Comparative assessment of decoupling of biomass and hydraulic retention times in hydrogen production bioreactors

International Journal of Hydrogen Energy

Volumn 34, Issue 18, 2009, Pages 7603-7611

  Hafez, Hisham ^a   Baghchehsaraee, Bita ^a   Nakhla, George ^a   Karamanev, Dimitre ^a   Margaritis, Argyrios ^a   El Naggar, Hesham ^a  

^a UNIVERSITY OF WESTERN ONTARIO   (Canada)

Author keywords

Biological hydrogen production; CSTR; Gravity settler; PCR DGGE

Indexed keywords

BIO-HYDROGEN; BIOLOGICAL HYDROGEN PRODUCTION; BIOMASS YIELD; CLOSTRIDIUM SPECIES; COMPARATIVE ASSESSMENT; CONTINUOUSLY STIRRED TANK REACTOR; CSTR; DIVERSE CULTURES; GLUCOSE CONVERSION; GRAVITY SETTLER; HYDRAULIC RETENTION TIME; HYDROGEN YIELDS; INVERSE RELATIONSHIP; MICROBIAL CULTURE; ORGANIC LOADING RATES; PCR-DGGE; SOLIDS RETENTION TIME;

BIOMASS; CLARIFICATION; GAS PRODUCERS; GLUCOSE; HYDRAULICS; REACTION KINETICS; WASTEWATER TREATMENT;

HYDROGEN PRODUCTION;

EID: 69349092984     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2009.07.060     Document Type: Article

References (39)

