1005
[7]
Rabaey, K. and Verstraete, W. (2005). Microbial fuel cells: novel biotechnology for energy
generation.
Trends in Biotechnology
. 23 (6), 291–298.
[8]
Ahn, Y.H. (2006). Sustainable nitrogen elimination biotechnologies: a review.
Process
Biochemistry
. 41, 1709–1721.
[9]
Murray, A., Horvath, A. and Nelson, K.L. (2008). Hybrid life-cycle environmental and cost inventory
of sewage sludge treatment and end-use scenarios: a case study from China.
Environmental
Science and Technology
. 42, 3163–3169.
[10] Speece, R.E. (1996).
Anaerobic Biotechnology for Industrial Wastewater
. Nashville, TN, Archae
Press.,
[11] Wei, Y. Van.; Houten, R. T.; Borger, A. R.; Eikelboom, D. H. and Fan, Y. (2003). Minimization of
excess sludge production for biological wastewater treatment.
Water Research
. 37, 4453–4467.
[12] Brischke, K.; Morgan, S.; Dold. P.; Bye, C. and Newbery, C. (2005). Evaluation of power savings
through aeration control at Aucklands’s Mangere wastewater treatment plant.
Proc. Of WEFTEC
.
243, 4–2450.
[13] Cooper, N. B.; Marshall, J. W.; Hunt, K. and Reidy, J. (2007). Less power, great performance.
Water
Environmental Technology
. 19, 63–66.
[14] Willis, J.; Arnett, C.; Davis, S.; Schettler, J.; Shah, A. and Shaw, R. (2007). Maximizing methane.
Water Environmental Technology
. 19, 77–81.
[15] Logan, B. E.; Hamelers, B.; Rozendal, R.; Schroder, U.; Keller, J.; Freguia, S.; Aelterman, P.;
Verstraete, W. and Rabaey, K. (2006). Microbial fuel cells: methodology and technology.
Environmental Science and Technology
. 40, 5181–5192.
[16] Aelterman, P.; Rabaey, K.; Clauwaert, P. and Verstraete, W. (2006). Microbial fuel cells for
wastewater treatment.
Water Environmental Technology
. 54 (8), 9–15.
[17] Ghangrekar, M. M. and Shinde, V. B. (2008). Simultaneous sewage treatment and electricity
generation in membrane-less microbial fuel cell.
Water Environmental Technology
. 58, 37–43.
[18] Liu, H.; Ramnarayanan, R. and Logan, B.E. (2004). Production of electricity during wastewater
treatment using a single chamber microbial fuel cell.
Environmental Science and Technology
.
38, 2281–2285.
[19] Min, B. and Logan, B. E. (2004). Continuous electricity generation from domestic wastewater and
organic substrate in a flat plate microbial fuel cell.
Environmental Science and Technology
. 38,
5809–5814.
[20] Rodrigo, M. A.; Caizaresa, P.; Lobatoa, J.; Paza, R.; Seza, C. and Linaresa, J. J. (2007). Production of
electricity from the treatment of urban waste water using a microbial fuel cell.
Journal Power
Sources
. 169, 198–204.
[21] Venkata, Mhan, S, Sarvanan, R.; Raghuvulu, S. V., Mohankrishna, G. and Sarma, P. N. (2008).
Bioelectricity production from wastewater treatment in dual chambered microbial fuelcell (MFC)