High efficiency bio-hydrogen production from glucose revealed in an inoculum of heat-pretreated landfill leachate sludge

Energy

Volumn 72, Issue , 2014, Pages 628-635

  Wong, Y M ^a,b   Juan, J C ^a,b   Ting, Adeline ^a   Wu, T Y ^a  

^a MONASH UNIVERSITY MALAYSIA   (Malaysia)

^b UNIVERSITY OF MALAYA   (Malaysia)

Author keywords

Heat pretreatment; Hydrogen; Landfill leachate; Sludge; Thermodynamics

Indexed keywords

GLUCOSE; HYDROGEN; SUBSTRATES; THERMODYNAMICS;

BIO-HYDROGEN PRODUCTION; HEAT PRETREATMENT; LANDFILL LEACHATES; MODEL SUBSTRATES; MODIFIED-GOMPERTZ MODEL; OPTIMUM CONDITIONS; SLUDGE; SUSTAINABLE ENERGY;

HYDROGEN PRODUCTION;

FOSSIL FUEL; GAS PRODUCTION; GLUCOSE; HEAT BALANCE; HYDROGEN; INOCULATION; NUMERICAL MODEL; SLUDGE; SUSTAINABLE DEVELOPMENT; THERMODYNAMICS;

EID: 84904211833     PISSN: 03605442     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.energy.2014.05.088     Document Type: Article

References (52)

