Pengaruh Hydraulic Retention Time (HRT) dan pH pada Proses Asidogenesis Limbah Cair Pabrik Kelapa Sawit (LCPKS) Menggunakan Temperatur Termofilik

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DAFTAR PUSTAKA

[1] Ismail, Mohd Nasir. 2015. “Crude Palm Oil Update Indonesia: Outlook CPO Export Not too Great”. MPOB Palm News, 2 Februari 2015.

[2] Ahmed, Yunus, Zahira Yaakob, Parul Akhtar, Kamaruzzaman Sopian. 2014. Production of Biogas and Performance Evaluation of Existing Treatment Processes

in Palm Oil Mill Effluent (POME). Renewable and Sustainable Energy Reviews 42 1260–1278.

[3] Baharuddin, Azhari Samsu, Lim Siong Hock, Mohd Zulkhairi Md Yusof, Nor’ Aini Abdul Rahman, Umi kalsom Md Shah, Mohd Ali Hassan, Minato Wakisaka, Kenji Sakai dan Yoshihito Shirai. 2010. Effects of Palm Oil Mill Effluent (POME) Anaerobic Sludge From 500 m3 of Closed Anaerobic Methane Digested Tank on Pressed-Shredded Empty Fruit Bunch (EFB) Composting Process. African Journal of Biotechnology Vol. 9(1 6), hal. 2427-2436.

[4] Lam, M. & Lee, K. 2011. Renewable and Sustainable Bio-Energies Production From Palm Oil Mill Effluent (POME): Win-Win Strategies Toward Better Environmental Protection. Biotechnol. Adv., 29(1), 124-141.

[5] Soleimaninanadegani M, Manshad S. 2014. Enhancement of Biodegradation of Palm Oil Mill Effluents by Local Isolated Microorganisms. International Scholarly Research Notices 1–8.

[6] Basri, M.F., Yacob, S., Hassan, M.A., Shirai, Y., Wakisaka, M., Zakaria, M.R., Phang, L.Y. 2010. Improved Biogas Production Palm Oil Mill Effluent by a Scaled-down Anaerobic Treatment Process. Journal Microbiol Biotechnol. 26:505-506.

[7] Hassan, Osman Hassan, Tang Pei Ling, Mohammad Yusof Maskat, Rosli Md. Illias, Khairiah Badri, Jamaliah Jahim, Nor Muhammad Mahadi. 2013. Optimization of Pretreatments for The Hydrolysis of Oil Palm Empty Fruit Bunch Fiber (EFBF) Using Enzyme Mixtures. Biomass and Bioenergy. Volume 56, September 2013, Hal 137–146.

(2)

and Microbial Activity of A Two-Stage Thermophilic Anaerobic Membrane Bioreactor. Bioresource Technology 102 hal 5353–5360.

[9] Yang Li, Yaobin Zhang, , Zibin Xu, Xie Quan, Shuo Chen. 2015. Enhancement of Sludge Granulation in Anaerobic Acetogenesis by Addition of Nitrate and Microbial Community Analysis. Biochemical Engineering Journal Volume 95, 104–111.

[10] Dahiya, Shikha, Omprakash Sarkar, Y.V. Swamy dan S. Venkata Moha. 2015. Acidogenic Fermentation of Food Waste for Volatile Fatty Acid Production with Co-Generation of Biohydrogen. Bioresource Technology, Vol 182, 103–113.

[11] Mujdalipah, Siti, Salundik Dohong, Ani Suryani, Amalia Fitria. 2014. Pengaruh Waktu Fermentasi terhadap Produksi Biogas Menggunakan Digester Dua

Tahap pada Berbagai Konsentrasi Palm Oil-Mill Effluent dan Lumpur Aktif.

Agritech, Vol. 34, No.1.

[12] Pervin, Hasina M, Paul G. Dennis, Hui J. Lim, Gene W. Tyson, Damien J. Batstone, Philip L. Bond. 2013. Drivers of Microbial Community Composition in Mesophilic and Thermophilic Temperature-Phased Anaerobic Digestion

Pre-treatment Reactors. Water Research XXX 1-11.

