References

(1)

American Water Works Association. 1992.APHA Method 9215: Standard Methods for the Examination of Water and Wastewater. American Public Health Association.

40 CFR 141.121.

Botheju D, Lie B, Bakke R. 2009. Oxygen Effects in Anaerobic Digestion. Modeling, Identification and Control, Vol. 30, No. 4, 2009, pp. 191.

Bryant M. (1979). Microbial methane production: theoretical aspects. Journal of Animal Science. 48(1):193–201.

Chow May Jinn, H’ng Paik San. (2015). Empty Fruit Bunches in the Race for Energy, Biochemical, and Material Industry. pp 375-389

Christy E. Manyi-Loh, Sampson N. Mamphweli, Edson L. Meyer, Anthony I. Okoh, Golden Makaka, and Michael Simon. (2013). Microbial Anaerobic Digestion (Bio- Digesters) as an Approach to the Decontamination of Animal Wastes in Pollution Control and the Generation of Renewable Energy. Int J Environ Res Public Health.

Sep; 10(9): 4390–4417.

Claassen PAM, Lopez Contreras AM, Sijtsma L, et al. (1999). Utilisation of biomass for the supply of energy carriers. Applied Microbiology and Biotechnology. 52(6):741–755.

Clanton C. J, Schmidt D. R. 2001. Sulfur Compounds In Gases Emitted From Stored Manure. Page 1229

Conrad R. (1999). Contribution of hydrogen to methane production and control of hydrogen concentrations in methanogenic soils and sediments. FEMS Microbiology Ecology. 28(3):193–202.

(2)

Darmosarkoro, W., and Winarna, 2001. Penggunaan TKS dan Kompos TKS untuk Meningkatkan Pertumbuhan dan Produksi Tanaman. Dalam Darmosarkoro, et al (Eds). Lahan dan Pemupukan Kelapa Sawit Edisi 1. 2007. PPKS, Medan.

Davis K. E., Joseph S. J., Janssen P. H. (2005). Effects of growth medium, inoculum size, and incubation time on culturability and isolation of soil bacteria. Appl. Environ.

Microbiol. 71, 826–834. 10.1128/AEM.71.2.826-834.2005.

de Bok FAM, Harmsen HJM, Plugge CM, et al. (2005). The first true obligately syntrophic propionate-oxidizing bacterium, Pelotomaculum schinkii sp. nov., co- cultured with Methanospirillum hungatei, and emended description of the genus Pelotomaculum. International Journal of Systematic and Evolutionary Microbiology. 55(4):1697–1703.

Deublein, D., Steinhauser, A., 2010. Biogas from waste and renewable resources: An introduction. John Wiley & Sons.

Dr. Haopeng Wang, Dr. Anthony Coleman, Kapil Dhall and Mahender Singh. (2016).

Patent Landscape Report: Palm Oil Production and Waste Treatment Technologies.

Intellectual Property Corporation of Malaysia (MyIPO) and the Malaysian Palm Oil Board (MPOB), p : 74

Embrandiri, A et al. (2013). Palm Oil Mill Wastes Utilization; Sustainability in the Malaysian Context. International Journal of Scientific and Research Publications, Volume 3, Issue 3, March 2013:1-7

Erliza, H. (2010). Role of agro-industry process technology in the development of oil palm downstream industry (Bogor: PT Penerbit IPB Press).

Getachew D. Gebreeyessus and Pavel Jenicek. (2016). Thermophilic versus

(3)

Griffin ME, McMahon KD, Mackie RI, Raskin L. (1998). Methanogenic population dynamics during start-up of anaerobic digesters treating municipal solid waste and biosolids. Biotechnology and Bioengineering. 57(3):342–355.

Hafner, S and Rennuit, C. 2018. Predicting methane and biogas production with the biogas package. The Comprehensive R Archive Network. 2

Hambali, E and Rivai, M. (2017). The Potential of Palm Oil Waste Biomass in Indonesia in 2020 and 2030. IOP Conf. Ser.: Earth Environ. Sci. 65 012050.

Hassan, S., L.S. Kee, and H.H. Al-Kayiem. (2013). Experimental study of palm oil mill effluent and oil palm frond waste mixture as an alternative biomass fuel.

