Integrating photobiological hydrogen production with dye-metal bioremoval from simulated textile wastewater

Bioresource Technology

Volumn 102, Issue 21, 2011, Pages 9957-9964

  Kaushik, Anubha ^a   Mona, Sharma ^a   Kaushik, C P ^a  

^a GURU JAMBHESHWAR UNIVERSITY OF SCIENCE AND TECHNOLOGY   (India)

Author keywords

Cyanobacteria; Hydrogen production; Integrated photobioreactor; Packed bed column; Simulated wastewater

Indexed keywords

ADSORPTION CAPACITIES; AVERAGE RATE; BATCH MODES; BREAKTHROUGH TIME; CRYSTAL VIOLET; CYANOBACTERIA; CYANOBACTERIUM; EXHAUSTION TIME; HEXAVALENT CHROMIUM; IMMOBILIZATION MATRICES; PACKED BED COLUMN; PHOTO-BIOREACTORS; PHOTOBIORE-ACTOR; PRODUCTION OF HYDROGEN; REACTIVE RED; SIMULATED WASTEWATER; TEXTILE WASTEWATER; TOXIC DYES;

ADSORPTION; BIOMASS; BIOSORPTION; CHROMIUM; COBALT; HYDROGEN; HYDROGEN PRODUCTION; PACKED BEDS; TEXTILES; WASTEWATER;

PHOTOBIOLOGICAL HYDROGEN PRODUCTION;

ALGINIC ACID; HYDROGEN; HYDROGENASE;

ADSORPTION; BIOMASS; COBALT; CYANOBACTERIUM; DYE; GAS PRODUCTION; HYDROGEN; IMMOBILIZATION; INTEGRATED APPROACH; NUMERICAL MODEL; POLLUTANT REMOVAL; TEXTILE INDUSTRY; TOXICITY; WASTEWATER;

ADSORPTION; ARTICLE; BIOMASS; BIOSORPTION; CYANOBACTERIUM; DYE METAL BIOREMOVAL; ENZYME ACTIVITY; PHOTOBIOREACTOR; PRIORITY JOURNAL; TEXTILE; WASTE COMPONENT REMOVAL; WASTE WATER; WASTE WATER MANAGEMENT;

ADSORPTION; ALGINATES; BIODEGRADATION, ENVIRONMENTAL; BIOMASS; CELLS, IMMOBILIZED; COLORING AGENTS; GLUCURONIC ACID; HEXURONIC ACIDS; HYDROGEN; HYDROGENASE; METALS; MICROSPHERES; NOSTOC; PHOTOBIOLOGY; PHOTOBIOREACTORS; TEXTILES; TIME FACTORS; WASTE DISPOSAL, FLUID; WATER POLLUTANTS, CHEMICAL;

CYANOBACTERIA; NOSTOC;

EID: 80053122528     PISSN: 09608524     EISSN: 18732976     Source Type: Journal    
DOI: 10.1016/j.biortech.2011.08.011     Document Type: Article

References (36)