[13] Nabarlatz, Debora-Alcida, Ligia-Patricia Arenas-Beltrán, Diana-Milena Herrera-Soracá, _{Diana-Andrea Niño-Bonilla. 2013}

. Biogas Production by Anaerobic Digestion of Wastewater from Palm Oil Mill Industry. C.T.F Cience Tecnol. Futuro Vol. 5 No. 2 Bucaramanga. ISSN 0122-5383.

[14] Vanegas, Carlos, John Bartlett. 2013. Anaerobic Digestion of Laminaria digitata: The Effect of Temperature on Biogas Production and Composition. Waste and Biomass Valorization, Vol 4, Issue 3, hal 509-515.

[15] Li, Qian, Wei Qiao, Xiaochang Wang, Kazuyuki Takayanagi, Mohammad Shofie, Yu-You Li. 2014. Kinetic Characterization of Thermophilic and Mesophilic Anaerobic Digestion for Coffee Grounds and Waste Activated Sludge. Waste Management 36 (2015).

(3)

[17] Trisakti, Bambang, Veronica Manalu, Irvan, Taslim, Muhammad Turmuzi. 2015. Acidogenesis of Palm Oil Mill Effluent to Produce Biogas: Effect of Hydraulic Retention Time and pH. Procedia Social and Behavioral Sciences 195 (2015) 2466-2474.

[18] Woong Kim, Seung Gu Shin, Juntaek Lim, Seokhwan Hwang. Effect of Temperature and Hydraulic Retention Time on Volatile Fatty Acid Production Based on Bacterial Community Structure in Anaerobic Acidogenesis Using Swine Wastewater. Bioprocess and Biosystems Engineering . June 2013, Volume 36, Issue 6, hal 791-798.

[19] Woong Kim, Seung Gu Shin, Juntaek Lim, Seokhwan Hwang. Effect of Temperature and Hydraulic Retention Time on Volatile Fatty Acid Production Based on Bacterial Community Structure in Anaerobic Acidogenesis Using Swine Wastewater. Bioprocess and Biosystems Engineering . June 2013, Volume 36, Issue 6, hal 791-798.

[20] Ditjenbun Pertanian. 2014. http://ditjenbun.pertanian.go.id. Pertumbuhan Areal Kelapa Sawit Meningkat. Diakses 28 Februari 2015.

[21] Zahrim A.Y., A. Nasimah, N. Hilal. 2014. Pollutants Analysis During Conventional Palm Oil Mill Effluent (POME) Ponding System and Decolourisation of Anaerobically Treated POME Via Calcium Lactate-Polyacrylamide. Journal of

Water Process Engineering 4 (2014) 159–165.

[22] Puah, Chiew Wei, Yuen May Choo, Soon Hock Ong. 2013. Production Of Palm Oil With Methane Avoidance At Palm Oil Mill: A Case Study Of Cradle-To-Gate Life Cycle Assessment. American Journal of Applied Sciences 10 (11): 1351-1355, 2013

[23] Ohimain, Elijah Ige, Sylvester Chibueze Izah. 2014. Estimation Of Potential Electrical Energy and Currency Equivalent From Un-Tapped Palm Oil Mill Effluents in Nigeria. International Journal of Farming and Allied Science. Vol., 3 (8): 855-862, 2014.

[24] Junga, P., P. Trávníč_{ek. 2014. Analyses of The Thermal Characteristics of}

Construction Details at The Biogas Station Plant. Res. Agr. Eng., 60: 121–126.

(4)

[26] Omer, Abdeen Mustafa. 2014. Applications of Biogas: State of the Art and Future Prospective. Journal of Chemistry and Materials Research Vol. 1 (3), 2014, 79−107.

[27] Hosseini, Seyed Ehsan, Mazlan Abdul Wahid. 2013. Feasibility Study of Biogas Production and Utilization as A Source of Renewable Energy in Malaysia. Renewable and Sustainable Energy Reviews 19 (2013) 454–462.

[28] Victor, Reena, S.Shajin, R.M.Roshni, S.R.Asha. 2014. Augmentative Invention of Biogas from the Agronomic Wastes Using Facultative Anaerobic Bacterial Strain. International Journal of Current Microbiology Applied and Science (2014) 3(4): 556-564.

