References

  1. FAO, Towards the Future We Want: End Hunger and Make the Transition to Sustainable Agricultural and Food Systems, Rome, 2012.
  2. A. ElMekawy, S. Srikanth, S. Bajracharya, H.M. Hegab, P.S. Nigam, A.S.V. Singh Mohan, D. Pant, Food and agricultural wastes as substrates for bioelectrochemical system (BES): the synchronized recovery of sustainable energy and waste treatment, Food Res. Int., 73 (2015) 213–225.
  3. X. Li, I.M. Abu-Reesh, Z. He, Development of bioelectrochemical systems to promote sustainable agriculture, Agriculture, 5 (2015) 367–388.
  4. S. Sevda, X. Dominguez-Benetton, K. Vanbroekhoven, H. De Wever, T.R. Sreekrishnan, D. Pant, High strength wastewater treatment accompanied by power generation using air cathode microbial fuel cell, Appl. Energy., 105 (2013) 194–206.
  5. L.T. Angenent, K. Karim, M.H. Al-Dahhan, B.A. Wrenn, R. Domínguez-Espinosa, Production of bioenergy and biochemicals from industrial and agricultural wastewater, Trends Biotechnol., 22 (2007) 477–485.
  6. Y.J. Chan, M.F. Chong, C.L. Law, D.G. Hassell, A review on anaerobic aerobic treatment of industrial and municipal wastewater, Chem. Eng. J., 155 (2009) 1–18.
  7. D. Pant, A. Adholeya, Biological approaches for treatment of distillery wastewater: a review, Bioresour. Technol., 98 (2007) 2321–2334.
  8. T.H. Pham, K. Rabaey, P. Aelterman, P. Clauwaert, L.D. Schamphelaire, N. Boon, Microbial fuel cells in relation to conventional anaerobic digestion technology, Eng. Life Sci., 6 (2006) 285–92.
  9. J. Guo, C. Yang, G. Zeng, Treatment of swine wastewater using chemically modified zeolite and bioflocculant from activated sludge, Bioresour. Technol., 143 (2013) 289–297.
  10. S. Yong-Hui, Q. Guang-Lei, Y. Peng, C. Xiao-Yu, P. Jian-Feng, Z. Ping, D. Liang, X. Lian-Cheng, Q. Feng, Nutrients removal and recovery from anaerobically digested swine wastewater by struvite crystallization without chemical additions, J. Hazard. Mater., 190 (2011) 140–149.
  11. O. Ichihashi, K. Hirooka, Removal and recovery of phosphorus as struvite from swine wastewater using microbial fuel cell, Bioresour. Technol., 114 (2012) 303–307.
  12. W. Ben, Z. Qiang, X. Pan, M. Chen, Removal of veterinary antibiotics from sequencing batch reactor (SBR) pretreated swine wastewater by Fenton’s reagent, Water Res., 43 (2009) 4392–4402.
  13. M. Chénier, P. Juteau, Fate of chlortetracycline- and tylosin-resistant bacteria in an aerobic thermophilic sequencing batch reactor treating swine waste, Microb. Ecol., 58 (2009) 86–97.
  14. S. Sakar, K. Yetilmezsoy, E. Kocak, Anaerobic digestion technology in poultry and livestock waste treatment – a literature review, Waste Manage. Res., 27 (2009) 3–18.
  15. J. Stone, S. Clay, Z. Zhu, K. Wong, L. Porath, G. Spellman, Effect of antimicrobial compounds tylosin and chlortetracycline during batch anaerobic swine manure digestion, Water Res., 43 (2009) 4740–4750.
  16. G. Buelna, R. Dubé, N. Turgeon, Pig manure treatment by organic bed filtration, Desalination, 231 (2008) 297–304.
  17. L. Angenent, M. Mau, U. George, J. Zahn, L. Raskin, Effect of the presence of the antimicrobial tylosin in swine waste on anaerobic treatment, Water Res., 42 (2008) 2377–2384.
