R. Suthanthararajan, E. Ravindranath, K. Chitra, B. Umamaheswari, T. Ramesh et al., Membrane application for recovery and reuse of water from treated tannery wastewater, Desalination, vol.164, issue.04, pp.174-176, 2004.

C. Di-iaconi, A. Lopez, R. Ramadori, A. C. Di-pinto, and R. Passino, Combined chemical and biological degradation of tannery wastewater by a periodic submerged filter (SBBR)

, Water Res, vol.36, issue.01, pp.445-451, 2002.

S. G. Schrank, U. Bieling, H. J. José, R. F. Moreira, and H. F. Schröder, Generation of endocrine disruptor compounds during ozone treatment of tannery wastewater confirmed by biological effect analysis and substance specific analysis, Water Sci. Technol, vol.59, pp.31-38, 2009.

T. P. Sauer, L. Casaril, A. L. Oberziner, H. J. José, and R. D. Moreira, Advanced oxidation processes applied to tannery wastewater containing Direct Black 38-Elimination and degradation kinetics, J. Hazard. Mater, vol.135, pp.274-279, 2006.

S. Haydar and J. A. Aziz, Coagulation-flocculation studies of tannery wastewater using combination of alum with cationic and anionic polymers, J. Hazard. Mater, vol.168, pp.1035-1040, 2009.

C. R. Costa, C. M. Botta, E. L. Espindola, and P. Olivi, Electrochemical treatment of tannery wastewater using DSA electrodes, J. Hazard. Mater, vol.153, pp.616-627, 2008.

L. Szpyrkowicz, S. N. Kaul, R. N. Neti, and S. Satyanarayan, Influence of anode material on electrochemical oxidation for the treatment of tannery wastewater, Water Res, vol.39, pp.1601-1613, 2005.

S. Goswami and D. Mazumder, Treatment of chrome tannery wastewater by biological process: a mini review, Int. J. Environ. Chem. Ecol. Geol. Geophys. Eng, vol.7, pp.798-804, 2013.

G. Durai and M. Rajasimman, Biological treatment of tannery wastewater: a review, J. Environ. Sci. Technol, vol.4, pp.1-17, 2011.

T. H. Sleutels, A. Terheijne, C. J. Buisman, and H. V. Hamelers, Bioelectrochemical systems: an outlook for practical applications, Chemsuschem, vol.5, pp.1012-1019, 2012.

L. Ezziat, A. Elabed, S. Ibnsouda, and S. El-abed, Challenges of microbial fuel cell architecture on heavy metal recovery and removal from wastewater, Front. Energy Res, vol.7, pp.1-13, 2019.

H. Liu, R. Ramnarayanan, and B. E. Logan, Production of electricity during wastewater treatment using a single chamber microbial fuel cell, Environ. Sci. Technol, vol.38, pp.2281-2285, 2004.

J. R. Trapero, L. Horcajada, J. J. Linares, and J. Lobato, Is microbial fuel cell technology ready? An economic answer towards industrial commercialization, Appl. Energy, vol.185, pp.698-707, 2017.

B. Erable and A. Bergel, First air-tolerant effective stainless steel microbial anode obtained from a natural marine biofilm. Bioresour, Technol, vol.100, pp.3302-3307, 2009.

K. J. Chae, M. J. Choi, K. Y. Kim, F. F. Ajayi, W. Park et al., Methanogenesis control by employing various environmental stress conditions in two-chambered microbial fuel cells, Bioresour. Technol, vol.101, pp.5350-5357, 2010.

P. Anupama and U. Hampannavar, Microbial fuel cell an alternative for COD removal of distillery wastewater, J. Res. Biol, vol.1, pp.419-423, 2011.

G. Mohanakrishna, S. V. Mohan, and P. N. Sarma, Bioelectrochemical treatment of distillery wastewater in microbial fuel cell facilitating decolorization and desalination along with power generation, J. Hazard. Mater, vol.177, pp.487-494, 2010.

S. F. Ketep, A. Bergel, A. Calmet, and B. Erable, Stainless steel foam increases the current produced by microbial bioanodes in bioelectrochemical systems, Energy Environ. Sci, vol.7, p.1633, 2014.

A. Baudler, S. Riedl, and U. Schroder, Long-term performance of primary and secondary electroactive biofilms using layered corrugated carbon electrodes, Front. Energy Res, vol.2, pp.1-6, 2014.