[29] Molino, A, F. Nanna, Y. Ding , B. Bikson, G. Braccio. 2013. Biomethane Production by Anaerobic Digestion of Organic Waste. Fuel. Volume 103, January 2013, Hal 1003–1009.

[30] Lim, JW, JY Wang. 2013. Enhanced Hydrolysis and Methane Yield by Applying Microaeration Pretreatment to The Anaerobic Co-Digestion of Brown Water and Food Waste. Waste Management Volume 33, Issue 4, April 2013, hal 813–819

[31] Demirel, B., dan Scherer, P. 2008. The Roles of Acetotrophic and Hydrogenotrophic Methanogens During Anaerobic Conversion of Biomass to Methane. Rev Environmental Science Biotechnology 7:175. Ken Anderson, Paul Sallis, Sinan Uyanik. 2003. Anaerobic Treatment Processes The Handbook of Water and Wastewater Microbiology, hal. 391-426, ISBN 0-12-470100-0.

[32] Denise Cysneiros, Charles J.Banks, Sonia Heaven, Kimon-Andreas G.Karatzas. 2012. The Role of Phase Separation and feed Sysle Length in Leach Beds Coupled to Methanogenic Reactors for Digestion of a Solid Substrate (part 1): Optimisation of Reactor Performance. Jurnal Bioresource Technology, 103: hal. 56-63.

[33] A. Schievano, A. Tenca, S. Lonati, E. Manzini dan F. Adani. 2014. Can Two-Stage Instead of One-Two-Stage Anaerobic Digestion Really Increase Energy Recovery From Biomass? Applied Energy 124 hal. 335–342.

(5)

[35] Kongjan, Prawit, Sompong O-Thong, Irini Angelidaki. 2013. Hydrogen and Methane Production from Desugared Molasses Using A Two-Stage Thermophilic Anaerobic Process. Eng. Life Sci. 2013, 1 3, No. 2, 118–125.

[36] Kavitha, S., Jayashree, C., Adish Kumar, S., Yeom, Ick Tae, Rajesh Banu, J. 2014. The Enhancement of Anaerobic Biodegradability of Waste Activated Sludge by Surfactant Mediated Biological Pretreatment. Bioresource Technology xxx (2014) xxx–xxx.

[37] Shana, A., Ouki, S., Asaadi, M., Pearce, P., Mancini, G. 2013. The Impact of Intermediate Thermal Hydrolysis on The Degradation Kinetics of Carbohydrates in Sewage Sludge. Bioresource Technology 137 (2013) 239–244.

[38] Teodorita Al Seadi, et al. Biogas Handbook. (Biogas for Eastern Europe, 2008). ISBN 978-87-992962-0-0

[39] Anna Schurer, Asa Jarvis. Microbiological Handbook for Biogas Plants. (Svenskt Gastekniskt Center AB: Victoria, British Columbia, Canada, 2009).

[40] Gerhard Agrinz GmbH. 2010. Biogas Purificion and Assessment of The Nural Gas Grid. Austria : Leitbnitz hal 10.

[41] DS, El Monayeri , Atta N. N., El Mokadem S.M, dan Aboulfotoh A. M. 2013. Improvement of Anaerobic Digesters Using Pre-Selected Micro-Organisms. International Water Technology Journal, IWTJ. Vol. 3 –No. 1.

[42] Intanoo, Patcharee, Erdogen Gulari dan Sumaeth Chavadej. Simultaneous Production of Hydrogen and Methane from Cassava Wastewater Using a Two Stage Upflow Anaerobic Sludge Blanket System under Thermophilic Operation. 2013. The Italian Association of Chemical Engineering. ISBN 978-88-95608-30-3; ISSN 2283-9216.

[43] Pap, Bernadett, Ádám Györkei, Iulian Zoltan Boboescu, Ildikó K. Nagy, Tibor Bíró, Éva Kondoros, Gergely Maróti. 2014. Temperature-Dependent Transformation of Biogas-Producing Microbial Communities Points to The Increased Importance of Hydrogenotrophic Methanogenesis Under Thermophilic Operation. Bioresource Technology.

(6)

[45] Barik, Debabrata, S. Murugan. 2015. Assessment Of Sustainable Biogas Production from De-Oiled Seed Cake of Karanja - An Organic Industrial Waste From Biodiesel Industries. Fuel 148 (2015) 25–31.