1. Li M., Zhao Y., Guo Q., Qian X., Niu D. Bio-hydrogen production from food waste and sewage sludge in the presence of aged refuse excavated from refuse landfill. Renew Energy 2008, 33(12):2573-2579.
2. Meher Kotay S., Das D. Biohydrogen as a renewable energy resource-Prospects and potentials. Int J Hydrogen Energy 2008, 33(1):258-263.
3. Shi X.X., Song H.C., Wang C.R., Tang R.S., Huang Z.X., Gao T.R., et al. Enhanced bio-hydrogen production from sweet sorghum stalk with alkalization pretreatment by mixed anaerobic cultures. Int J Energy Res 2010, 34(8):662-672.
4. Midilli A., Ay M., Dincer I., Rosen M.A. On hydrogen and hydrogen energy strategies: I: current status and needs. Renew Sustain Energy Rev 2005, 9(3):255-271.
5. Chu Y., Wei Y., Yuan X., Shi X. Bioconversion of wheat stalk to hydrogen by dark fermentation: effect of different mixed microflora on hydrogen yield and cellulose solubilisation. Bioresour Technol 2011, 102(4):3805-3809.
6. Lay C.H., Chang F.Y., Chu C.Y., Chen C.C., Chi Y.C., Hsieh T.T., et al. Enhancement of anaerobic biohydrogen/methane production from cellulose using heat-treated activated sludge. Water Sci Technol 2011, 63(9):1849-1854.
7. La Licata B., Sagnelli F., Boulanger A., Lanzini A., Leone P., Zitella P., et al. Bio-hydrogen production from organic wastes in a pilot plant reactor and its use in a SOFC. Int J Hydrogen Energy 2011, 36(13):7861-7865.
8. Mohammadi P., Ibrahim S., Mohamad Annuar M.S., Law S. Effects of different pretreatment methods on anaerobic mixed microflora for hydrogen production and COD reduction from palm oil mill effluent. JClean Prod 2011, 19(14):1654-1658.
9. Wang J., Wan W. Combined effects of temperature and pH on biohydrogen production by anaerobic digested sludge. Biomass Bioenergy 2011, 35(9):3896-3901.
10. Watanabe H., Yoshino H. Biohydrogen using leachate from an industrial waste landfill as inoculum. Renew Energy 2010, 35(5):921-924.
11. Wong Y.M., Wu T.Y., Juan J.C. Areview of sustainable hydrogen production using seed sludge via dark fermentation. Renew Sustain Energy Rev 2014, 34(0):471-482.
12. Bao M., Su H., Tan T. Biohydrogen production by dark fermentation of starch using mixed bacterial cultures of Bacillus sp and Brevumdimonas sp. Energy Fuels 2012, 26(9):5872-5878.
13. Bao M.D., Su H.J., Tan T.W. Dark fermentative bio-hydrogen production: effects of substrate pre-treatment and addition of metal ions or L-cysteine. Fuel 2013, 112(0):38-44.
14. Baghchehsaraee B., Nakhla G., Karamanev D., Margaritis A., Reid G. The effect of heat pretreatment temperature on fermentative hydrogen production using mixed cultures. Int J Hydrogen Energy 2008, 33(15):4064-4073.
15. Wang J., Wan W. Influence of Ni2+ concentration on biohydrogen production. Bioresour Technol 2008, 99(18):8864-8868.
16. Cai J.L., Wang G.C., Li Y.C., Zhu D.L., Pan G.H. Enrichment and hydrogen production by marine anaerobic hydrogen-producing microflora. Chin Sci Bull 2009, 54(15):2656-2661.
17. Adav S.S., Lee D.J., Wang A., Ren N. Functional consortium for hydrogen production from cellobiose: concentration-to-extinction approach. Bioresour Technol 2009, 100(9):2546-2550.
18. 2-producing indigenous bacteria: feasibility and kinetic studies. Water Res 2008, 42:827-842.
19. Chang S., Li J.Z., Liu F. Evaluation of different pretreatment methods for preparing hydrogen-producing seed inocula from waste activated sludge. Renew Energy 2011, 36(5):1517-1522.
20. 2-producing cultures from anaerobic sludge. Enzyme Microb Technol 2007, 40(4):947-953.
21. Xiao B., Liu J. Effects of various pretreatments on biohydrogen production from sewage sludge. Chin Sci Bull 2009, 54(12):2038-2044.
22. O-Thong S., Prasertsan P., Birkeland N.K. Evaluation of methods for preparing hydrogen-producing seed inocula under thermophilic condition by process performance and microbial community analysis. Bioresour Technol 2009, 100(2):909-918.
23. Niu D.J., Wang J.Y., Wang B.Y., Zhao Y.-C. Effect of Mo-containing additives on biohydrogen fermentation from cassava's stillage. Int J Hydrog Energy 2011, 36(9):5289-5295.
24. Abreu A.A., Danko A.S., Costa J.C., Ferreira E.C., Alves M.M. Inoculum type response to different pHs on biohydrogen production from l-arabinose, a component of hemicellulosic biopolymers. Int J Hydrogen Energy 2009, 34(4):1744-1751.
25. Chen W.-M., Tseng Z.-J., Lee K.-S., Chang J.-S. Fermentative hydrogen production with Clostridium butyricum CGS5 isolated from anaerobic sewage sludge. Int J Hydrogen Energy 2005, 30(10):1063-1070.
