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LITERATURE CITED

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    Demirbas, A. (2009). Biofuels securing the planet's future energy needs, Energy Conversion and Management, 50, 22392249.
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    Cuetos, M.J., Gómez, X., Otero, M., & Morán, A. (2008). Anaerobic digestion of solid slaughterhouse waste (SHW) at laboratory scale, Influence of co-digestion with the organic fraction of municipal solid waste (OFMSW), Biochemical Engineering Journal, 40, 99106.
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    Das, D., & Vezuriglu, T.N. (2001). Hydrogen production by biological processes, a survey of the literature, International Journal of Hydrogen Energy, 26, 1328.
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    Liu, D., Zeng, R.J., &Angelikadi, I. (2006). Hydrogen and methane production from household solid waste in the two-stage fermentation process, Water Resources, 40, 22302236.
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    Wang, X., & Zhao, Y.C. (2009). A bench scale study of fermentative hydrogen and methane production from food waste in integrated two-stage process, International Journal of Hydrogen Energy, 34, 245254.
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    Dong, L., Zhenhong, Y., Yongming, S., Xiaoying, K., & Yu, Z. (2009). Hydrogen production characteristics of the organic fraction of municipal solid wastes by anaerobic mixed culture fermentation, International Journal of Hydrogen Energy, 34, 812820.
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    Lee, D.Y., Ebie, Y., Xu, K.Q., Li, Y.Y., & Inamori, Y. (2010). Continuous H2 and CH4 production from high-solid food waste in the two-stage thermophilic fermentation process with the recirculation of digester sludge, Bioresource Technology, 101, S42S43.
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    Gómez, X., Fernández, C., Fierro, J., Sánchez, M.E., Escapa, A., & Morán, A., (2011). Hydrogen production, two stage processes for waste degradation, Bioresource Technology, 102, 86218627.
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    Gómez, X., Morán, A., Cuetos, M.J., & Sánchez, M.E. (2006). The production of hydrogen by dark fermentation of municipal solid wastes and slaughterhouse waste, a two phase process, Journal of Power Source, 157, 727732.
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    Tien Anh, N., & Sang Jun, S. (2012). Dark fermentation of hydrogen from waste glycerol using hyperthermophilic eubacterium thermotoga neapolitana, Environmental Progress & Sustainable Energy, 31, 466473.
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    Redwood, D., Orozco, R., Majewski, A., & Macaskie, L. (2012). An integrated biohydrogen refinery, Synergy of photofermentation, extractive fermentation and hydrothermal hydrolysis of food wastes. Bioresource Technology, 119, 384392.
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    Fan, Y., Li, C., Lay, J., Hou, H., & Zhang, G. (2004). Optimization of initial substrate and pH levels for germination of sporing hydrogen producing anaerobes in cow dung compost, Bioresource Technology, 91, 189193.
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    Alzate-Gaviria, L.M., Sebastian, P.J., Perez-Hernandez, A., & Eapen, D. (2007). Comparison of two anaerobic systems for hydrogen production from the organic fraction of municipal solid waste and synthetic wastewater, International Journal of Hydrogen Energy, 32, 31413146.
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    Kyazze, G., Dinsdale, R., Guwy, A.J., Hawles, F.R., Premier, G.C., & Hawkes, D.L. (2007). Performance characteristics of two-stage dark fermentative system producing hydrogen and methane continuously, Biotechnology and Bioengineering, 97, 759770.
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    Shin, H., Youn, J., & Kim, S. (2004). Hydrogen production form food waste in anaerobic mesophilic and thermophilic acidogenesis, International Journal of Hydrogen Energy, 29, 13551363.
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    Kim, S., Han, S., & Shin, H. (2006). Effect of substrate concentration on hydrogen production and 16S rDNA-based análisis of the microbiol community in a continuos fermenter, Process Biochemistry, 41, 199207.
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    Kugelman, I., & McCarty, P.L. (1965). Cation toxicity and stimulation in anaerobic waste treatment, Journal of Water Pollution Control Federation, 37, 97116.
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    Rinzema, A., Van Lier, J., & Lettinga, G. (1988). Sodium inhibition of acetoclastic methanogens in granular sludge from a UASB reactor, Enzyme Microbial Technology, 10, 2432.
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    Rubi, M., Behling, E., Diaz, A., Chacin, E., & Fernandez, N. (2001). Anaerobic inhibition by calcium addition in an UASB reactor September 2–6, Proceedings of the 9th World Congress of Anaerobic Digestion, (pp. 657659), Antwerpen, Belgium.
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    Kraemer, T., & Bagley, D. (2005). Continuous fermentative hydrogen production using a two-phase reactor system with recycle, Environmental Science and Technology, 39, 38193825.
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    Chen, C., Sen, B., Chuang, Y., Tsai, C., & Lay, C.H. (2012). Effect of effluent recycle ratio in a continuous anaerobic biohydrogen production system, Journal of Cleaner Production, 32, 236243.
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    Obezu, F.O., Ngoma, L., & Gray, V.M. (2012). Interrelationship between bioreactor volumen, effluent recycle rate, temperature, pH, %H2, hydrogen productivity and hydrogen yield with undefined bacterial cultures, International Journal of Hydrogen Production, 37, 55795590.
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    Gómez, X., Redondas, V., & Morán, A. Procedimiento para la obtención de hidrógeno y metano a partir de residuos orgánicos. Patent application number P201031457, Spanish Office of Patents and Tredmarks.
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    APHA-AWWA-WPCF. (1989). Standard methods for the examination of water and wastewater, New York: American Public Health Association.
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    Gómez, X., Cuetos, M.J., Prieto, J.I., & Morán, A. (2009). Bio-hydrogen production from waste fermentation, Mixing and static conditions, Renewable Energy, 34, 970975.
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    Han, S.-K., & Shin, H.-S. (2004). Biohydrogen production by anaerobic fermentation of food waste, International Journal of Hydrogen Energy, 29, 569577.
  • 28
    Liu, D., Zeng, R.J., & Angelikadi, I. (2006). Hydrogen methane production from household solid waste in two-stage fermentation process, Water Resources, 40, 22302236.
  • 29
    Chen, W.-H., Sung, S., & Chen, S.-H. (2009). Biological hydrogen production in an anaerobic sequencing batch reactor: pH and cyclic duration effects, International Journal of Hydrogen Energy, 34, 227234.
  • 30
    Li, D., Yuan, Z., Sun, Z., Sun, Y., Kong, X., & Zhang, Y. (2009). Hydrogen production characteristics of the organic fraction of municipal solid wastes by anaerobic mixed culture fermentation, International Journal Hydrogen Energy, 34, 812820.
  • 31
    Konur, O. (2012). The evaluation of the research on the biohydrogen: A scientometric approach. Energy Education Science & Technology, 29, 309322.