[46] Veeken, A., Kalyuzhnyi, S., Scharff, H., Hamelars, B. 2000. Effect of pH and VFA on Hydrolysis of Organic Solid Waste. Journal of Environmental Engineering, Vol. 126, No.12, hal 1076 – 1081Ruter, John M. 2012. Importance of Water Quality in Container Plant Production. National Proceedings: Forest and Conservation Nursery Associations.

[47] Baldrian, Petr, Jaroslav Šnajdr, Vě_{ra Merhautová, Petra Dobiášová, Tomáš} Cajthaml, Vendula Valášková. 2013. Responses of The Extracellular Enzyme Activities in Hardwood Forest to Soil Temperature and Seasonality and The Potential Effects of Climate Change. Soil Biology and Biochemistry Volume 56, January 2013, hal. 60–68.

[48] Subramanyam, Revanuru dan Indra Mani Mishra. 2013. Characteristics Of Methanogenic Granules Grown on Glucose in An Upflow Anaerobic Sludge Blanket Reactor. Biosystem Engineering 114 hal 113-123.

[49] Moset Veronica, Morten Poulsen, Radziah Wahid, Ole Højberg dan Henrik Bjarne Mølle. 2015. Mesophilic Versus Thermophilic Anaerobic Digestion of Cattle

Manure: Methane Productivity and Microbial Ecology. Microbial Biotechnology

Journal.

[50] XJ Zhang. 2014. Anaerobic Process; Comprehensive Water Quality and Purification, Volume 3 Subbab 3.7 : hal. 108-122.

[51] Rene Moletta. 2011. Anaerobic Digestion Monitoring and Control. Laboratoire de Biotechnologie de l’Environment.

[52] R. Borja. 2011. Biogas Production; Downstream Processing and Product Recovery. Subbab 2.55 hal. 785-798.

[53] Ken Anderson, Paul Sallis, Sinan Uyanik. 2003. Anaerobic Treatment Processes” The Handbook of Water and Wastewater Microbiology. hal. 391-426, ISBN 0-12-470100-0.

(7)

International Perspectives on Water Quality Management and Pollutant Control. ISBN 978-953-51-0999-0.

[55] Henry Loekito. 2002. Teknologi Pengelolaan Limbah Industri Kelapa Sawit. Jurnal Teknologi Lingkungan, 3(3) 2002: hal. 242-250.

[56] Yee-Shian Wong, Tjoon Tow Teng, Soon-An Ong, M. Norhashimah, M. Rafatullah, Hong-Chen Lee, “Anaerobic Acidogenesis Biodegradation of Palm Oil Mill Effluent Using Suspended Closed Anaerobic Bioreactor SCABR) at Mesophilic Temperature”, Procedia Environmental Sciences, 18 (2013), hal: 433–441.

[57] Yee-Shian Wong, Tjoon Tow Teng, Soon-An Ong, M. Norhashimah, M. Rafatullah, Hong-Chen Lee, “Methane gas Production from Palm Oil Wastewater An Anaerobic Methanogenic Degradation Process in Continuous Stirrer Suspended Closed Anaerobic Reactor”, Journal of the Taiwan Institute of Chemical Engineers, 2013.

[58] Piyarat Boonsawang, Athirat rerngnarong, Chakrit Tongurai, Sumate Chaiprapat, ”Effect of pH, OLR and HRT on Performance of Acidogenic and Methanogenic Reactors for Treatment of Biodiesel Wastewater”, Desalination and Water Treatment, 2014, hal: 1–11.

[59] A.K. Kivaisi dan M. Mtila, ”Production of Biogas from Water Hyacinth (Eichhornia crassipes) (Mart) (Solms) in a Two-Stage Bioreactor”, World Journal of Microbiology and Biotechnology, 14 (1998), hal: 125–131.

[60] APHA. 1999. Standard Methods for the Examination of Water and Waste Water. Edisi 20. Washington DC : APHA, AWWA, WEF.

[61] Yoshimassa, Tomiuchi. 2009. Current Strategy of Metawater on Methane Fermentation of Palm Oil Plant Wastewater. Metawater Co.,Ltd.

