Effects of light source, intensity and lighting regime on bio-hydrogen production from ground wheat starch by combined dark and photo-fermentations

International Journal of Hydrogen Energy

Volumn 35, Issue 4, 2010, Pages 1604-1612

  Argun, Hidayet ^a   Kargi, Fikret ^a  

^a DOKUZ EYLUL UNIVERSITY   (Turkey)

Author keywords

Anaerobic sludge; Bio hydrogen; Combined fermentation; Light intensity; Light source; Lighting regime; Rhodobacter sphaeroides RV

Indexed keywords

ANAEROBIC SLUDGE; BATCH EXPERIMENTS; BIO-HYDROGEN; BIO-HYDROGEN PRODUCTION; CYCLE TIME; HALOGEN LAMPS; HYDROGEN GAS; HYDROGEN YIELDS; LIGHT INTENSITY; LOW LIGHT; PHOTO FERMENTATION; RHODOBACTER SPHAEROIDES; WHEAT STARCH;

FERMENTATION; HALOGEN ELEMENTS; HYDROGEN PRODUCTION; LIGHT SOURCES; STARCH; TUNGSTEN;

LIGHT;

EID: 74449085975     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2009.12.033     Document Type: Article

References (43)

1. Winter C.J. Into the hydrogen energy economy-milestones. Int J Hydrogen Energy 30 (2005) 681-685
2. Kapdan I.K., and Kargi F. Biohydrogen production from waste materials. Enzym Microb Technol 38 (2006) 569-582
3. Manish S., and Banerjee R. Comparison of biohydrogen production processes. Int J Hydrogen Energy 33 (2008) 279-286
4. Kotay S.M., and Das D. Biohydrogen as a renewable energy resource - prospects and potentials. Int J Hydrogen Energy 33 (2008) 258-263
5. Ni M., Leung D.Y.C., Leung M.K.H., and Sumathy K. An overview of hydrogen production from biomass. Fuel Process Technol 87 (2006) 461-472
6. Yokoi H., Saitsu A.S., Uchida H., Hirose J., Hayashi S., and Takasaki Y. Microbial hydrogen production from sweet potato starch residue. J Biosci Bioeng 91 (2001) 58-63
7. Liu G., and Shen J. Effects of culture medium and medium conditions on hydrogen production from starch using anaerobic bacteria. J Biosci Bioeng 98 (2004) 251-256
8. 2 production from cellulose containing wastewater. Biotechnol Lett 25 (2003) 365-369
9. Lay J.J. Biohydrogen generation by mesophilic anaerobic fermentation of micro-crystalline cellulose. Biotechnol Bioeng 74 (2001) 281-287
10. Yokoi H., Maki R., Hirose J., and Hayashi S. Microbial production of hydrogen from starch manufacturing wastes. Biomass Bioener 22 (2002) 389-395
11. Han S.K., and Shin H.S. Biohydrogen production by anaerobic fermentation of food waste. Int J Hydrogen Energy 29 (2004) 569-577
12. Koku H., Eroglu I., Gunduz U., Yucel M., and Turker L. Kinetics of biohydrogen production by the photosynthetic bacterium Rhodobacter spheroids O.U. 001. Int J Hydrogen Energy 28 (2003) 381-388
13. Wakayama T., and Miyake J. Light shade bands for the improvement of solar hydrogen production efficiency by Rhodobacter sphaeroides RV. Int J Hydrogen Energy 27 (2002) 1495-1500
14. Shi X.Y., and Yu H.Q. Hydrogen production from propionate by Rhodopseudomonas capsulate. Appl Biochem Biotechnol 117 (2004) 143-154
15. Barbosa M.J., Rocha J.M.S., Tramper J., and Wijffels R.H. Acetate as a carbon source for hydrogen production by photosynthetic bacteria. J Biotechnol 85 (2001) 25-33
16. Oh Y.K., Scol E.H., Kim M.S., and Park S. Photoproduction of hydrogen from acetate by a chemoheterotrophic bacterium Rhodopseudomonas palustris P4. Int J Hydrogen Energy 29 (2004) 1115-1121
17. Fascetti E., DAddario E., Todini O., and Robertiello A. Photosynthetic hydrogen evolution with volatile organic acids derived from the fermentation of source selected municipal solid wastes. Int J Hydrogen Energy 23 (1998) 753-760
18. Lee C.M., Chen P.C., Wang C.C., and Tung Y.C. Photohydrogen production using purple non-sulfur bacteria with hydrogen fermentation reactor effluent. Int J Hydrogen Energy 27 (2002) 1309-1313
19. Tao Y., Chen Y., Wu Y., He Y., and Zhou Z. High hydrogen yield from a two-step process of dark-and photo- fermentation of sucrose. Int J Hydrogen Energy 32 (2007) 200-206
20. Argun H., Kargi F., Kapdan I.K., and Oztekin R. Light fermentation of dark fermentation effluent for bio-hydrogen production by different Rhodobacter species at different initial volatile fatty acid (VFA) concentrations. Int J Hydrogen Energy 33 (2008) 7405-7412
21. Chen C.Y., Yang M.H., Yeh K.L., and Chang J.S. Bio-hydrogen production using two stage dark and photo fermentation processes. Int J Hydrogen Energy 33 (2008) 4755-4762
