DAFTAR PUSTAKA
Amuda, O.S., Amoo, I.A. (2007). “Coagulation/flocculation Process and Sludge Conditioning in Beverage Industrial Wastewater Treatment”. Journal of Hazardous Materials,141 (3), 778-783. Asghari, A., Kamalabadi, M., dan Farzinia, H. (2012). “Electrochemical Removal of Methylene Blue from Aqueous Solution Using Taguchi Experimental Design”. Chemical and Biochemical Engineering Quarterly. 26 (2), 145-154. Bajpai P dan Bajpai PK. (1994). “Minireview: Biological colour removal of pulp and paper mill wastewaters”. Journal of Biotechnology. 33, 211-20. Barr, Christopher. (2001). “Profits on Paper: The Political-Economy of Fiber and Finance in Indonesia’s Pulp and Paper Industries” in C. Barr, Banking on Sustainability: Structural Adjustment and Forestry Reform in Post-Suharto Indonesia, Center for International Forestry Research (CIFOR) and WWF Macroeconomic Program Office, Washington, DC. Barrera-Diaz, C. et.al. (2011). “Physicochemical Aspects of Electrocoagulation”. Separation & Purification Reviews. 40, 1-24. Taylor & Francis Group. Bazrafshan, et.al. (2012). “Slaughterhouse Wastewater Treatment by Combined Chemical Coagulation and Electrocoagulation Process”. PloS ONE 7(6). Boroski, et.al. (2008). “The Effect of Operational Parameters on Electrocoagulationflotation Process Followed by Photocatalysis Applied to the Decontamination of Water Effluents from Cellulose and Paper Factories”. Journal of Hazardous Materials. 160. 135-141. Casey, J.P. (1980). Pulp and Paper Chemistry and Chemical Technology. (Vol.1). New York : Interscience Publisher, Inc. Carter, H.A. (1996). “The Chemistry of Paper Preservation : Part 2. The Yellowing of Paper and Conservation Bleaching”. Journal of Chemical Education. 73 (11), 1068 Cenens, J., dan Schoonheydt, R.A. (1988). “Visible Spectrocopy of Methylene Blue on Hectrorite, Laponite B, and Barasym in Aqueous Suspension”. Clays and Clays Mineral, 36 (3), 214-224. Davis, Mackenzie L. (2010). Water and Wastewater Treatment Engineering : Design Principle and Practice. McGraw-Hill Companies, Inc.
Ratna Agustiningsih, 2014 Aplikasi Metode Elektrokoagulasi Pada Penghilangan Warna Metilen Biru Dan Limbah Cair Industri Pulp Dan Kertas Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
46
Eklund D & Lindström T. (1991). Paper Chemistry: An Introduction. Kauniainen, DT Paper Science Publications. El-Ashtoukhy, E.-S.Z., Amin, N.K., and Abdelwahab, O. (2008). “Treatment of paper mill effluents in a batch-stirred electrochemical tank reactor”. Chemical Engineering Journal. Essadki, et.al. (2008). “Electrocoagulation/electroflotation in an external-loop airlift reactor-application to the decolorization of textile dye wastewater : a case study”. Chemical Engineering Process. 47, 1211-1223. Feng, Y., Smith, D.W. dan Bolton, J.R. “Photolysis of Aqueous Free Chlorine Species (HOCl and OCl-) with 254 nm Ultraviolet Light” Engineering and Sciences. 6 (3), 277-284. Hart, H., Craine, L.E., dan Hart, D.J. (2003). Kimia Organik : Suatu Kuliah Singkat (Ed.11). Jakarta : Erlangga Hawley. (1981). Condensend Chemical Dictionary (eleventh ed.). New York : Van Nortrand Reinhold. Herath, N. Kaushalya, Ohtani, Yoshito, and Ichiura, Hideaki (2011). “Color and phenolic compound reduction of Kraft Pulp Mill effluent by ozonation with some pretreatments”. American Journal of Scientific and Industrial Research. 2(5), 798-806. Holt, Peter. (2002). Electrocoagulation : Unravelling and Synthesising The Mechamisms Behind a Water Treatment Process. Tesis pada Departemen of Chemical Engineering University of Sydney. Kalyani, K.S.P, Balasubramanian, N., and Srinivasakannan, C. (2009). “Decolorization and COD reduction of paper industrial effluent using electro-coagulation”. Chemical Engineering Journal. 151, 97-104. Kobya, M., Taner Can, O., dan Bayramoglu, M. (2003). “Treatment of Textile Wastewater by Electrocoagulation Using Iron and Alumunium Electrodes”. Journal of Hazardous Materials. B100, 163-178. Kumar, et.al. (2011). “Treatment of Paper and Pulp Mill Effluent by Coagulation”. International Journal of Civil and Environmental Engineering. 3(3). Leiviskӓ, Tiina. (2009). Coagulation and size fractionation studies on pulp and paper mill process and wastewater streams.Disertasi pada Deparment of Process and Environmental Engineering, Faculty of Technology, University of Oulu, Finland. Levenspiel, O. (1999) Chemical Reaction Engineering, New York : John Wiley & Sons.
