Konsentrasi TSS Aerob
DAFTAR PUSTAKA
Ahrouch, M., Gatica, J. M., Draoui, K., Bellido, D., dan Vidal, H. 2018. Lead removal from aqueous solution by means of integral natural clays honeycomb monoliths. Journal of Hazardous Materials.
Akhirruliawati, M. S. 2009. Pengolahan air limbah industri tapioka secara aerob menggunakan mikroba Degra Simba. [Tesis]. Semarang: Universitas Dipenogoro.
Alaerts, G. dan Santika, S. S. 1984. Metoda Penelitian Air. Usaha Nasional, Surabaya.
Askari, H. 2015. Perkembangan Pengolahan Air Limbah. Bandung: Institut Teknologi Bandung.
Aslan, S., dan Sekerdag, N. 2008. The Performance of UASB reactors treating high-strenght wastewaters.
Asmadi dan Suharno. 2012. Dasar-dasar Teknologi Pengolahan Air Limbah. Yogyakarta:
Gosyen Publishing.
Basile, A., Chakraborty, S., dan Iulianelli, A. 2013. Membrane and Membrane Reactors for Sustainable Growth. Nova Science Publishers, Inc. Library of Congres Cataloging-in-Publication Data, New York, NY.
Baston, B. M. 2015. Kajian Efek Aerasi pada Kinerja Biofilter Aerob dengan Media Bioball untuk Pengolahan Air Limbah Budidaya Tambak Udang. [Skripsi]. Surabaya: Institut Teknologi Sepuluh Nopember.
Borja, R., Banks, C. J., dan Wang, Z. 1995. Kinetic evaluation of an anaerobic fluidised-bed reactor treating slaughterhouse wastewater. Bioresource Technology, 52(2): 163-167.
Breuninger, W. F., Piyachomkwan, K., dan Sriroth, K. 2009. Starch: Chemistry and Technology. Third Edition. :Elsevier Inc.
Brock, T. D. dan Madigan, M. T. 1991. Biology of Microorganisms. Sixth Edition.
London:Prentice Hall International Inc.
Chaudhary, D. S., Vigneswaran, S., Ngo, H, H., Shim, W. G., dan Moon, H. 2003. Biofilter in water and wastewater treatment. Korean Journal of Chemical Engineering, 20(6):
1054-1065.
Chavalparit, O., dan Ongwandee, M. 2009. Clean technology for the tapioca starch industry in Thailand. Journal of Cleaner Production, 17 (2009): 105-110.
Cheng, H., Lin, H., Huo, H., Dong, Y., Xue, Q., dan Cao, L. 2012. Continuous removal of ore floatation reagents by an anaerobic-aerobic biological filter. Bioresource Technology, 114 (2012): 225-261.
Chernicharo, C. A. 2007. Biological Wastewater Treatment: Anaerobic Reactors. Volume Four.
London: IWA Publishing.
Colon, J., Martinez-Blanco, J., Gabarrell, X., Rieradevall, J., Font, X., Artola, A., dan Sanchez, A. 2009. Performance of an industrial biofilter from a composting plant in the removal of ammonia and VOCs after material replacement. Journal Chem. Tech.
Biotechnology, 84(8): 1111-1117.
Deorsola, A. B., Camarinha, G. C., Carvalho, D. D. dan Sant’Anna Jr. G. L. 2011. Biological Treatment of Saline Wastewaters in an Aerobic Sequencing Batch Reactor.
Environmental Progress & Sustainable Energy, 0(0): 1-8.
Direstiyani, L. C. 2016. Kajian Kombinasi Anaerobic Baffled Reactor (ABR)-Anaerobic/Aerobic Biofilter (AF) untuk Pengolahan Limbah Cair Industri Tempe.
[Skripsi]. Bandung:Institut Teknologi Sepuluh November.
Djarwanti. 2015. Aplikasi Pengolahan Air Limbah Industri Tapioka dengan Sistem ABR dan UAF. Jurnal Riset Teknologi Pencegahan Pencemaran Industri, 6(1): 29-34.
Eckenfelder, W.W., Patoczka, J.B., dan Pulliam, G.W. 1988. Anaerobic Versus Aerobic Treatment In The USA. E.R.Hall and P.N.Hobson (eds). New York:Pergamon Press.
Feng, H., Hu, L., Mahmood, Q., Fang, C., Qiu, C., dan Shen, D. 2009. Effects of temperature and feed strength on a carrier anaerobic baffled reactor treating dilute wastewater.
Bioresource Technology, 239(2009):10371-10376.