26. Kumar N., Das D. Enhancement of hydrogen production by Enterobacter cloacae IIT-BT 08. Process Biochem 2000, 35(6):589-593.
27. Kotay S.M., Das D. Microbial hydrogen production with Bacillus coagulans IIT-BT S1 isolated from anaerobic sewage sludge. Bioresour Technol 2007, 98(6):1183-1190.
28. Argun H., Kargi F., Kapdan I.K., Oztekin R. Batch dark fermentation of powdered wheat starch to hydrogen gas: effects of the initial substrate and biomass concentrations. Int J Hydrogen Energy 2008, 33(21):6109-6115.
29. Danko A.S., Abreu A.A, Alves M.M. Effect of arabinose concentration on dark fermentation hydrogen production using different mixed cultures. Int J Hydrogen Energy 2008, 33(17):4527-4532.
30. Ginkel S.V., Sung S., Lay J.-J. Biohydrogen production as a function of ph and substrate Concentration. Environ Sci Technol 2001, 35(24):4726-4730.
31. Fabiano B., Perego P. Thermodynamic study and optimization of hydrogen production by Enterobacter aerogenes. Int J Hydrogen Energy 2002, 27(2):149-156.
32. Lay J., Li Y., Noike T. Mathematical model for methane production from landfill bioreactor. JEnviron Eng 1998, 124(8):730-736.
33. Cornish-Bowden A. Fundamentals of enzyme kinetics 2013, Willey-Blackwell. 4th ed.
34. Mnatsakanyan N., Bagramyan K., Trchounian A. Hydrogenase 3 but not hydrogenase 4 is major in hydrogen gas production by Escherichia coli formate hydrogenlyase at acidic pH and in the presence of external formate. Cell Biochem Biophys 2004, 41(3):357-365.
35. Tsygankov A.A., Minakov E.A., Zorin N.A., Gosteva K.S., Voronin O.G., Karyakin A.A. Measuring the pH dependence of hydrogenase activities. Biochem Mosc 2007, 72(9):968-973.
36. Liu H., Wang G., Zhu D., Pan G. Enrichment of the hydrogen-producing microbial community from marine intertidal sludge by different pretreatment methods. Int J Hydrogen Energy 2009, 34(24):9696-9701.
37. Zhao Y., Chen Y., Zhang D., Zhu X. Waste activated sludge fermentation for hydrogen production enhanced by anaerobic process improvement and acetobacteria inhibition: the role of fermentation pH. Environ Sci Technol 2010, 44(9):3317-3323.
38. Feng X., Wang H., Wang Y., Wang X., Huang J. Biohydrogen production from apple pomace by anaerobic fermentation with river sludge. Int J Hydrogen Energy 2010, 35(7):3058-3064.
39. Ma S., Wang H., Wang Y., Bu H., Bai J. Bio-hydrogen production from cornstalk wastes by orthogonal design method. Renew Energy 2011, 36(2):709-713.
40. Mu Y., Zheng X.-J., Yu H.-Q., Zhu R.-F. Biological hydrogen production by anaerobic sludge at various temperatures. Int J Hydrogen Energy 2006, 31(6):780-785.
41. Wu K.-J., Chang J.-S. Batch and continuous fermentative production of hydrogen with anaerobic sludge entrapped in a composite polymeric matrix. Process Biochem 2007, 42(2):279-284.
42. Purich D.L., Allison R.D. The enzyme reference: a comprehensive guidebook to enzyme nomenclature, reactions, and methods (Google eBook) 2002, Academic Press, USA.
43. Baghchehsaraee B., Nakhla G., Karamanev D., Margaritis A. Fermentative hydrogen production by diverse microflora. Int J Hydrogen Energy 2010, 35(10):5021-5027.
44. Cooney C.L. Growth of microorganisms. Biotechnology 1981, 73-114. Verlag Chemie, Weinheim. H.J. Rehm, G. Reed (Eds.).
45. Renaud J.-P., Davydov D.R., Heirwegh K.P.M., Mansuy D., Hui Bon Hoa G. Thermodynamic studies of substrate binding and spin transitions in human cytochrome P-450 3A4 expressed in yeast microsomes. Biochem J 1996, 319:675-681.
46. Gummadi S. What is the role of thermodynamics on protein stability?. Biotechnol Bioprocess Eng 2003, 8(1):9-18.
47. Akutsu Y., Li Y.-Y., Harada H., Yu H.-Q. Effects of temperature and substrate concentration on biological hydrogen production from starch. Int J Hydrogen Energy 2009, 34(6):2558-2566.
48. Keener J.P., Sneyd P. Mathematical physiology 1998, Springer, New York.
49. Roychowdhury S., Cox D., Levandowsky M. Production of hydrogen by microbial fermentation. Int J Hydrogen Energy 1988, 13(7):407-410.
50. Lin C.Y., Lay C.H. Carbon/nitrogen-ratio effect on fermentative hydrogen production by mixed microflora. Int J Hydrogen Energy 2004, 29(1):41-45.
51. Hiligsmann S., Masset J., Hamilton C., Beckers L., Thonart P. Comparative study of biological hydrogen production by pure strains and consortia of facultative and strict anaerobic bacteria. Bioresour Technol 2011, 102(4):3810-3818.
52. Ren N.-Q., Guo W.-Q., Wang X.-J., Xiang W.-S., Liu B.-F., Wang X.-Z., et al. Effects of different pretreatment methods on fermentation types and dominant bacteria for hydrogen production. Int J Hydrogen Energy 2008, 33(16):4318-4324.