Ratna Agustiningsih, 2014 Aplikasi Metode Elektrokoagulasi Pada Penghilangan Warna Metilen Biru Dan Limbah Cair Industri Pulp Dan Kertas Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
47
Mahesh, et.al. (2006). “Electrochemical degradation of pulp and paper mill waste water. Part 1. COD and color removal. Industrial and Chemical Engineering Chemistry Research, 45, 2830-2839. Mameri, et.al. (1998). “Deflouridation of septentrional Sahara water of North Africa by electrocoagulation process using bipolar alumunium electrodes”. Water Research 32 (5), 1604-1612.
Metcalf & Eddy, Inc. (1991). Wastewater Engineering Treatment, Disposal, Reuse. Third Ed. Singapore : McGraw-Hill Inc. Mohsin, Yulianto. (2006). Alumunium. Situs Kimia Indonesia [Online], halaman 1. Tersedia : http://www.chem-is-try.org/tabel_periodik/alumunium/. [20 Desember 2013]. Mollah, et.al. (2001). “Electrocoagulation (EC) – science and applications”. Journal of Hazardous Materials. B84, 29-41. Moreno, H.A. et.al. (2007). “Electrocoagulation : COD Removal Mechanism”. Separation and Purification Technology. 56 (2), 204-211. N. M. Sakam. (1987). Industrial Effluents, Origin Characteristics, Effects Analysis and Treatment. Sakthi Publications, India. Nemerow, et.al. (2009). Environmental Engineering : Water, Wastewater, Soil, and Groundwater Treatment and Remediation (sixth ed.). New Jersey : John Wiley & Sons, Inc. Ozyonar, F., dan Karagozoglu, B. (2011). “Operating Cost Analysis and Treatment of Domestic Wastewater by Electrocoagulation Using Alumunium Electrodes”. Polish Journal of Environmental Study. 20 (1), 173-179. P. Singh and A. Singh. (2004). “Physiochemical characteristics of the distillery effluent and its chemical treatment”. Journal. Nat. Sci. Technol. 3, 205-208. Permatasari, R Ghita Intan. (2011, 15 Desember). Sekarang, Momentum Kebangkitan Industri Pulp dan Kertas RI. Okezone [Online], halaman 1. Tersedia : http://economy.okezone.com/read/2011/12/15/320/542983/sekarangmomentum-kebangkitan-industri-pulp-kertas-ri. [6 Maret 2013]. Pöykiö R, Nurmesniemi H, Kivilinna V. (2008). “EOX concentrations in sediment in the part of the Bothnian Bay affected by effluents from the pulp and paper mills at Kemi, Northern Finland”. Environ Monit Assess. 139(1-3):183-94. Putero, S.H., Kusnanto, dan Yusriyani. (2008). Pengaruh Tegangan dan Waktu pada Pengolahan Limbah Radioaktif yang Mengandung Sr-90 Menggunakan Metode Elektrokoagulasi. dalam Prosiding Seminar Nasional ke-14 Teknologi dan Keselamatan PLTN Serta Fasilitas Nuklir
Ratna Agustiningsih, 2014 Aplikasi Metode Elektrokoagulasi Pada Penghilangan Warna Metilen Biru Dan Limbah Cair Industri Pulp Dan Kertas Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
48