Filliazati, M., Apriani, I., dan Zahara, T.2013. Pengolahan Limbah Cair Domestik dengan Biofilter Aerob menggunakan media Bioball dan tanaman Kiambang. Pontianak:
Universitas Tanjungpura.
Gerardi, M. H. 2006. Wastewater Bacteria. New Jersey: John Willey & Sons, Inc.
Gordon V. D., Fields, M. D., Kovach, K., dan Rodesney, C. A. 2017. Biofilms and mechanics: a review of experimental techniques and findings. Journal of Physics D: Applied Physics, 50(22): 1-12.
Govindaradjane, S. dan Sundararajan, T. 2013. Performance and Kinetics of a HUASB Reactor for Treating Tapioca-Based Starch Industrial Waste Stream. International Journal of Engineering and Advanced Technology, 1 Issue 4:55-64.
Hadiwidodo, M., Oktiawan, W., Primadani, A. R., Parasmita, B. N., dan Gunawan, I. 2012.
Pengolahan Air Lindi dengan Proses Kombinasi Biofilter Anaerob-Aerob dan Wetland. Jurnal Presipitasi, 9(2).
Hariyanto, B., dan Larasati, A. 2016. Dampak Pembuangan Limbah Tapioka terhadap Kualitas Air Tambak di Kecamatan Morgoyoso Kabupaten Pati. Prosiding Seminar Nasional Geografi UMS 2016. ISBN: 978-602-361-044-0.
Hasanah, U., dan Sugito. 2017. Removal COD dan TSS Limbah Cair Rumah Potong Ayam menggunakan Sistem Biofilter Anaerob. Jurnal Teknik Waktu, 15(1).
Hastuti, E., Medawati I., dan Darwati, S. 2014. Kajian Penerapan Teknologi Biofilter Skala Komunal untuk memenuhi Standar Perencanaan Pengolahan Air Limbah Domestik.
Jurnal Standardisasi, 16(3): 205-214.
Herlambang, A. 2002. Teknologi Pengolahan Limbah Cair Industri Tahu. Pusat Pengkajian dan Penerapan Teknologi Lingkungan (BPPT) dan Badan Pengendalian Dampak Lingkungan Samarinda.
Herlambang, A. 2005. Penghilangan Bau secara Biologi dengan Biofilter Sintetik. JAI, 1(1): 99-112.
Hidayat, N., Suhartini, S., dan Widiatmono, B. R. 2011. The Performance of Natural Filter in Treating Tapioca Wastewater with and without Aeration. Journal of Agriculture Food Technology, 1(11): 204-211.
Hidayat, N., Suhartini, S., dan Indriana, D. 2012. Horizontal Biofilter System in Tapioca Starch Wastewater Treatment: The Influence of Filter Media on the Effluent Quality.
Agroindustrial Journal, 1 Issue 1:1-6.
Hossain, M. I., Paparini, A., dan Ruwisch, R. C. 2016. Rapid Adaptation of Activated Sludge Bacteria into a Glycogen Accumulating Biofilm enabling Anaerobic BOD Uptake.
Bioresource Technology.
Husin, A. 2008. Pengolahan Limbah Cair Industri Tahu dengan Biofiltrasi Anaerob dalam Reaktor FIXED-BED. [Tesis]. Medan: Universitas Sumatera Utara.
Jing, J., Feng, J., Li, W., dan Xu, Y. 2009. Removal of COD from coking-plant wastewater in the moving-bed biofilm sequencing batch reactor. Korean Journal of Chemical Engineering, 26(2): 564-568.
Kaneko, H., Setyawaty, R., Hirayama, K. K., dan Hirayama, K. 2011. Current Tapioca Starch Wastewater Management in Indonesia. World Applied Science Journal, 14(5): 658-665.
Kastner, J. R., Das, K. C., dan Crompton, B. 2004. Kinetics of ammonia removal in a pilot-scale biofilter. Trans. ASAE, 47(5): 1867-1878.
Kementerian Lingkungan Hidup. 2006. Pedoman Pemanfaatan dan Pengolahan Limbah Tapioka. KLH: Jakarta.
Kesaano, M. dan Sims, R. C. 2014. Algal biofilm based technology for wastewater treatment.
Algal Research, 5(2014): 231-240.
Kholif, M. A dan Hermana. 2013. The Wastewater Treatment of Chicken Slaughterhaouse by Using Submerged up flow Anaerobic Biofilter. Proceeding International Seminar on Enviromental Engineering (ISEE, 2013) hal. 484-490.