  18. A. Kolz, S. Ong, T. Moorman, Sorption of tylosin onto swine manure, Chemosphere, 60 (2005) 284–289.
  19. K.A. Lotfin, C. Henny, C.D. Adams, R. Surampali, M.R. Mormile, Inhibition of microbial metabolism in anaerobic lagoons by selected sulfonamides, tetracyclines, lincomycin and tylosin tartrate, Environ. Toxicol. Chem., 24 (2005) 782–788.
  20. B. Min, J.R. Kim, S. Oh, J.M. Regan, B.E. Logan, Electricity generation from swine wastewater using microbial fuel cells, Water Res., 39 (2005) 4961–4968.
  21. C.Y. Lee, C.C. Lee, F.Y. Lee, S.K. Tseng, C.J. Liao, Performance of subsurface flow constructed wetland taking pretreated swine effluent under heavy loads, Bioresour. Technol., 92 (2004) 173–179.
  22. B.E. Logan, K. Rabaey, Conversion of waste into bioelectricity and chemicals by using microbial electrochemical technologies, Science, 337 (2012) 686–690.
  23. R.C. Wagner, J.M. Regan, S.E. Oh, Y. Zuo, B.E. Logan, Hydrogen and methane production from swine wastewater using microbial electrolysis cells, Water Res., 43 (2009) 1480–1488.
  24. K. Rabaey, W. Verstraete, Microbial fuel cells: novel biotechnology for energy generation, Trends Biotechnol., 23 (2005) 291–298.
  25. M. Sharma, S. Bajracharya, S. Gildemyn, S.A. Patil, Y. Alvarez-Gallego, D. Pant, K. Rabaey, X. Dominguez-Benetton, A critical revisit of the key parameters used to describe microbial electrochemical systems, Electrochim. Acta, 140 (2014) 191–208.
  26. O. Ichihashi, N. Yamamoto, K. Hirooka, Power generation by and microbial community structure in microbial fuel cell treating animal wastewater, J. Japan. Society Water Environ., 35 (2012) 19–26.
  27. S.B. Pasupuleti, S. Srikanth, S.V. Mohan, D. Pant, Continuous mode operation of microbial fuel cell (MFC) stack with dual gas diffusion cathode design for the treatment of dark fermentation effluent, Hydrogen. Energy, 40 (2015) 12424–12435.
  28. B. Logan, Microbial Fuel Cells, Hoboken, New Jersey, Wiley, 2008.
  29. APHA, Standard Methods for the Examination of Water and Wastewater, 21st ed. APHA, AWWA, WOCF, Washington DC, USA, 2005.
  30. F, Zhang, Z. He, Simultaneous nitrification and denitrification with electricity generation in dual-cathode microbial fuel cells, J. Chem. Technol. Biotechnol., 87 (2012) 153–159.
  31. R.D. Cusick, B.E. Logan, Phosphate recovery as struvite within a single chamber microbial electrolysis cell, Bioresour. Technol., 107 (2012) 110–115.
  32. H. Yokoyama, H. Ohmori, M. Ishida, M. Waki, Y. Tanaka, Treatment of cow-waste slurry by a microbial fuel cell and the properties of the treated slurry as a liquid manure, Anim. Sci. J., 77 (2006) 634–638.
  33. H. Yan, T. Saito, J.M. Regan, Nitrogen removal in a single-chamber microbial fuel cell with nitrifying biofilm enriched at the air cathode, Water Res., 46 (2012) 2215–224.
  34. H. Liu, B.E. Logan, Electricity generation using an air-cathode single chamber microbial fuel cell in the presence and absence of a proton exchange membrane, Environ. Sci. Technol., 38 (2004) 4040–4046.
  35. Y. Lee, N. Nirmalakhandan, Electricity production in membrane-less microbial fuel cell fed with livestock organic solid waste, Bioresour. Technol., 102 (2011) 5831–5835.
  36. X. Wang, J. Tang, J. Cui, Q. Liu, J.P. Giesy, M. Hecker, Synergy of electricity generation and waste disposal in solid-state microbial fuel cell (MFC) of cow manure composting, Int. J. Electrochem. Sci., 9 (2014) 3144–3157.
  37. F. Fischer, C. Bastian, M. Happe, E. Mabillard, N. Schmidt, Microbial fuel cell enables phosphate recovery from digested sewage sludge as struvite, Bioresour. Technol., 102 (2011) 5824–5830.