page/37/. Diakses pada 05 Agustus 2015

[28] MITI, Potensial Biodiesel di Indonesia. Artikel Masyarakat Ilmuwan Teknologi Indonesia, 2012.

[29] Yuliardi, A., Performa Dan Analisis Ekonomi Broiler Yang Diberi Ransum Sumber Pati Atau Lemak Tinggi Sebagai Sumber Energi Serta Suplementasi Vitamin E Dan C, Skripsi, Institut Pertanian Bogor, Bogor, 2013.

[30] Badan Pusat Statistik, Ekspor CPO 2001-2013, Indonesia, 2014.

[31] Suppalakpanya, K., Ratanawilar, S., Nikhom, R., Tongurai, C., “Production of Ethyl Ester from Crude Palm Oil by Two-Step Reaction Using Continuous Microwave System”, Songklanakarin Journal of Science and Technology, Vol. 33, No. 1, Hal: 79 – 86, 2011.

[32] Baharin, B. S., Latip, R. A., Che Man, Y. B., Abdul Rahman, R., “The Effect of Carotene Extraction System on Crude Palm Oil Quality, Carotene Composition, and Carotene Stability During Storange”, JAOCS, Vol. 78, No. 8, 2001.

[33] Sulaiman, S., Abdul Aziz, A.R., Aroua, M.K., “Reactive Extraction of Solid Coconut Waste to Produce Biodiesel”, Journal of The Taiwan Institute of Chemical Engineers Vol.44, Hal: 233 – 238, 2013.

[34] Robles-Medina, A., Gonzalez-Moreno, P., A., Esteban-Cerdan, L., Molina-Grima, E., “Biocatalysis: Towards Ever Greener Biodiesel Production”.

[35] Fjerbaek, L., Christensen K. V., Norddahl B., “A Review of the Current State of Biodiesel production Using Enzymatic Transesterification”, Biotechnology and Bioengineering, Vol. 102, No. 5, doi:10.1002/bit.22256, 2009.

[36] Ghaly, A.E., Dave, D., Brooks, M.S., Budge, S., “Production of Biodiesel by Enzymatic Transesterification: Review”. American Journal of Biochemistry and Biotechnology, Vol. 6, No.2, Hal: 54–76, 2010.

[37] Kumari, A., Mahapatra, P., Garlapati, V., Banerjee, R., “Enzymatic Transesterification of Jatropha Oil”. Biotechnology for Biofuels, doi:10.1186/1754-6834-2-1. 2009.

[38] Seong, P.J., Jeon, B.W., Lee, M., Cho, D.H., Kim, D.K., Jung, K.S., Kim, S.W., Han, S.O., Kim, Y.H., Park, C., “Enzymatic Coproduction of Biodiesel and Glycerol Carbonate from Soybean Oil and Dimethyl Carbonate”, Enzyme and Microbial Technology, Vol. 48, Hal: 505–509, 2011.

.[39] Su, E. Z., Zhang, M. J., Zhang, J. G., Gao, J. F., Wei, D. Z., “Lipase-Catalyzed Irreversible Transesterification of Vegetable Oils for Fatty Acid Methyl Ester Production with Dimethyl Carbonate as The Acyl Acceptor”, Biochemical Engineering Journal, Vol.36, Hal: 167–173, 2007.

[40] Jiang, Y., Li, D., Li, Y., Gao, J., Zhou, L., He, H., “In Situ Self-Catalyzed Reactive Extraction of Germinated Oilseed with Short-Chained Dialkyl Carbonates for Biodiesel Production”, Biosource Technology, Vol. 150, Hal: 50–54, 2013. [41] Science Lab, “Material Safety Data Sheet Dimethyl Carbonate MSDS”, 2013. [42] Nielsen, P. M., Brask, J., Fjerbaek, L., “Enzymatic Biodiesel Production: Technical and Economical Considerations”. Eur. J. Lipid Sci. Technol, Vol.110, Hal: 692–700, 2008.

[43] Ahmad, M., Sofia R., Mir Ajab K., Muhammad Z., Shazia S., Sobia G., “Optimization of Base Catalyzed Transesterification of Peanut Oil Biodiesel,”

African Journal of Biotechnology, Vol. 8, No.3, Hal : 441 – 446, 2009.

[44] Vicente, G., Martinez, M., Aracil, J., “Integrated Biodiesel Production : A Comparison of Different Homogenous Catalyst System,” Bioresource Technology,

Vol. 92, Hal: 297 – 305, 2004.