Kholif, M. A., Sutrisno, J., dan Prasetyo, I. D. 2018. Penurunan Beban Pencemar pada Limbah Domestik dengan menggunakan Moving Bed Biofilter Reaktor (MBBR). Al-ard:
Jurnal Teknik Lingkungan, 4(1):01-09.
Kim, N. J., Hirai, M., dan Shoda, M. 2000. Comparison of organic and inorganic packing materials in the removal of ammonia gas in biofilters. Journal Hazard Mater, 72(1):
77-90.
Kolawole, O. P. 2014. Cassava Processing and the Environmental Effect. World Sustainability Forum 2014. Conference Proceedings Paper.
Latif, M. A., Ahmad, A., Ghufran, R., dan Wahid, Z. A. 2012. Effect of Temperature and Organic Loading Rate on Upflow Anaerobic Sludge Blanket Reactor and CH4
Production by Treating Liquidized Food Waste. Environmental Progress &
Sustainable Energy, 31(1):114-121.
Lim, S. J., dan Fox, P. 2011. A kinetic analysis and experimental validation of an integrated of anaerobic filter and biological aerated filter. Bioresource Technology, 102(2011):
10371-10376.
Liu, Y.-X., Yang, T. O., Yuan, D, -X., dan Wu, X.-Y. 2010. Study of municipal wastewater treatment with oyster shell as biological aerated filter medium. Desalination, 254(1-3): 149-153.
Lutfi, M. 2000. The Effect of both, Bed Filter Thickness and Kinds Trickling Filter Media on Various of Flowrates to Decrease of Tapioca Wastewater. Journal of Agricultural Technology, 1(3): 40-44.
Maier, R. M., dan Pepper, I. L. 2015. Bacterial Growth. Environmental Microbiology, 37-56.
Maslon, A., dan Tomaszek, J. A. 2015. A study on the use of the bioball as a biofilm carrier in a sequencing batch reactor. Bioresource Technology, 196(2015): 577-585.
Massora, M., Martani, E., Sugiharto, E., Sarwom, R., dan Sinaga, T. 2017. Seleksi Material Penempelan Biofilm Isolat Bakteri Resisten Tembaga asal PT. Freeport Indonesia.
Biowallacea, 4(1): 527-532.
Metcalf and Eddy. 1991. Waste Water Engineering Treatment. New York: Mc. Graw-Hill, Inc.
Metcalf and Eddy. 2003. Wastewater Engineering: Treatment And Reuse. McGraw Hill Companies Inc China.
Moertinah, S. 2010. Kajian Proses Anaerobik sebagai Alternatif Teknologi Pengolahan Air Limbah Industri Organik Tinggi. Jurnal Riset Teknologi Pencegahan dan Pencemaran Industri, 1(2):104-114.
Nath, A., Chakraborty, S., dan Bhattacharjee, C. 2014. Bioreactor and Enzymatic Reactions in Bioremediation. Elsevier Inc.
Nurcahyani, P. R. 2006. Kajian Aplikasi Bakteri Nitrosomonas sp. pada Teknik Biofilter untuk Penghilangan Emisi Gas Amoniak. [Skripsi]. Bogor: Institut Pertnian Bogor.
Pecar, D., Pohleven, F., dan Gorsek, A. 2020. Kinetics of methane production during anaerobic fermentation of chicken manure with sawdust and fungi pretreated wheat straw. Waste Management, 102(2020): 170-178.
Permatasari, R., Rinanti, A., dan Ratnaningsih, R. 2018. Treating domestic effluent wastewater treatment by aerobic biofilter with bioballs medium. The 4th International Seminar on Sustainable Urban Development. IOP Publishing doi:10.1088/1755-1315/106/1/01048.
Peraturan Menteri Lingkungan Hidup Nomor 5 Tahun 2014
Poh, P. E., dan Chong, M. F. 2009. Development of anaerobic digestion methods for palm oil mill effluent (POME) treatment. Bioresource Technology, 100(1): 1-9.
Ramalho, R.S. 1977. Introduction to Wastewater Treatment Processes. London: Academic Press, Inc.
Ramirez, M., Gomez, J. M., Aroca, G., dan Cantero, D. 2009. Removal of ammonia by immobilizied Nitrosomonas europaea in a biotrickling filter packed with polyurethane foam. Chemosphere, 74(10): 1385-1390.
Ratnawati, R. dan Kholif, M. A. 2018. Aplikasi media batu apung pada Biofilter Anaerobik untuk Pengolahan Limbah Cair Rumah Potong Ayam. Jurnal Sains dan Teknologi Lingkungan 3(1): 01-14.