E. Blanchet, E. Desmond, B. Erable, A. Bridier, T. Bouchez et al., Comparison of synthetic medium and wastewater used as dilution medium to design scalable microbial anodes: application to food waste treatment, Bioresour. Technol, vol.185, pp.106-115, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01149751

A. S. Mathuriya, Enhanced tannery wastewater treatment and electricity generation in microbial fuel cell by bacterial strains isolated from tannery waste, Environ. Eng. Manag. J, vol.13, pp.2945-2954, 2014.

V. Sawasdee and N. Pisutpaisal, Simultaneous pollution treatment and electricity generation of tannery wastewater in air-cathode single chamber MFC, Int. J. Hydrogen Energy, vol.41, pp.15632-15637, 2016.

M. Chowdhury, M. G. Mostafa, T. K. Biswas, and A. K. Saha, Treatment of leather industrial effluents by filtration and coagulation processes, Water Resour. Ind, vol.3, pp.11-22, 2013.

M. Wiemann, H. Schenk, W. Hegemann, and T. Universita, Anaerobic treatment of tannery wastewater with simultaneous sulphide elimination, Water Res, vol.32, pp.774-780, 1998.

S. F. Ketep, A. Bergel, M. Bertrand, W. Achouak, and E. Fourest, Lowering the applied potential during successive scratching/reinoculation improves the performance of microbial anodes for microbial fuel cells, Bioresour. Technol, vol.127, pp.448-455, 2013.

D. Pocaznoi, B. Erable, M. Delia, and A. Bergel, Ultra microelectrodes increase the current density provided by electroactive biofilms by improving their electron transport ability, Energy Environ. Sci, vol.5, p.5287, 2012.

F. Zhao, N. Rahunen, J. R. Varcoe, A. Chandra, C. Avignone-rossa et al., Activated carbon cloth as anode for sulfate removal in a microbial fuel cell, Environ. Sci. Technol, vol.42, pp.4971-4976, 2008.

R. G. Keller and K. Rabaey, Role of Sulfur during Acetate Oxidation in Biological Anodes, vol.43, pp.3839-3845, 2009.

A. Verma, R. Dua, A. Singh, and N. R. Bishnoi, Biogenic sulfides for sequestration of Cr(VI), COD and sulfate from synthetic wastewater, Water Sci, vol.29, pp.19-25, 2015.

S. V. Raghavulu, S. V. Mohan, R. K. Goud, and P. N. Sarma, Effect of anodic pH microenvironment on microbial fuel cell (MFC) performance in concurrence with aerated and ferricyanide catholytes, Electrochem. Commun, vol.11, pp.371-375, 2009.

J. R. Kim, B. Min, and B. E. Logan, Evaluation of procedures to acclimate a microbial fuel cell for electricity production, Appl. Microbiol. Biotechnol, vol.68, pp.23-30, 2005.

L. Huang and B. E. Logan, Electricity generation and treatment of paper recycling wastewater using a microbial fuel cell

. Microbiol and . Biotechnol, , vol.80, pp.349-355, 2008.

N. Lu, S. Zhou, L. Zhuang, J. Zhang, and J. Ni, Electricity generation from starch processing wastewater using microbial fuel cell technology, Biochem. Eng. J, vol.43, pp.246-251, 2009.

F. Zhang, Y. Ahn, and B. E. Logan, Treating refinery wastewaters in microbial fuel cells using separator electrode assembly or spaced electrode configurations, Bioresour. Technol, vol.152, pp.46-52, 2014.

Y. Feng, X. Wang, B. E. Logan, and H. Lee, Brewery wastewater treatment using air-cathode microbial fuel cells, Appl. Microbiol. Biotechnol, vol.78, pp.873-880, 2008.

S. A. Patil, V. P. Surakasi, S. Koul, S. Ijmulwar, A. Vivek et al., Electricity generation using chocolate industry wastewater and its treatment in activated sludge based microbial fuel cell and analysis of developed microbial community in the anode chamber, Bioresour. Technol, vol.100, pp.5132-5139, 2009.

S. F. Ketep, A. Bergel, M. Bertrand, W. Achouak, and E. Fourest, Sampling location of the inoculum is crucial in designing anodes for microbial fuel cells, Biochem. Eng. J, vol.73, pp.12-16, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00877678