DAFTAR PUSTAKA
[1] Istiqamah, Tatik. “Aktivitas dan Stabilitas Lipase Rhizomucor Miehei dan Candida Antartica pada Reaksi Asidolisis antara Konsentrat Asam Lemak Omega-3 dengan Minyak Sawit Kasar dalam Media Bebas Pelarut”, Skripsi, Institut Pertanian Bogor, 1998.
[2] Ardhian, David. ”Produksi Konsentrat Asam Gamma Linolenat dari Minyak Kapang Mortierella Isabellinn Dengan Reaksi Alkoholisis Menggunakan Katalis Lipase Dan Rhizomucor Miehei”, Skripsi, Institut Pertanian Bogor, 1998.
[3] Nasution, N.M, “Hidrolisis Minyak Sawit oleh Lipase Spesifik dan Nonspesifik dari Rhizomucor Miehei dan Candida Cylindracea”, Skripsi, Institut Pertanian Bogor, 2001.
[4] Halim, S.F.A., Kamaruddin, A.H. & Fernando, W.J.N., “Continuous Biosynthesis Of Biodiesel From Waste Cooking Palm Oil In A Packed Bed Reactor: Optimization Using Response Surface Methodology (RSM) and Mass
Transfer Studies”. Bioresource Technology, Vol. 100, No. 2, Hal: 710-716, 2009.
[5] Ognjanović, N., Bezbradica, D. & Knežević-Jugović, Z., “Enzymatic Conversion Of Sunflower Oil To Biodiesel In A Solvent-Free System: Process
Optimization And Immobilized System Stability”, Bioresource Technology, Vol. 100, No. 21, Hal: 5146-54, 2009.
[6] Maulana, Mirza Akbar, “Pemanfaatan Whole Cell Candida Rugosa sebagai
Biokatalis untuk Sintesis Biodiesel Melalui Rute Non Alkohol”. Skripsi. Universitas Indonesia. Depok. 2012.
[7] Lukovic, N., Jugovic, Z.K., Bezbradica, D., “Biodiesel Fuel Production by Enzymatic Transesterification of Oils: Recent Trends, Challenges and Future
Perspectives”, InTech Journal, Vol. 3, Hal: 50-72, 2011.
[8] Souza, S.L., Aguieiras, E.C.G & Langone, M.A.P., “Study of The Commercial Immobilized Lipases Reuse in Biodiesel Synthesis via
Transesterification Reactions of Soybean Oil”, 11th European Congress on Catalysis, Lyon, France, September 1st-6th, 2013.
[9] Nelson, Llyod A., Foglia, Thomas A., & Marmer William N., “Lipase -Catalyzed Production of Biodiesel”. JAOCS, Vol. 73, No.8, Hal: 1191-1195, 1996
[10] Du, W., Xu, Y., Liu D., & Zeng, J., “Comparative Study on Lipase -Catalyzed Transformation of Soybean Oil for Biodiesel Production with Different
Acyl Acceptors”, Journal of Molecular Catalysis B: Enzymatic, Vol. 30, No. 3-4, Hal: 125-129, ISSN 1381-1177, 2004.
[11] Talukder, M.R, Wu, J.C., Nguyenu, T.B.V., Fen, N.M., & Melissa, Y.L.S.
the Methanolysis Methods”. Journal of Molecular Catalysis B: Enzymatic, Vol. 60, No. 3-4, Hal: 106-112, ISSN 1381-1177, 2009
[12] Brusamarelo, C.Z., Rosset, E., de Cesaro A., Treichel H., de Oliveira D.,
Mazutti M.A., Di Luccio M., Oliveira J.V. “Kinetics of Lipase-Catalyzed Synthesis of Soybean Fatty Acid Ethyl Esters in Pressurized Propane”, Journal of Biotechnology, Vol.147 , No.2, Hal: 108-115, 2010.
[13] Lee, K.T., Foglia, T.K., Chang, K.S., “Production of Alky Ester as Biodiesel
from Fractionated Lard and Restaurant Grease”, J Am Oil Chem Soc, Vol. 79 No.2, Hal: 191-195, 2002.