Rebah, F. B., Kantardjieff, A., Yezza, A., dan Jones, J. P. 2010. Performance of two combined anaerobic-aerobic biofilters packed with clay or plastic media for the treatment of highly concentrated effluent. Desalination, 253(1-3): 141-146.
Ridlo, R. 2017. Dasar-dasar Fermentasi Anaerobik. Artikel Ilmiah.
Rincon, B., Borja, R., Gonzalez, J. M., Portillo, M. C., dan Saiz-Jimenez. 2008. Influence of organic loading rate and hydraulic retention time on the performance, stability and microbial communities of one-stage anaerobic digestion of two-phase olive mill solid residue. Biochemical Engineering Journal, 40(2008):253-261.
Romali, N. S., dan Mokhtar, N. 2011. Application of Biofilter System for Domestic Wastewater Treatment. International Journal of Civil Engineering & Geo-Environmental 2.
Said, N. I. 2005. Aplikasi Bio-ball untuk Media Biofilter Studi Kasus Pengolahan Air Limbah Pencucian Jean. 1(1).
Said, N. I. 2017. Tenknologi Pengolahan Air Limbah Teori dan Aplikasi. Jakarta:Erlangga.
Sakuma, T., Jinsiriwanit, S., Hattori, T., dan Deshusses, M. A. 2008. Removal of ammonia from contaminated air in a biotrickling filter-denitrifying bioreactor combination system.
Water Research, 42(17): 4507-4513.
Sato, A., Utomo, P., dan Abineri, H. S. B. 2015. Pengolahan Limbah Tahu secara Anaerobik-Aerobik Kontinyu. Seminar Nasional Sains dan teknologi Terapan. ISBN 978-602-98569-1-0.
Senturk, E., Ince, M., dan Engin, O. G. 2010. Treatment efficiency and VFA composition of a thermophilic anaerobic contact reactor treating food industry wastewater. Journal of Hazardous Materials, 176(1-3): 843-848
Senturk, E., Ince, M., dan Engin. G.O. 2014. The effect of shock loading on the performance of a thermophilic anaerobic contact reactor at constant organic loading rate. Journal of Environmental Health Science & Engineering, 12(84): 1-6.
Show, K. Y dan Tay, J. H. 1999. Influence of support media on biomass growth and retention in anaerobic filters. Water Resource, 33(6): 1471-1481.
Silalahi, F. T. N., Halimatuddahliana dan Husin, A. 2018. Pengolahan Limbah Cair Tahu menggunakan Bioreaktor Anaerob Satu Tahap dan Dua Tahap Secara Batch. Jurnal Teknik Kimia, 7(1): 34-40.
Soeparno. 1992. Ilmu dan Teknologi Daging. Yogyakarta: Gajah Mada Press.
Soltani, R. D. C., Rezaee, A., Godini, H., Khataee, A. R., dan Jorfi, S. 2012. Organic Matter Removal Under High Loads in a Fixed-Bed Sequencing Batch Reactor with Peach Pit as Carrier. Environmental Progress & Sustainable Energy, 0(0): 1-7.
Sreethawong, T., Chatsiriwatana, S., Rangsunvigit, P., dan Chavadej, S. 2010. Hydrogen production from cassava sequencing batch reactor: Effects of operational parameters, COD:N ratio, and organic acid composition. International Journal of Hydrogen Energy, 35(2010): 4092-4102.
Sugiharto. 1987. Dasar-dasar Pengolahan Air Limbah. UI Press: Jakarta.
Sun, L., Wan, S., Yu, Z., Wang, Y., dan Wang, S. 2012. Anaerobic biological treatment of high strength cassava starch wastewater in a new type up-flow multistage anaerobic reactor. Bioresource Technology, 104(2012): 280-288.
Suprapti, L. 2005. Tepung Tapioka Pembuatan dan Pemanfaatannya (Tapioca Starch:
Processing and Utilisation). Yogyakarta: Penerbit Kanisius.
Suryani, Ambarsari, L., Artika, I. M., dan Susanti, H. E. 2011. Characterization of Bioflocculant Producing-Bacteria Isolated from Tapioca Waste Water. HAYATI Journal of Bioscience, 18(4).
Talwar, S., Sangal, V. K., dan Verma, A. 2018. Feasibility of using combined TiO2
photocatalysis and RBC process for the treatment of real pharmaceutical wastewater.
Journal of Photochemistry and Photobiology A: Chemistry, 353(2018): 263-270.