[45] Mutreja, V., Singh, S., Ali, A., “Biodiesel From Mutton Fat Using KOH Impregnated MgO As Heterogeneous Catalysts’, Renewable Energy, Vol. 36, Issue 8, Hal: 2253–2258, 2011.

[47] Wu, H., Liu, Y., Zhang, J., Li, G., “In Situ Reactive Extraction Of Cottonseeds With Methyl Acetate For Biodiesel Production Using Magnetic Solid Acid Ctalysts”,

Biosource Technology 10, Hal: 026, 2014.

[48] Kasim, F. H., dan Harvey, A. P., “Influence of Varoius Parameters On Reactive Extraction Of Jatropha curcas L. For Biodiesel Production”, Chemical Engineering Journal, Vol.171, Hal: 1373 – 1378, 2011.

[49] Thiruvengadaravi, K. V. Nandagopal, J., Baskaralingam, P., Sathya, D.B.V., Sivanesan, S., “Kinetic Study of The Esterifaction of Free Fatty Acids In Non-Edible Pongamia Pinnata Oil Using Acid Catalyst”, Indian Journal of Science and Technology, Vol. 2, No. 12, Hal: 20–24, 2009.

[50] Lam, M.K., Lee, K.T., Mohamed, A.A., “Homogeneous, Heterogeneous and Enzymatic Catalysis for Transesterification of High Free Fatty Acid Oil (Waste Cooking Oil) to Biodiesel: A Review”, Biotechonogy Advances, Vol. 28, Hal: 500 – 518, 2010.

[51] Ranganathan, S. V., Narasimhan, S. L., Muthukumar, K., “An Overview of Enzymatic Production of Biodiesel”. Biosource Technology, Volume 99, doi:10.1016/j/biotech.2007.04.060, Hal: 3975–3981, 2008.

[52] Akoh, C. C., Shu-Wei C., Guan-Chiun L., Jei-Fu S., “Enzymatic Approach to Biodiesel Production”, Journal of Agricutural and Food Chemistry, Vol. 55, No. 22, doi:10.1021/jf071724y, Hal: 8995 – 9005, 2007.

[53] Li Li, L., Du,W., Liu, D., “Lipase-Catalyzed Transesterification of Rapseed Oils for Biodiesel Production with A Novel Organic Solvent As The Reaction Medium”,

J Mol Catal B, Vol. 43, Hal: 58–62, 2006.

[54] Royan D., Daz, M., Ellenrieder, G., Locatelli, S., “Enzymatic Production of Biodiesel from Cotton Seed Oil Using t-Butanol As A Solvent”, Bioresource Technology Journal, Vol. 98, Hal: 648–53, 2007.

[55] Lukovic, N., Jugovic, Z.K., Bezbradica, D., “Biodiesel Fuel Production by Enzymatic Transesterification of Oils: Recent Trends, Challenges and Future Perspectives”, Alternative Fuel, 1st Edition, InTech, ISBN 978-953-307-372-9, 2011. [56] Antczak, M. S., Kubiak A., Antczak T., Bielecki S., “Enzymatic Biodiesel Synthesis - Key Factors Affecting Efficiency of The Process”, Renewable Energy, Vol. 34, doi:10.1016/j.renene.2008.11.013, Hal : 1185 – 1194, 2009.

[57] Leca, M., Tcacenco, L., Micutz, M., Staicu, T., “Optimization of Biodiesel Production by Transesterification of Vegetable Oils Using Lipases”. Romanian Biotechnological Letters, Vol. 15, No. 5, 2010.

[58]Dinas Perkebunan Sumatera Utara. 2015. Harga Komoditi Tahun 2015.

[59] “Analisa Sederhana Program Biodiesel dari CPO”, Kompas, 1 Juli 2014.

[60]Herawan, T., dan Klaas, M. Rusch Gen, “Lipase-Catalyzed Transesterification of Plant Oils with Dialkyl Carbonates”, American Journal of Applied Sciences, Vol. 11, No.8, Hal: 1212 – 1223, 2014.

[61] Silalahi, J., & Nurbaya, S., “Komposisi, Distribusi, dan Sifat Arterogenik Asam Lemak dalam Minyak Kelapa dan Minyak Sawit”, Indon Med Assoc, Vol. 61, No. 11, Hal: 453-457.

