References

  1. N. Curry, P. Pillay, Biogas prediction and design of a food waste to energy system for the urban environment, Renew. Energy, 41 (2012) 200–209.
  2. E. Dogan, G.N. Demirer, Biogas generation by two-phase anaerobic digestion of organic fraction of municipal solid waste, J. Renew. Sustain. Energy, 4 (2012) 063131.
  3. T.T. Nhua, J. Dewulf, P. Serruys, S. Huysveld, C.V. Nguyen, P. Sorgeloos, T. Schaubroeck, Resource usage of integrated Pig–Biogas–Fish system: partitioning and substitution within attributional life cycle assessment, Resour. Conserv. Recycl., 102 (2015) 27–38.
  4. E. Sarikaya, G.N. Demirer, Biogas production from broiler manure, wastewater treatment plant sludge, and greenhouse waste by anaerobic co-digestion, J. Renew. Sustain. Energy, 5 (2013) 043126.
  5. A. Gupta, R. Chandra, P.M.V. Subbarao, V.K. Vijay, Kinetics of batch biomethanation process of jatropha and pongamia oil cakes and their co-digested substrates, J. Sci. Ind. Res., 68 (2009) 624–629.
  6. V.K. Garg, P. Kaushik, N. Dilbaghi, Vermiconversion of wastewater sludge from textile mill mixed with anaerobically digested biogas plant slurry employing Eisenia foetida, Ecotoxicol. Environ. Saf., 65 (2006) 412–419.
  7. B. Deepanraj, V. Sivasubramanian, S. Jayaraj, Biogas generation through anaerobic digestion process – an overview, Res. J. Chem. Environ., 18 (2014) 80–93.
  8. J. Mata-Alvarez, S. Mace, P. Llabres, Anaerobic digestion of organic solid wastes. An overview of research achievements and perspectives, Bioresour. Technol., 74 (2000) 3–16.
  9. M.D. Ghatak, P. Mahanta, Effect of temperature on anaerobic co-digestion of cattle dung with lignocellulosic biomass, J. Adv. Eng. Res., 1 (2014) 1–7.
  10. R. Chandra, V.K. Vijay, P.M.V. Subbarao, T.K. Khura, Production of methane from anaerobic digestion of jatropha and pongamia oil cakes, Appl. Energy, 93 (2012) 148–159.
  11. B. Deepanraj, V. Sivasubramanian, S. Jayaraj, Solid Concentration Influence on Biogas Yield from Food Waste in an Anaerobic Batch Digester, International Conference and Utility Exhibition on Green Energy for Sustainable Development (ICUE), Pattaya, Thailand, 2014.
  12. B. Deepanraj, V. Sivasubramanian, S. Jayaraj, Experimental and kinetic study on anaerobic digestion of food waste: the effect of total solids and pH, J. Renew. Sustain. Energy, 7 (2015) 063104.
  13. J.H.Y. Katima, Production of biogas from water hyacinth: effect of substrate concentration, particle size and incubation period, Tanz. J. Sci., 27 (2001) 107–119.
  14. Budiyono, I.N. Widiasa, S. Johari, Sunarso, Increasing biogas production rate from cattle manure using rumen fluid as inoculums, Int. J. Basic Appl. Sci., 10 (2010) 41–47.
  15. R. Singh, R.K. Malik, M.K. Jain, P. Tauro, Biogas production at different solids concentrations in daily fed cattle waste digesters, Agric. Wastes, 11 (1984) 253–257.
  16. R. Zhang, H.M. El-Mashad, K. Hartman, F. Wang, G. Liu, C. Choate, P. Gamble, Characterization of food waste as feedstock for anaerobic digestion, Bioresour. Technol., 98 (2007) 929–935.
  17. L. Zhang, W. Ouyang, A. Li, Essential role of trace elements in continuous anaerobic digestion of food waste, Procedia Environ. Sci., 16 (2012) 102–111.
  18. S.K. Han, H.-S. Shin, Biohydrogen production by anaerobic fermentation of food waste, Int. J. Hydrogen Energy, 29 (2004) 569–577.
  19. FAO, Towards the Future We Want: End Hunger and Make the Transition to Sustainable Agricultural and Food Systems, Food and Agriculture Organization of the United Nations, Rome, 2012.
  20. APHA, Standard Methods for Examination of Water and Wastewater, 17th ed., American Public Health Association, 1989.
  21. A. Nopharatana, P.C. Pullammanappallil, W.P. Clarke, Kinetics and dynamic modelling of batch anaerobic digestion of municipal solid waste in a stirred reactor, Waste Manage., 27 (2007) 595–603.
  22. G.K. Kafle, S.H. Kim, Anaerobic treatment of apple waste with swine manure for biogas production: batch and continuous operation, Appl. Energy, 103 (2013) 61–72.
  23. B. Deepanraj, V. Sivasubramanian, S. Jayaraj, Kinetic study on the effect of temperature on biogas production using a lab scale batch reactor, Ecotoxicol. Environ. Saf., 121 (2015) 100–104.
  24. P. Karthic, S. Joseph, N. Arun, S. Kumaravel, Optimization of biohydrogen production by Enterobacter species using artificial neural network and response surface methodology, J. Renew. Sustain. Energy, 5 (2013) 033104.
  25. G.K. Kafle, S.H. Kim, K.I. Sung, Ensiling of fish industry waste for biogas production: a lab scale evaluation of biochemical methane potential (BMP) and kinetics, Bioresour. Technol., 127 (2013) 326–336.
  26. B.Z. Zennaki, A. Zadi, H. Lamini, M. Aubinear, M. Boulif, Methane fermentation of cattle manure: effects of HRT, temperature and substrate concentration, Tropicul Tural., 14 (1996) 134–140.
  27. U. Baserja, Biogas production from cow dung: influence of time and fresh liquid manure, Swiss Biotech, 2 (1984) 19–24.
  28. U. Rai, Y. Bharath, V. Shettl, J.H. Patil, M.A.L. Antony Raj, Kinetics of Anaerobic Digestion of Water Hyacinth Using Primary Sludge as Inoculum, Proc. International Conference on Green Technology and Environmental Conservation, 2011.
  29. J. Li, K. Sun, J. He, Q. Chen, Using an Amylase Pretreatment of Pig Manure to Enhance Biogas Production, Proc. Asia-Pacific Power and Energy Engineering Conference, 2011.