Tamilarasan, K., Banu, J. R., Jayashree, C., Yogalakshmi, K. N., dan Gokulakrishnan, K. 2017.
Effect of organic loading rate on electricity generating potential of upflow anaerobic
microbial fuel cell treating surgical cotton industry wastewater. Journal of Environmental Chemical Engineering, 5(2017): 1021-1026.
Tawfik, A., dan El-Kamah, H. 2012. Treatment of fruit-juice industry wastewater in a two-stage anaerobic hybrid (AH) reactor system followed by a sequencing batch reactor (SBR).
Environmental Technology, 33(4): 429-436.
Tchobanoglous, G. dan Burton, F. L. 1991. Wastewater Engineering Treatment, Disposal, and Reuse. Third ed. Singapore: McGraw-Hill Inc.
Tchobanoglous, G., Burton, F. L., Tsuchihashi, R., dan Stensel, H. D. 2003. Wastewater Engineering:Treatment and Reuse. Forth ed. New York: McGraw Hill.
Tchobanoglous, G., Theissen, H., dan Vigil, S. A. 2004. Integrated Solid Waste Management.
USA:McGraw Hill.
Tchobanoglous, G., Burton, F. L., Tsuchihashi, R., dan Stensel, H. D. 2014. Wastewater Engineering: Treatment and Resource recovery. Fifth ed. New York: McGraw-Hill Education.
Titiresmi dan Sopiah, N. 2006. Teknologi Biofilter untuk Pengolahan Limbah Ammonia. Jurnal Teknik Lingkungan, 7(2): 173-179.
Truong, H. T. B., Nguyen, P. V., dan Nguyen, P. T. T. 2018. Treatment of tapioca processing wastewater in a sequencing batch reactor: Mechanism of granule formation and performance. Journal of Environmental Management, 218(2018): 39-49.
Utami, L. I., Wahyuni, K. N., Utari, Y. K., dan Wafiyah, K. 2019. Pengolahan Limbah Cair Rumput Laut secara Biologi Aerob Proses Batch. Jurnal Teknik Kimia, 13(2): 39-43.
Valentis, G., dan Lesavre, J. 1990. Wastewater Treatment by Attached-Growth Microorganisms on a Geotextile Support. Water Science and Technology, 22(1-2): 43-51.
Van Loosdrecht, M. C. 1990. Influence of Interfaces on Microbial Activity. Microbial Reviews, 54(1): 75.
Vegantara, D. A. 2009. Pengolahan Limbah Cair Tapioka menggunakan Kotoran Sapi Perah dengan Sistem Anaerobik. [Skripsi]. Bogor:Institut Pertanian Bogor.
Wei, X.M., Lin, C., Duan, N., Peng, Y.X., dan Ye, Z.Y. 2010. Application of aerobic biological filter for treating swine farms wastewater. Procedia Environmental Science 2 (2010):
1569-1584.
Wirda, F. R., dan Handajani, M. 2011. Degradation of Organic Compound in Liquid Phase Biowaste With Additional Water Variation at Ratio 1:2 in Batch Reactor. Bandung:
Institut Teknologi Bandung.
Yang, L., Wang, X., Funk, T. L., dan Gates, R. S. 2011. Biofilter Media Characterization and Airflow Resistance Test. Transactions of the ASABE, 54(3): 1127-1136.
Yazid, F. R., Syafruddin dan Samudro, G. 2012. Pengaruh Variasi Konsentrasi dan Debit Pada Pengolahan Air Artifisial (Campuran Grey Water dan Black Water) Menggunakan Reaktor UASB. Jurnal Presipitasi, 9(1):31-40.
Yeon, H. J., Chang, D., Kim, D. W., Kim, B. K., Choi, J. K., Lim, S. Y., Yoon, C. Y., Son, D.
J., dan Kim, W. Y. 2011. Comparison of Attached Growth Process with Suspended Growth Process. World Academy of Science, Engineering and Technology, 60(2011):
649-651.
Yin, J., dan Xu, W. 2009. Ammonia biofiltration and community analysis of ammonia-oxidizing bacteria in biofilters. Bioresource Technology, 100(17): 3869-3876.
Zheng, C., Zhao, L., Zhou, X., Fu, Z., dan Li, A. 2013. Treatment Technologies for Organic Wastewater. Water Treatment.
Zhu, Y., Zhang, Y., Ren, H., Geng, J., Xu, K., Huang, H., dan Ding, L. 2015. Physicochemical characteristics and microbial community evolution of biofilms during the start-up period in a moving bed biofilm reactor. Bioresource Technology, 180: 345-351.
Lampiran X
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