[62] Taher, H., Al-Zuhair, S., Al-Marzouqi, A.H., Haik, Y., dan Farid, M.M., “A Riview of Enzimatic Tranesterification of Microalgal Oil-Based Biodiesel Using Supercritical Technology”, Enzyme Research, Article ID 468292, doi:10.4061/2011/468292, 2011.

[63] Hellner, G., “Application of Lipolytic Enzymes of Microbial Origin As Biocatalysts”, Theses of the doctoral dissertation, Corvinus University of Budapest, Departement of Microbiology and Biotechnology, Budapest, 2011.

[64] Banerjee, A., Singh, V., Solanki, K., Mukherjee, J., dan Gupta, M.N., “Combi -Protein Coated Microcrystals of Lipase For Production of Biodiesel From Oil From Spent Coffee Grounds”, Sustainable Chemical Processes, 1:14, 2013.

[65] Tiosso, P. C., A.K.F Carvalho, H.F. de Castro, F.F. de Moraes, dan G.M Zanin, “ Utilization of Immobilized Lipases As Catalysts In The Transesterification Of Non -Edible Vegetable Oils With Ethanol”, Brazilian Journal of Chemical Engineering,

Vol. 31, No. 04, Hal: 839 - 847, 2014.

[66] Koh, M.Y., dan Ghazi, T.I.M., “A Riview of Biodiesel Production from

Jatropha curcas L. Oil,” Renewable Sustainable Energy Reviews 15, Hal: 2240 – 2251, 2011.

[67] Gharat, N. dan Rahod, V. K., “Ultrasound Assisted Enzyme Catalyzed Transesterification of Waste Cooking Oil with Dimethyl Carbonate”, Ultrasonics Sanochemistry, 2012.

[68] Baadhe, R.R.., Potumarthi, R., Gupta, Vijai K., “Lipase-Catalyzed Biodiesel Production: Techinal Challenges”, Bioenergy Research: Advances and Applications,

http://dx.doi.org/10.1016/B978-0-444-59561-4.00008-5, 2014.

[69] Forresti, M..L. dan Ferreira, M.L., “Computational Approach to Solvent-Free of Ethyl Oleate Using Candida Rugosa and Candida Antartica B Lipases, Interfacial Activation and Substrate (Ethanol, Oleic Acid) Adsorption. Biomacromolecules. Vol. 5, No. 6, Hal: 2366–2375, 2004.

[71] Gashaw, A. dan Teshita, A., “Production of Biodiesel from Waste Cooking Oil and Factors Affectng Its Formation: A Review”, International Journal of Renewable and Sustainable Energy, Vol.3, No.5, Hal: 92 – 98, doi: 10.11648/j.ijrse.20140305.12, 2014.

[72] Gnanaprakasam, A., Sivakumar, V.M., Surendhar, A., Thirumarimurugan, M., Kannadasan, T., “Recent Strategy of Biodiesel Production from Waste Cooking Oil and Process Influencing Parameters: A Review”, Hindawi Publishing Corporation Journal of Energy, Article ID 926392, http://dx.doi.org/10.1155/2013/926392, 2013.

[73] Setyopratomo, P., Purwanto, E., Hartanto, R., Kristianto, J., “Pengaruh Suhu Reaksi dan Rasio CPO/Metanol terhadap Karakteristik Produk pada Pembuatan Biodisel dengan Co-solvent Dietil Eter”, Jurnal Ilmu Dasar, Vol. 9 No. 1, Hal: 72 – 77, 2008

[74] Nezahat, B.O.Z., Kara, M., Sunal, O., Alptekin, E., Degirmenbasi N.,”, Investigation Of The Fuel Properties Of Biodiesel Produced Over An Alumina-Based Solid Catalyst, Turk J Chem Vol.33, Hal: 433 – 442, 2009.

[75] SNI, Biodiesel. SNI 04-7182-2006, 2006.

[76] Miskah, S., Moeksin, R., Reno. dan Sridawati., Pemanfaatan Minyak Goreng Bekas Sebagai Bahan Baku Metil Ester, Jurnal Rekayasa, Vol.17, No.3, Hal: 15–22, 2008.

[77] Sundaryono, A., Karakteristik Biodiesel Dan Blending Biodiesel Dari Oil Losses Cair Pabrik Minyak Kelapa Sawit, J. Tek. Ind. Pert. Vol. 21 (1), Hal: 34-40, 2005.

[78] Demirbas, Ayhan., “Progress and Recent Trends in Biodiesel Fuels”, Journal of Energy Conversion and Management, Vol. 50, No. 1, Hal: 14–34, 2009.