[62] Standar Nasional Indonesia. Air dan Air Limbah – Bagian 15: Cara uji Kebutuhan Oksigen Kimiawi (KOK) Refluks Terbuka dengan Refluks Terbuka secara Titrimetri. SNI 06-6989.15-2004.

[63] Keputusan Menteri Negara Lingkungan Hidup, 1995, Nomor: KEP-51/MENLH/10/1995.

(8)

Maximization of Bio-Hydrogen Production: A Lab-Scalae Evaluation Using Batch Tests. Bioresource Technology 162 (2014) hal. 218-227.

[65] Dr. C. Yans Guardia Puebla, Dr.C. Suyén Rodríguez Pérez Ing. Yennys Cuscó Varona, M.C. Janet Jiménez Hernández Dr.C. Víctor Sánchez Girón. 2014. Two-Phase Anaerobic Digestion Of Coffee Wet Wastewater: Effect Of Recycle On Anaerobic Process Performance. Revista Ciencias Técnicas Agropecuarias, ISSN-1010-2760, Vol. 23, No. 1 hal. 25-31.

[66] Zhang, Jingxin, Yaobin Zhang, Xie Quan, Shuo Chen. 2015. Enhancement Of Anaerobic Acidogenesis By Integrating An Electrochemical System Into An Acidogenic Reactor: Effect Of Hydraulic Retention Times (HRT) And Role Of Bacteria And Acidophilic Methanogenic Archaea. Bioresource Technology 179, hal. 43-49

[67] Medina-Herrera, M. Rodríguez-García, A, Montoya-Herrera, L., Cárdenas-Mijangos, J., Godínez-Mora-Tovar, L.A., Bustos-Bustos E., Rodríguez-Valadez, F.J. Dan Manríquez-Rocha J. 2014. Anaerobic Digestion Of Slaughterhouse Solid Waste For The Optimization Of Biogas Production. International Journal Of Environment.

Res., 8(2):483-492.

[68] Wong, Yee-Shian, Tjoon Tow Teng, Soon-An Ong, M. Norhashimah M. Rafatullahb And Hong-Chen Lee. 2013. Anaerobic Acidogenesis Biodegradation Of Palm Oil Mill Effluent Using Suspended Closed Anaerobic Bioreactor (SCABR) at Mesophilic Temperature. International Symposium On Environmental Science And Technology.

[69] Ewelina Jankowska, Joanna Chwiałkowska, Mikołaj Stodolny, Piotr Oleskowicz-Popiel. 2015. Effect of pH and Retention Time on Volatile Fatty Acids Production During

Mixed Culture Fermentation. Bioresource Technology Volume 190 hal.274-280.

[70] Kaushalya C. Wijekoon, Chettiyappan Visvanathan, Amila Abeynayaka,. 2011. Effect of Organic Loading Rate on VFA Production, Organic Matter Removal and Microbial Activity of a Two-Stage Thermophilic Anaerobic Membrane Bioreactor. Bioresouce Technology, 102 : 5353–5360.

(9)

[72] Xiaoying Dong, Lijie Shao, Yan Wang, Wei Kou, Yanxin Cao, Dalei Zhang. 2015. Biogas by Two-Stage Microbial Anaerobic and Semi- Continuous Digestion of Chinese Cabbage Waste. Energy, Resource and Environmental Technology Vol 23 hal. 847-852.

[73] Maa, Huijun, Xingchun Chen, He Liu, Hongbo Liu, Bo Fu. 2016. Improved Volatile Fatty Acids Anaerobic Production From Waste Activated Sludge By pH Regulation: Alkaline or Neutral pH? Waste Management Vol 48 hal. 397-403. [74] Zhao, Xu, Lijuan Wang, Xuebin Lu, Shuting Zhang. 2014. Pretreatment of Corn Stover With Diluted Acetic Acid for Enhancement of Acidogenic Fermentation. Bioresource Technology Vol 158 hal. 12-18.

[75] Afrilia, Intan. 2015. Pengaruh Hydraulic Retention Time (HRT) dan pH pada Proses Asidogenesis Limbah Cair Pabrik Kelapa Sawit (LCPKS) pada Keadaan Ambient. Medan: Universitas Sumatera Utara.