63






                       Mamimin, C., Thongdumyu, P., Hniman, A., Prasertsan, P., Imai, T. and O-Thong, S.
                              2012. Simultaneous thermophilic hydrogen production and phenol removal
                              from  palm  oil  mill  effluent  by  Thermoanaerobacterium-rich  sludge.
                              International Journal of Hydrogen Energy. 37 (20), 15598-15606.

                       Mata-Alvarez, J., Mace S. and Labres, P. 2000. Anaerobic digestion of organic solid
                              wastes. An overview of research achievements and perspectives. Bioresource
                              Technology. 74, 3-16.
                       Miao. H., Lu, M., Zhao, M., Huang, Z., Ren, H. and Yan. Q. 2013. Enhancement of taihu

                              blue  algae  anaerobic  digestion  efficiency  by  natural  storage.  Bioresource
                              Technology. 149, 359-366.
                       Najafpour, G.D., Zinatizadeh, A.A.L., Mohamed, A.R., Isa, M.H. and Nasrollahzadeh, H.
                              2006. High-rate anaerobic digestion of palm oil mill effluent in an up-flow

                              anaerobic sludge-fixed film bioreactor. Process Biochemistry. 41, 370–379.
                       O-Thong, S., Prasertsan, P., Intrasungkha, N., Dhamwichukorn, S. and Birkeland, N.K.
                              2008.  Optimization  of  simultaneous  thermophilic  fermentative  hydrogen

                              production  and  COD  reduction  from  palm  oil  mill  effluent  by
                              Thermoanaerobacterium-rich  sludge.  International  Journal  of  Hydrogen
                              Energy. 33, 1221–1231.
                       Pastare, L., Romagnoli, F., Rugele, K., Dzene, I. and Blumberga, D. 2015. Biochemical
                              methane  potential  from  anaerobic  digestion  of  the  macrophyte

                              Ceratophyllum demersum: A batch test study for Latvian conditions. Energy
                              Procedia. 72, 310-316.
                       Pohland, F. and Ghosh, S. 1971. Developments in anaerobic stabilization of organic

                              wastes: the two-phase concept. Environmental Letters. 1 (4), 255-266.
                       Poh, P.E. and Chong, M.F. 2010. Biomethanation of palm oil mill effluent (POME) with
                              a thermorphilic mixed culture cultivation using POME as a substrate. Chemical
                              Engineering Journal. 164, 146-154.

                       Porpatham, E., Ramesh, A. and Nagalingam, B. 2007. Effect of hydrogen addition on
                              the  performance  of  a  biogas  fuelled  spark  ignition  engine.  International
                              Journal of Hydrogen Energy. 32, 2057–2065.
                       Prasertsan,  P.,  O-Thong,  S.  and  Birkeland,  N.K.  2009.  Optimization  and  microbial

                              community analysis for production of biohydrogen from palm oil mill effluent
                              by  thermophilic  fermentative  process.  International  Journal  of  Hydrogen
                              Energy. 34, 7448–7459.
                       Nazaitulshila Rasit, N., Idris, A., Harun, R. and Ghani, W.A.W.A.K. 2015. Effects of lipid

                              inhibition on biogas production of anaerobic digestion from oily effluents and