[14] Mata, Teresa M., Sousab, Igor R.B.G., and Caetanoab, Nidia S. “Transgenic Corn Oil for Biodiesel Production Via Enzymatic Catalysis with Ethanol”,
Journal of AIDIC, Vol. 27, No.1,Hal: 1-6, 2012.
[15] Kazanceva, Irina., Makarevičienė, Violeta., dan Kazancev, Kiril.,
“Application of Biotechnological Method to Biodiesel Fuel Production using n
-butanol”, Journal of Environmental Research, Engineering and Management,
Vol. 2. No. 56, Hal: 35–42, 2011.
[16] Ognjanović, Nevena D., Šaponjić, Svetlana V., and Bezbradica Dejan I.,
“Lipase-Catalyzed Biodiesel Synthesis with Different Acyl Acceptors”, APTEFF, 39, 1-212 (2008) UDC: 665.3:665.75:665.058.6, 2008.
[17] Utomo, A.S.,.”Preparasi NaOH/Zeolit sebagai Katalis Heterogen untuk
Sintesis Biodiesel dari Minyak Goreng secara Transesterifikasi”, Skripsi,
Universitas Indonesia, Depok, 2011.
[18] Santoso, N., Pradana, F., Rachimoellah, ”Pembuatan Biodiesel dari Minyak Biji Kapuk Randu (Ceiba Pentandra) Melalui Proses Transesterifikasi dengan
Menggunakan CaO sebagai Katalis”, Skripsi, Institut Teknologi Sepuluh
November, Surabaya, 2013.
[19] Hermansyah, Heri., Marno, S., Arbianti, R., Utami, T.S.,& Wijanarko, A.,
“Interesterifikasi Minyak Kelapa Sawit dengan Metil Asetat untuk Sintesis
Biodiesel menggunakan Candida Rugosa Lipase Terimobilisasi”. JTKI Aptekindo, Vol. 8, No.1, Hal: 24-32, 2009.
[20] MITI, “Potensial Biodiesel di Indonesia”. Artikel Masyarakat Ilmuwan TeknologiIndonesia, 2012.
[21] Departemen Pertanian, Profil Investasi Biofuel dari Kelapa Sawit, Indonesia, 2013.
[23] Martha, F.L., “Analisis Potensi Ekspor Crude Palm Oil (CPO) Indonesia Ke Empat Negara Mitra Dagang Utama Pendekatan Gravity Model”, Skripsi, Institut Pertanian Bogor, Bogor, 2011.
[24] Badan Pusat Statistik, Ekspor CPO 2001-2013, Indonesia, 2014.
[25] Hasrini, R.F., “Interesterifikasi Enzimatik dengan Lipase pada Campuran Minyak Sawit Merah dan Minyak Kelapa untuk Menghasilkan Bahan Baku
Spreads Kaya β-Karoten”, Tesis, Institut Pertanian Bogor, Bogor, 2008.
[26] Xu, Y., Du, W. & Liu, D., “Study on the kinetics of enzymatic interesterification of triglycerides for biodiesel production with methyl acetate as
the acyl acceptor”. Journal of Molecular Catalysis B: Enzymatic, Vol. 32, No. 5-6, Hal: 241-245, 2005.
[27] Parthu, Republik Daudi, “Sintesis Biodiesel Rute Non Alkohol dari Minyak Goreng dengan Biokatalis Terimobilisasi Entrapment pada Reaktor Batch dan
Reaktor Packed Bed”. Skripsi. Universitas Indonesia. Depok. 2012.
[28] Sciencelab (2013), Material Safety Data Sheet Methyl Acetate. Diakses 7 Juni 2013. http://sciencelab.com,.
[29] Mustakim, R.F., Muarifah, K.U. Al Awwaly., “Pembuatan Keju dengan
Menggunakan Enzim Renin Mucor pusillus Amobil”. Jurnal Ilmu Peternakan, Vol. 19, No.2, Hal:137-149, ISSN: 0852-3581, 2011.