1. Cai M.L., Liu J.X., and Wei Y.S. Enhanced biohydrogen production from sewage sludge with alkaline pretreatment. Environ Sci Technol 38 11 (2004 Jun 1) 3195-3202
2. Levin D.B., Pitt L., and Love M. Biohydrogen production: prospects and limitations to practical application. Int J Hydrogen Energy 29 2 (2004) 173-185
3. Wang J.L., and Wan W. Factors influencing fermentative hydrogen production: a review. Int J Hydrogen Energy 34 2 (2009) 799-811
4. Hawkes F.R., Hussy I., Kyazze G., Dinsdale R., and Hawkes D.L. Continuous dark fermentative hydrogen production by mesophilic microflora: principles and progress. Int J Hydrogen Energy 32 2 (2007) 172-184
5. Adams M.W.W., and Stiefel E.I. Biochemistry - biological hydrogen production: not so elementary. Science 282 5395 (1998 Dec 4) 1842-1843
6. Chang J.S., Lee K.S., and Lin P.J. Biohydrogen production with fixed-bed bioreactors. Int J Hydrogen Energy 27 11-12 (2002 Nov-Dec) 1167-1174
7. Baghchehsaraee B., Nakhla G., Karamanev D., Margaritis A., and Reid G. The effect of heat pretreatment temperature on fermentative hydrogen production using mixed cultures. Int J Hydrogen Energy 33 4064 (2008) 4064-4073
8. Chen C.C., Lin C.Y., and Lin M.C. Acid-base enrichment enhances anaerobic hydrogen production process. Appl Microbiol Biotechnol 58 2 (2002 Feb) 224-228
9. 2 production potential in anaerobic fermentation. Proceedings of 10th world congress on anaerobic digestion, Montreal, Canada; 2004. 1(1):642-7.
10. Sparling R., Risbey D., and Poggi Varaldo H.M. Hydrogen production from inhibited anaerobic composters. Int J Hydrogen Energy 22 6 (1997) 563-566
11. Chen C.C., Lin C.Y., and Chang J.S. Kinetics of hydrogen production with continuous anaerobic cultures utilizing sucrose as the limiting substrate. Appl Microbiol Biotechnol 57 1-2 (2001) 56-64
12. Oh Y.K., Kim S.H., Kim M.S., and Park S. Thermophilic biohydrogen production from glucose with trickling biofilter. Biotechnol Bioeng 88 6 (2004) 690-698
13. Noike T., Takabatake H., Mizuno O., and Ohba M. Inhibition of hydrogen fermentation of organic wastes by lactic acid bacteria. Int J Hydrogen Energy 27 11-12 (2002) 1367-1371
14. Horiuchi J.I., Shimizu T., Tada K., Kanno T., and Kobayashi M. Selective production of organic acids in anaerobic acid reactor by pH control. Bioresour Technol 82 3 (2002) 209-213
15. Wu S.Y., Hung C.H., Lin C.Y., Lin P.J., Lee K.S., Lin C.N., et al. HRT-dependent hydrogen production and bacterial community structure of mixed anaerobic microflora in suspended, granular and immobilized sludge systems using glucose as the carbon substrate. Int J Hydrogen Energy 33 5 (2008) 1542-1549
16. 0. Chemosphere 57 9 (2004) 1059-1068
17. Youn J.H., and Shin H.S. Comparative performance between temperature-phased and conventional mesophilic two-phased processes in terms of anaerobically produced bioenergy from food waste. Waste Manag Res 23 1 (2005) 32-38
18. Lin C.Y., and Jo C.H. Hydrogen production from sucrose using an anaerobic sequencing batch reactor process. J Chem Technol Biotechnol 78 6 (2003) 678-684
19. Kyazze G., Martinez-Perez N., Dinsdale R., Premier G.C., Hawkes F.R., Guwy A.J., et al. Influence of substrate concentration on the stability and yield of continuous biohydrogen production. Biotechnol Bioeng 93 5 (2006) 971-979
20. Das D., Khanna N., and Veziroglu T.N. Recent developments in biological hydrogen production processes. Chem Ind Chem Eng Quart 14 2 (2008) 57
21. Zhang H.S., Bruns M.A., and Logan B.E. Biological hydrogen production by Clostridium acetobutylicum in an unsaturated flow reactor. Water Res 40 4 (2006) 728-734
22. Vallero M.V.G., Lettinga G., and Lens P.N.L. High rate sulfate reduction in a submerged anaerobic membrane bioreactor (SAMBaR) at high salinity. J Memb Sci 253 1-2 (2005) 217-232
23. Kim J.O., Kim Y.H., Ryu J.Y., Song B.K., Kim I.H., and Yeom S.H. Immobilization methods for continuous hydrogen gas production biofilm formation versus granulation. Process Biochem 40 3-4 (2005) 1331-1337
24. 2 production with anaerobic sludge using activated-carbon supported packed-bed bioreactors. Biotechnol Lett 25 2 (2003) 133-138
25. Oh S.E., Lyer P., Bruns M.A., and Logan B.E. Biological hydrogen production using a membrane bioreactor. Biotechnol Bioeng 87 1 (2004) 119-127
26. Fang H.H.P., Liu H., and Zhang T. Characterization of a hydrogen-producing granular sludge. Biotechnol Bioeng 78 1 (2002) 44-52
27. Van Ginkel S.W., and Logan B. Increased biological hydrogen production with reduced organic loading. Water Res 39 16 (2005) 3819-3826
28. Zhang J.J., Li X.Y., Oh S.E., and Logan B.E. Physical and hydrodynamic properties of flocs produced during biological hydrogen production. Biotechnol Bioeng 88 7 (2004) 854-860
29. Wu S.Y., Hung C.H., Lin C.N., Chen H.W., Lee A.S., and Chang J.S. Fermentative hydrogen production and bacterial community structure in high-rate anaerobic bioreactors containing silicone-immobilized and self-flocculated sludge. Biotechnol Bioeng 93 5 (2006) 934-946
30. Hafez H, Nakhla G, El Naggar H. Integrated system for hydrogen and methane production during landfill leachate treatment. Pending patent, US patent application US 61/202,137; 2009.
31. APHA, AWWA, WEF. Standard methods for the examination of water and wastewater. 19th ed.; 1995.
32. Altschul S.F., Gish W., Miller W., Myers E.W., and Lipman D.J. Basic local alignment search tool. J Mol Biol 215 3 (1990 Oct 5) 403-410
33. Liu F., and Fang B. Optimization of bio-hydrogen production from biodiesel wastes by Klebsiella pneumoniae. Biotechnol J 2 3 (2007) 374-380
34. Chen X., Sun Y.Q., Xiu Z.L., Li X.H., and Zhang D.J. Stoichiometric analysis of biological hydrogen production by fermentative bacteria. Int J Hydrogen Energy 31 4 (2006) 539-549
35. Wu S.Y., Lin C.Y., Lee K.S., Hung C.H., Chang J.S., Lin P.J., et al. Dark fermentative hydrogen production from xylose in different bioreactors using sewage sludge microflora. Energy Fuels 22 1 (2008) 113-119
36. Brosseau J.D., and Zajic J.E. Hydrogen-gas production with Citrobacter intermedius and Clostridium pasteurianum. J Chem Technol Biotechnol 32 3 (1982) 496-502
37. Kim S.H., Han S.K., and Shin H.S. Effect of substrate concentration on hydrogen production and 16S rDNA-based analysis of the microbial community in a continuous fermenter. Process Biochem 41 1 (2006) 199-207
38. Chin H.L., Chen Z.S., and Chou C.P. Fedbatch operation using Clostridium acetobutylicum suspension culture as biocatalyst for enhancing hydrogen production. Biotechnol Prog 19 2 (2003) 383-388
39. Baghchehsaraee B, Nakhla G, Karamanev D, Margaritis A. Fermentative hydrogen production by diverse microflora. Proceedings of the international conference on hydrogen production, Oshawa, Canada; 2009. p. 281-7.