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DAFTAR PUSTAKA
Allen, R. M., H. P. Bennetto. 1993. Microbial fuel cells: electricity production from
carbohydrates. Appl Biochem Biotechnol, 39-40:27-40.
Arikunto, Suharsimi. 2010. Prosedur Penelitian Suatu Pendekatan Praktek. Jakarta:
Rineka Cipta.
Borole, A.P., Reguera, G., Ringeisen, B., Wang, Z.-W., Feng, Y., Kim, B.H. 2011.
Electroactive Biofilms: Current Status and Future Research Needs. Energy
Environ Sci, 4(12), 4813-4834.
Chae, Kyu Jung, Mijin Choi, Folusho F. Ajayi, Wooshin Park, In Seop Chang and In
S. Kim. 2008. Mass Transport Through a Proton Exchange Membran
(Nafion) in Microbial Fuel Cells. Energy & Fuels (22): 169-176
Cheng S, Liu H, Logan BE. 2006a. Increased Power Generation in a Continuous
Flow MFC with Advective Flow Through the Porous Anode and Reduced
Electrode Spacing. Environment Science Technology 40: 2426-2432.
Das, Surajit et al., 2010. Recent Developments in Microbial Fuel Cell: A Review.
Department of Life Science, National Intitute of Technology, Rourkela 769
008, India.
Das and Mangwani. 2010. Recent Developments in Microbial Fuel Cells: a Review.
Scientific & Industrial Research 69: 727-731
Du, Zhuwei, Haoran Li, Tingyue Gu. 2007. A State of the Art Review on Microbial
Fuel Cells: a Promising Technology for Wastewater Treatment and Bioen-
ergy. Biotechnology Advances 25 (2007) 464–482.
Hoogers, Gregor. 2003. Fuel Cell Technology Handbook. CRC Press : United States
of America.
Li, Fengxiang. Yogesh, Sharma. Lei, Yu. Li, Baikun Zhou. Qixing. 2010. Microbial
Fuel Cells : The Effects of Configurations, Electrolyte Solutions, and Electrode
Materials on Power Generation. Appl Biochem Biotechnol (160) : 168-181.
Liu H. dan Logan BE. 2004. Electricity Generation Using an Air Chatode Single-
Chamber Microbial Fuel Cell in the presence and absence of proton exchange
membrane. J. Environment Science Technology 38:4040.
Liu H. dan Logan BE. 2004. Electricity Generation Using an Air Cathode Single-
Chamber Microbial Fuel Cell in the Presence and Absence of Proton
Exchange Membrane. J. Environment Science Technology 38:4040.
Lovley DR. 2006. Review Bug Juice: Harvesting Electricity with Microorganism.
Nature Reviews Microbiology Vol 4 : 497-508
Logan, BE. 2008. Microbial Fuel Cell. New Jersey : John Wiley and Sons Ltd.
Logan BE, Cheng Shaoan, Watson Valerie, dan Estadt Garett. 2007. Graphite Brush
Anodes For Increase Power Induction in Air Cathode Microbial Fuel Cells. J.
Environment Science Technology 41, 3341-3346.
Mokhtarian, N., Rahimnejad, G. D. Najafpour, Wan Ramli Wan Daud, A. A.
Ghoreyshi. 2012. Effect of Different Substrate on Performance of Microbial
Fuel Cell. African Journal of Biotechnology Vol. 11(14), pp. 3363-3369.
Novitasari, Deni. 2011. Optimasi Kinerja Microbial Fuel Cell (MFC) Untuk Produksi
Energi Listrik Menggunakan Bakteri Lactobacillus Bulgaricus. Depok :
Fakultas Teknik Universitas Indonesia, Departemen Teknik Kimia.
Padma, Songudon and Dirk; B. Hays. 2012. Topic Paper #13, Microbial Fuel Cells.
Nation Petroleum Courcil.