[30] Suhara, Pengantar tentang Enzim, Jurusan Pendidikan Biologi, Universitas Pendidikan Indonesia, Bandung, 2010.
[31] Datta, S., Christena L.R. Rajaram Y.R.S., “Enzyme Immobilization”.
Biotechnology, Vol.3, No. 1, Hal: 1-9, 2013.
[32] Leavingbio (2013), Immobilised Enzymes, Diakses 7 Juni 2013 http://leavingbio.net/enzymes.htm
[33] Stoytcheva, M., Montero, G., Toscano, L., Gochev, V., Valdez, B., “The
Immobilized Lipases in Biodiesel Production”. InTech Journal, Vol. 19, Hal: 50-72, 2011.
[34] Hellner, Gabriella., “Application of Lipolytic Enzymes of Microbial Origin
as Biocatalyst”, Desertasi, Corvinus University, Budapest, 2011.
[35] “Analisa Sederhana Program Biodiesel dari CPO”, Kompas, 1 Juli 2014.
[36] Hermanto, Doni & Sihotang, Allen., “Pengaruh Kadar Kalium Abu Kulit Buah Kelapa dalam Mengkatalisis Reaksi Transesterifikasi Crude Palm Oil
[37] Ristianingsih, Y., Sutijan, S. & Budiman, A., “Studi Kinetika Proses Kimia
dan Fisika Penghilangan Getah Crude Palm Oil (CPO) dengan Asam Fosfat”.
Reaktor, Vol. 13, No. 1, 2011.
[38] Susilo, B., Argo, B.D., & Rakhmawati, A., “Pengujian Kinerja Kompor
Tekan Menggunakan Bahan Bakar Alternatif Minyak Kapuk (Ceiba Petandra)”,
Jurnal Teknologi Pertanian, Vol. 8, No.2, Hal: 119-126, 2007.
[39] Knothe, G., “Dependence of Biodiesel Fuel Properties on the Structure of
Fatty Acid Alkyl Esters”, Journal of Fuel Process Technol, Vol. 86. No. 10, Hal: 1059 -1070, 2005
[40] 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.
[41] Mukherjee, Kumar D., “Lipase-catalyzed Synthesis of Designer Lipids with Improved Nutritional Properties”, Journal of Food, Nutrition and Well Being, Vol. 2, No.8, Hal: 167-169, 1998
[42] SigmaAldrich (2014), Lipozyme, Diakses 1 Maret 2014. http://sigmaaldrich.com
[43] Schuch, Ricardo and Mukherjee, Kumar D., “Interesterification of Lipids Using an Immobilized sn-1,3-specific Tiacylglyserol Lipase”, Journal of Agricultural and Food Chemistry, Vol: 35, No. 6, Hal: 1005-1008, 1987
[44] Watanabe, Y., Shimada, Y., Sugihara, A., Tominaga, T., “Conversion of Degummed Soybean Oil to Biodiesel Fuel with Immobilized Candida Antartica Lipase, J.Mol.Catal.B Enzyme, Vol. 17, No. 1, Hal: 151-155, 2002.
[45] Yilmaz, E., & Sezgin, M., “Immobilization of Candida rugosa Lipase on
Glass Beads for Enantioselective Hydrolysis of Racemic Naproxen Methyl Ester”,
Bioresource Technology, Vol. 102, No, 2, Hal 499-506. 2011.
[46] Forresti, M.L. & 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.
[47] Vijay, M., & Surendhiran, D., “Interesterification of Marine Microalga Chlorella Salina Oil with Immobilized Lipase as Biocatalyst Using Methyl
Acetate as An Acyl Acceptor”, International Journal of Environment and Bioenergy, Vol. 8, No. 2, Hal: 68-85, 2013.
[48] Kabasakal, B.V. & Caglar, Arif., “Improvement of Immobilized Lipase
[49] Setyopratomo, Puguh., Purwanto, Edy., Hartanto, Rudy., & J. Kristianto.,
“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
[50] Demirbas, Ayhan., “Progress and Recent Trends in Biodiesel Fuels”,
Journal of Energy Conversion and Management, Vol. 50, No. 1, Hal: 14–34, 2009