ISSN : 0854-2910 Bandung, 5 Nopember 2008. [Online]. Tersedia : http://www.batan.go.id/ptrkn/file/tkpfn14/Peserta/40%20Susetyo%20dkk_429-436.pdf [6 Maret 2013]. Ramos, et.al. (2009). “Remediation of lignin and its derivatives from pulp and paper industry wastewater by the combination of chemical precipitation and ozonation.” Journal of Hazardous Materials. 169, 428-434. Shankar, et.al. (2013). “Removal of Lignin from Wastewater through Electrocoagulation”. World Journal of Environmental Engineering. 1 (2), 16-20. Siregar, Oloan. (2012). Mendag: Prospek Industri Pulp dan Kertas Indonesia Cerah. [Online]. Tersedia : http://beritasore.com/2010/08/19/mendag-prospek-industri-pulp-dan-kertas-indonesiacerah/ [6 Maret 2013]. Sridhar, et.al. (2011). “Treatment of pulp and paper industry bleaching effluent by electrocoagulant process”. Journal of Hazardous Materials. 186, 1495-1502. Suckling ID. (2008) “Lignin as a chemical feedstock: Opportunities and challenges”. 62nd Appita Annual Conference and Exhibition. 47-53. Rotorua, New Zealand. Sugiharto. (1987). Dasar-dasar Pengolahan Air Limbah. Jakarta : UI Press. Sumathi, Suresh. and Hung, Yung-Tse. (2004). Treatment of Pulp and Paper Mill Wastes dalam Handbook of Industrial and Hazardous Waste Treatment. (second ed.). Revised and Expanded (Wang, L. K., Hung, Y-T., Lo, H. H. and Yapijakis, C. Eds.). Susetyo Hario Putero, Kusnanto, Yusriyani. (2008). Pengaruh Tegangan dan Waktu Pada Pengolahan Limbah Radioaktif yang Mengandung Sr-90 Menggunakan Metode Elektrokoagulasi. Prosiding Seminar Nasional ke-14 Teknologi dan Keselamatan PLTN Serta Fasilitas Nuklir. Bandung, 5 Nopember 2008. Tardivo,et.al. (2005). “Methylene Blue in Photodynamic Theryapy : From Basic Mechanisms to Clinical Applications”. Photodiagnosis and Photodynamic Therapy. 2, 175-191. Ugurlu, et.al. (2007). “The removal of lignin and phenol from paper mill effluents by electrocoagulation.”. Journal of Environmental Management. 22, 52-61. Vepsӓlӓinen, Mikko. (2012). Electrocoagulation in the treatment of industrial water and wastewater. Disertasi Doktor Sains (Teknologi) pada Department of Chemistry University of Jyväskylä, Finland. Zaied, M., dan Bellakhal, N. (2009).”Electrocoagulation Treatment of Black Liquor from Paper Industry”. Journal of Hazardous Materials. 163, 995-1000.
Ratna Agustiningsih, 2014 Aplikasi Metode Elektrokoagulasi Pada Penghilangan Warna Metilen Biru Dan Limbah Cair Industri Pulp Dan Kertas Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
49
Zayas, T., Picazo, M., dan Salgado, L. (2011). “Removal of Organic Matter from Paper Mill Effluent by Electrochemical Oxidation”. Journal of Water Resource and Protection. 3. 32-40.
Ratna Agustiningsih, 2014 Aplikasi Metode Elektrokoagulasi Pada Penghilangan Warna Metilen Biru Dan Limbah Cair Industri Pulp Dan Kertas Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