1. Aksu, Z., 1998. Biosorption of heavy metals by microalgae in batch and continuous systems. In: Wong, Y.-S., Tam, N.F.Y. (Eds.), Algae for Waste Water Treatment. 99, pp. 37-53.
2. Aksu Z., Cagatay S.S. Investigation of biosorption of Gemazol Turquise Blue-G reactive dye by dried Rhizopus arrhizus in batch and continuous systems. Sep. Purif. Technol. 2006, 48:24-35.
3. Aksu Z., Tezer S. Biosorption of reactive dyes on the green alga Chlorella vulgaris. Process Biochem. 2005, 40:1347-1361.
4. Anjana K., Kaushik A., Kaushik C.P. Biohydrogen production by cyanobacterial isolates under different temperature regimes. Ind. J. Environ. Sci. 2010, 14(2):133-137.
5. Bagai R., Madamwar D. Prolonged evolution of photohydrogen by intermittent supply of nitrogen using a combined system of Phormidium valderianum, Halobacterium halobium and Escherichia coli. Int. J. Hydrogen Energy 1998, 23(7):545-550.
6. Benemann J.R. Hydrogen production by microalgae. J. Appl. Phycol. 2000, 12:291-300.
7. Burgess, G.J., Freeman, J.G., Fernandaze-Velasco, Lovergrove, K., 2004. Feasibility Study of Large Scale Photosynthetic Biohydrogen Production, Solar 2004: Life, the Universe and Renewables.
8. Chen B.Y., Lin K.W., Wang Y.-M., Yen C.-Y. Revealing interactive toxicity of aromatic amines to azo dye decolorizer Aeromonas hydrophila. J. Hazard. Mater. 2009, 166:187-194.
9. Crini G., Badot P.M. Application of chitosan, a natural amino polysaccharide, for dye removal from aqueous solutions by adsorption processes using batch studies: a review of recent literature. Prog. Polym. Sci. 2008, 33:399-447.
10. Davila-Vazuez G., de Leon-Rodriguez A., Alatriste-Mondragon F., Razo-Flores E. The buffer composition impacts the hydrogen production and the microbial community composition in non-axenic culture. Biomass Bioenergy 2011, 35:3174-3181.
11. Dickson D.J., Page C.J., Ely R.L. Photobiological hydrogen production from Synechocystis sp. PCC 6803 encapsulated in silica sol-gel. Int. J. Hydrogen Energy 2009, 34:204-215.
12. Forgacs E., Cserhati T., Oros G. Removal of synthetic dyes from wastewaters: a review. Environ. Int. 2004, 30:953-971.
13. Ho K.-L., Lee D.-J. Harvesting biohydrogen from cellobiose from sulfide or nitrite-containing wastewaters using Clostridium sp R1. Bioresour. Technol. 2011, 102:8547-8549.
14. Jacob C.T., Azariah J. Environmetal ethical cost of t-shirt. Bioethics in Asia 2000, 191-195. Tiruppur, Tamil Nadu, India. N. Fujiki, D.R.J. Macer (Eds.).
15. Joshi M., Bansal R., Purwar R. Colour removal from textile effluents. Ind. J. Fibre Textile Res. 2004, 29:239-259.
16. Karube I., Ikemoto H., Kajiwara K., Tamiya E., Matsuoka H. Photochemical energy conversion using immobilized blue-green algae. J. Biotechnol. 1986, 4:73-80.
17. Kaushik A., Anjana K. Biohydrogen production by Lyngbya perelegans: influence of physico-chemical environment. Biomass Bioenergy 2011, 35:1041-1104.
18. Kiran B., Kaushik A. Cyanobacterial biosorption of Cr(VI): application of two parameters and Bohart Adams models for batch and column studies. Chem. Eng. J. 2008, 144:391-399.
19. Kosourov N.S., Seibert M. Hydrogen photoproduction by nutrient-deprived Chlamydomonas reinhardtii cells immobilized within thin alginate films under aerobic and anaerobic conditions. Biotechnol. Bioeng. 2009, 102:50-58.
20. Kosourov S., Tsygankov A., Seibert M., Ghirardi M.L. Sustained hydrogen photoproduction by Chlamydomonas reinhardtii: effects of culture parameters. Biotechnol. Bioeng. 2002, 78:731-740.
21. Kumar D.K., Kumar D.K. Hydrogen production by several cyanobacteria. Int. J. Hydrogen Energy 1992, 11:847-852.
22. 2 photoproduction by immobilized, sulfur-limited Chlamydomonas reinhardtii cultures. J. Biotechnol. 2008, 134:275-277.
23. Lichtl R.R., Bazin M.J., Hall D.O. The biotechnology of hydrogen production by Nostoc flagelliforme grown under chemostat conditions. Appl. Microbiol. Biotechnol. 1997, 47:701-707.
24. Mona S., Kaushik A., Kaushik C.P. Hydrogen Production and metal-dye bioremoval by a Nostoc linckia strain isolated from textile mill oxidation pond. Bioresour. Technol. 2011, 102:3200-3205.
25. Mona S., Kaushik A., Kaushik C.P. Biosorption of Reactive Dye by Waste Biomass of Nostoc linckia. Ecol. Eng. 2011, 37:1589-1594.
26. Mona S., Kaushik A., Kaushik C.P. Waste biomass of Nostoc linckia as adsorbent of Crystal Violet dye: optimization based on statistical model. Int. Biodet. Biodeg. 2011, 65:513-521.
27. Mona S., Kaushik A., Kaushik C.P. Biosorption of chromium(VI) by spent cyanobacterial biomass from a hydrogen fermentor using Box-Behnken Model. Int. Biodet. Biodeg. 2011, 65:656-663.
28. Mona S., Kaushik A., Kaushik C.P. Sequestration of Co(II) from aqueous solution using immobilized biomass of Nostoc linckia waste from a hydrogen bioreactor. Desalination 2011, 276:408-415.
29. Pandey A., Pandey A. Reverse micelles as suitable microreactor for increased biohydrogen production. Int. J. Hydrogen Energy 2008, 33:273-278.
30. Rashid N., Song W., Park J., Jin H.-F., Lee K. Characteristics of hydrogen production by immobilized cyanobacterium Microcystis aeroginosa through cycles of photosynthesis and anaerobic incubation. J. Ind. Eng. Chem. 2009, 15:498-503.
31. Rashid N., Lee K., Mahmood Q. Bio-hydrogen production by Chlorella vulgaris under diverse photoperiods. Bioresour. Tecnol. 2011, 102:2101-2104.
32. Rosenbaum M., Schroder U., Scholz F. In situ electrooxidation of photobiological hydrogen in a photobioelectrochemical fuel cell based on Rhodobacter sphaeroides. Environ. Sci. Technol. 2005, 39:6328-6333.
33. Sadettin S., Donmez G. Simultaneous bioaccumulation of reactive dye and chromium(VI) by using thermophilil Phormidium sp. Enzyme Microb. Technol. 2007, 41:175-180.
34. Shah V., Garg N., Madamwar D. An integrated process of textile dye removal and hydrogen evolution using cyanobacterium, Phormidium valderianum. W.J. Microbiol. Biotechnol. 2001, 17:499-504.
35. Song W., Rashid N., Choi W., Lee K. Biohydrogen production by immobilized Chlorella sp. using cycles of oxygenic photosynthesis and anaerobiosis. Bioresour. Technol. 2011, 102:8676-8681.
36. Won S.G., Lau A.K. Effects of key operational parameters on biohydrogen production via anaerobic fermentation in a sequencing batch reactor. Bioresour. Technol. 2011, 102:6876-6883.