Park DH, Zeikus J. Gregory. 2002. Improved Fuel Cell and Electrode Designs for Producing Electricity From Microbial Degradation. Department of Biochemistry and Molecular Biology and Department of Microbiology and Molecular Genetics, Michigan State University, East Lansing, Michigan 48824
Reddy L. Veeraanjaneya, S. Pradeep Kumar, Young-Jung Wee. 2010. Microbial Fuel
Cells (MFCs)- a novel source of energy for new millenium. Current Research,
Technology and Education Topics in Applied Microbiology and Microbial
Biotechnology.
Sadeqzadeh Maliq, Mostafa Ghasemi, Ali Ghannadzadeh, et al. 2012. Mass Transfer
Limitation In Different Anode Electrode Surface Areas On The Performance Of
Dual Chamber Microbial Fuel Cell. American Journal of Biochemistry and
Biotechnology, 2012, 8 (4), 320-325.
Sajana T. K., M.M. Ghangrekar, Arunabha Mitra. 2013. Influence Of Electrode Mate-
rial On Performance Of Sediment Microbial Fuel Cell Remediating Aquacul-
ture Water. “Gheorghe Asachi” Technical University of Iasi, Romania.
Schamphelaire, Liesje De et al., 2008. Outlook for benefits of sediment microbial fuel
cells with two bio-electrodes. Microbial Biotechnology (2008) 1(6), 446–462.
Septyana, Ian. 2014. Pengaruh Variasi Debit dan Jumlah Elektroda Terhadap
Penurunan COD dan Produksi Listrik di Dalam Reaktor Microbial Fuel Cells
(MFCs) Studi Kasus: Air Limbah Rumah Potong Hewan (RPH) Kota Salatiga.
Fakultas Teknik, Program Studi Teknik Lingkungan, Universitas Diponegoro
Sugiyono. 2009. Metode Penelitian Pendidikan. Bandung: Alfabeta.
ter Heijne, A., Hamelers, H.V.M., Saakes, M., Buisman, C.J.N., 2008. Performance
of Non-Porous Graphite and Titanium-Based Anodes in Microbial Fuel Cells.
Electrochim. Acta 53, 5697–5703.
Wardhana, Wisnu Arya. 1995. Dampak Pencemaran Lingkungan. Yogyakarta: Andi
Offset.
Wei, Jincheng, Peng Liang, Xia Huang. 2011. Recent Progress in Electrodes for
Microbial Fuel Cells. Bioresource Technology 102 (2011) 9335–9344
Widayat, Wahyu. 2009. Daur Ulang Air Limbah Domestik Kapasitas 0,9 m3 per jam
Menggunakan Kombinasi Reaktor Biofilter Anaerob Aerob dan Pengolahan
Lanjutan. JAI Vol. 5, No. 1.
Winaya, I Nyoman Suprapta, Made Sucipta, A. A. Krisna Wira Putra, 2011. Meman-
faatkan Air Bilasan Bagas Untuk Menghasilkan Listrik Dengan Teknologi Mi-
crobial Fuel Cells. Jurnal Ilmiah Teknik Mesin Vol. 5 No.1. April 2011 (57-
63)
Zahara, Nova Chisilia. 2011. Pemanfaatan Saccharomyces cereviseae dalam Sistem
Microbial Fuel Cell untuk Produksi Energi Listrik. Fakultas Teknik
Universitas Indonesia, Program Studi Teknik Kimia.
Zhang, Yifeng. 2012. Energy Recovery From Waste Streams With Microbial Fuel
Cell (MFC)-Based Technologies. DTU Environment, Department of Environ-
mental Engineering, Technical University of Denmark.
Zhou, Minghua, Meiling Chi, Jianmei Luo, Huanhuan He, Tao Jin. 2011. An Over-
view of Electrode Materials in Microbial Fuel Cells. Journal of Power
Sources 196 (2011) 4427–4435.
Kordesch Simader, 2001Li, 2010Bennet, Ian J. (2008)
Alaerts, 1984(Min and Logan, 2004; Sun et al., 2010 dalam Wei et al., 2011).