Joi=urnal of Engineering Science and Technology 8(6) : 703-712

Hayashi, K., (2007). Material flow analysis and environmental impact analysis of biowastes generated from palm oil industry in Indonesia, Workshop for Studies on Extracting Resources from Biowastes by the Refinery Techonology, 26-27 Feb. 2007, EcoTopia Science Institute, Nagoya University, pp21-22.

Jay JM. 2000. Modern food microbiology. 6th ed. Gaithersburg (MD): Aspen. p 679.

Kozani, Stefan Junne, (2014). Basics of the Biogas Production Process. Berlin Institute of Technology

Lay, J-J., Li, Y-Y., and Noike, T., (1998). The influence of pH and ammonia concentration on the methane production in high-solids digestion processes. Water environment research. Vol 70(5) : 1075-1082

Leona Paulová, Petra Patáková, and Tomáš Brányik. (2013). Advanced Fermentation Processes. DOI: 10.1201/b15426-6. P: 89.

(4)

Lindmark J, Thorin E, Fdhila R, Dahlquist E. 2014. Effects of mixing on the result of anaerobic digestion. Renewable and Sustainable Energy Reviews. Volume

40, December 2014, Pages 1030-1047.

Montgomery, L and Bochmann, G. 2014. Pretreatment of feedstock for enhanced biogas production. IEA Bioenergy. Pp 7-16.

Mossel DAA, Corry JEL, Struijk CB, Baird RM. 1995. Essentials of the microbiology of foods: a textbook for advanced studies. Chichester (England): John Wiley and Sons. 699p.

Nagendran, B.; Unnithan, U. R.; Choo, Y. M.; Sundram, Kalyana (2000). "Characteristics of red palm oil, a carotene- and vitamin E–rich refined oil for food uses"(PDF). Food and Nutrition Bulletin. 21 (2): 77–82.

Parawira W, Read JS, Mattiasson B, Björnsson L. (2008). Energy production from agricultural residues: high methane yields in pilot-scale two-stage anaerobic digestion. Biomass and Bioenergy. 32(1):44–50.

Peter Jacob Jørgensen. Biogas – green energy. (2009). Plant Energy and Researcher for a Day – Faculty of Agricultural Sciences, Aarhus University 2nd edition.

Reeves, James B.; Weihrauch, John L.; Consumer and Food Economics Institute (1979). Composition of foods: fats and oils. Agriculture handbook 8-4. Washington, D.C.: U.S. Dept. of Agriculture, Science and Education Administration. p. 4.

REN21 (Renewable Energy Policy Network for the 21st Century (2015), Renewables Global Status Report 2015, REN21, Paris.

Ruffino, B.; Campo, G.; Genon, G.; Lorenzi, E.; Novarino, D.; Scibilia, G.; Zanetti, M. (2015). Improvement of anaerobic digestion of sewage sludge in a wastewater

(5)

Schink B. (1997). Energetics of syntrophic cooperation in methanogenic degradation. Microbiology and Molecular Biology Reviews. 61(2):262–280.

Scientific American Board of Editors (December 2012), "The Other Oil Problem", Scientific American, 307 (6), p. 10.

Singleton P (2006). "Acetogenesis". Dictionary of microbiology and molecular biology (3rd ed.). Chichester: John Wiley. ISBN 978-0-470-03545-0.

Smith P. (1966). The microbial ecology of sludge methanogenesis. Developments in Industrial Microbiology. 7:156–161

Stronach, S. M., Rudd, T., and Lester, J. N., (1986). Anaerobic digestion processes in wastewater treatment. Berlin : Springer.

Thauer, R. K. (1998). "Biochemistry of Methanogenesis: a Tribute to Marjory Stephenson". Microbiology. 144: 2377–2406. doi:10.1099/00221287-144-9-2377.

VDI-Handbuch Energietechnik. (2006). Fermentation of organic materials Characterisation of the substrate, sampling, collection of material data, fermentation tests, VDI 4630. ICS 13.030.30; 27.190

Verstraete W, Doulami F, Volcke E, Tavernier M, Nollet H, Roles J. (2002). The importance of anaerobic digestion for global environmental development. Proceedings of the JSCE Annual Meeting. pp. 97–102.