22. Nath K., Muthukumar M., Kumar A., and Das D. Kinetics of two-stage process for the production of hydrogen. Int J Hydrogen Energy 33 (2008) 1195-1203
23. Su H., Cheng J., Zhou J., Song W., and Cen K. Improving hydrogen production from cassava starch by combination of dark and photo-fermentation. Int J Hydrogen Energy 34 (2009) 1780-1786
24. Lo Y.C., Chen S.D., Chen C.Y., Huang T.I., Lin C.Y., and Chang J.S. Combining enzymatic hydrolysis and dark-photo fermentation processes for hydrogen production from starch feedstock: a feasibility study. Int J Hydrogen Energy 33 (2008) 5224-5233
25. Asada Y., Tokumoto M., Aihara Y., Oku M., Ishmi K., Wakayama T., et al. Hydrogen production by co-cultures of Lactobacillus and a photosynthetic bacterium Rhodobacter sphaeroides RV. Int J Hydrogen Energy 31 (2006) 1509-1513
26. 2 production from starch by mixed culture of Clostridium butyricum and Rhodobacter sp M-19. Biotechnol Lett 20 (1998) 895-899
27. Fang H.H.P., Zhu H., and Zhang T. Phototrophic hydrogen production from glucose by pure and cocultures of Clostridium butyricum and Rhodobacter sphaeroides. Int J Hydrogen Energy 31 (2006) 2223-2230
28. Yasuo A., Masaru T., Yasuyuki A., Masayo O., Katsuhiro I., Tatsuki W., et al. Hydrogen production by co-cultures of Lactobacillus and a photosynthetic bacterium Rhodobacter sphaeroides RV. Int J Hydrogen Energy 31 (2006) 1509-1531
29. Argun H., Kargi F., and Kapdan I.K. Hydrogen production by combined dark and light fermentation of ground wheat solution. Int J Hydrogen Energy 34 (2009) 4305-4311
30. Argun H., Kargi F., and Kapdan I.K. Effects of the substrate and cell concentration on bio- hydrogen production from ground wheat by combined dark and photo fermentation. Int J Hydrogen Energy 34 (2009) 6181-6188
31. Uyar B., Eroglu I., Yücel M., Gündüz U., and Türker L. Effect of light intensity, wavelength and illumination protocol on hydrogen production in photo-bioreactors. Int J Hydrogen Energy 32 (2007) 4670-4677
32. Obeid J., Magnin Y.P., Flau J.M., Adrot O., Willison J.C., and Zlatev R. Modelling of hydrogen production in batch cultures of the photosynthetic bacterium Rhodobacter capsulatus. Int J Hydrogen Energy 34 (2008) 180-185
33. Tao Y., He Y., Wu Y., Liu F., Li X., Zong W., et al. Characteristics of a new photosynthetic bacterial strain for hydrogen production and its application in wastewater treatment. Int J Hydrogen Energy 33 (2007) 963-973
34. Shi X.Y., and Yu H.Q. Response surface analysis on the effect of cell concentration and light intensity on hydrogen production by Rhodopseudomonas capsulatus. Process Biochem 40 (2005) 2475-2481
35. Tian X., Liao Q., Liu W., Wang Y.Z., Zhu X., Li J., et al. Photo-hydrogen production rate of a PVA-boric acid gel granule containing immobilized photosynthetic bacteria cells. Int J Hydrogen Energy 34 (2009) 4708-4717
36. Ding J., Liu B.F., Ren N.Q., Xie G.J., and Guo W.Q. Hydrogen production from glucose by co- culture of Clostridium Butyricum and immobilized Rhodopseudomonas faecalis RLD-53. Int J Hydrogen Energy 34 (2009) 3647-3652
37. Miyake J., Wakayama T., Schnackenberg J., Arai T., and Asada Y. Simulation of the daily sunlight illumination pattern for bacterial photo-hydrogen production. J Biosci Bioeng 88 (2009) 659-663
38. Chen C.Y., Lu W.B., Wu J.F., and Chang J.S. Enhancing phototrophic hydrogen production of Rhodopseudomonas palustris via statistical experiment design. Int J Hydrogen Energy 32 (2007) 940-949
39. Lee J.Z., Klaus D.M., Maness P.C., and Spear J.R. The effect of butyrate concentration on hydrogen production via photo-fermentation for use in a Martian habitat resource recovery process. Int J Hydrogen Energy 32 (2007) 3301-3307
40. Dr. Miyake. National research institute of advanced industrial science and technology. Nakoji, Amagasaki, Japan. Personal Communication; 2006.
41. Dubois M., Gilles K.A., Hamilton J.K., Rebers P.A., and Smith F. Colorimetric method for determination of sugars and related substances. Anal Chem 8 (1956) 350-366
42. In: Greenberg A.E., Clesceri L.S., and Eaton A.D. (Eds). Standard methods for the examination of water and wastewater. 21st ed. (2005), American Public Health Association (APHA), Washington DC, USA
43. Argun H., and Kargi F. Effects of light source and light intensity on bio-hydrogen production by light fermentation of dark fermentation effluent. Int J Hydrogen Energy (2009) [Under consideration]