Enzymatic hydrolysis of foodwaste and methane production using UASB bioreactor

International Journal of Green Energy

Volumn 8, Issue 3, 2011, Pages 361-371

  Moon, Hee Cheon ^a   Song, I S ^a  

^a Gyeonggi do Research Institute of Health and Environment   (South Korea)

Author keywords

Enzymatic hydrolysis; Food waste; Methane fermentation; UASB bioreactor

Indexed keywords

ANAEROBIC DIGESTION PROCESS; COMPLEX CARBOHYDRATES; ENZYME MIXTURES; FOOD WASTE; HYDROLYSIS REACTION; METHANE FERMENTATION; METHANE PRODUCTION; METHANE YIELD; OPTIMUM CONDITIONS; ORGANIC LOADING RATES; REMOVAL EFFICIENCIES; SOLUBLE CHEMICAL OXYGEN DEMANDS; UASB BIOREACTOR; UASB REACTOR; UP-FLOW ANAEROBIC SLUDGE BLANKET REACTORS;

ANAEROBIC DIGESTION; BIOGAS; BIOREACTORS; CARBOHYDRATES; CHEMICAL OXYGEN DEMAND; METHANE; REMOVAL;

ENZYMATIC HYDROLYSIS;

BIOGAS; BIOREACTOR; CARBOHYDRATE; CHEMICAL OXYGEN DEMAND; ENZYME; FERMENTATION; HYDROLYSIS; METHANE; SOLUBILIZATION; WASTE;

EID: 79957441369     PISSN: 15435075     EISSN: 15435083     Source Type: Journal    
DOI: 10.1080/15435075.2011.557845     Document Type: Article

References (18)

1. Greenberg, A.C., L.S. Clesceri, and A.D. Eaton. 1992. Standard methods for the examination of water and wastewater, 18th ed. American Public Health Association (APHA).
2. Han, S.K., and H.S. Shin. 2004a. Biohydrogen production by anaerobic fermentation of food waste. International Journal of Hydrogen Energy 29: 569-77.
3. Han, S.K., and H.S. Shin. 2004b. Performance of an innovative two-stage process converting food waste to hydrogen and methane. Journal of the Air & Waste Management Association 54: 242-49.
4. Higgins, M.J., and J.T. Novak. 1997. Characterization of exocellular protein and its role in bioflocculation. Journal of Environmental Engineering 127: 479-85.
5. Hill, D.T., and J.P. Bolte. 2000. Methane production from low solid concentration liquid of swine waste using conventional anaerobic fermentation. Bioresource Technology 74: 241-47. (Pubitemid 30198204)
6. Kim, H.J., Y.G. Choi, G.D. Kim, and T.H. Chung. 2006. Effect of enzymatic pretreatment on acid fermentation of food waste. Journal of Chemical Technology & Biotechnolgy 81: 974-80. (Pubitemid 43833611)
7. Kim, J.K., B.R. Oh, Y.N. Chun, and S.W. Kim. 2006. Effects of temperature and hydraulic retention time on anaerobic digestion of food waste. Journal of Bioscience and Bioengineering 102, no. 4: 328-32. (Pubitemid 44781318)
8. Lettinga, G., S.W. vanVelson, W. Hobma, W. deZeeuw, and A. Klapwyk. 1980. Use of the upflow sludge blanket reactor concept for biological waste water treatment anaerobic treatment. Biotechnology and Bioengineering 22: 699-734.
9. Ministry of Environment, Republic of Korea. 2008. Internet homepage of the Ministry of environment. http://www.me.go.kr.
10. Moon, H.C., I.S. Song, C.J. Kim, Y. Shirai, D.H. Lee, J.K. Kim, S.O. Chung, D.H. Kim, K.K. Oh, and Y.S. Cho. 2009. Enzymatic hydrolysis of food waste and ethanol fermentation. International Journal of Energy Research 33: 164-72.
11. Moon, H.C., M. Wakisaka, Y. Shirai, and M. Taniguchi. 2005. Preferential substrate utilization by Propionibacterium shermanii in kitchen refuse medium. Japan Journal of Food Engineering 6: 37-43.
12. Nakamura, Y., and T. Sawada. 2003. Ethanol production from artificial domestic household waste solubilized by steam explosion. Biotechnology and Bioprocess Engineering 8: 205-9.
13. Parmer, N., A. Singh, and O.P. Ward. 2001. Enzyme treatment to reduce solids and improve settling of sewage sludge. Journal of Industrial Microbiology 26: 383-6. (Pubitemid 32905254)
14. Praneetrattananon, S., H.C. Moon, M. Wakisaka, and Y. Shirai. 2005a. Kitchen refuse utilization for succinic acid production by Actinobacillus succinogenes ATCC 55618. Japan Journal of Food Engineering 6: 259-67.
15. Praneetrattananon, S., M. Wakisaka, Y. Shirai, and V. Kitpreechavanich. 2005b. Kitchen refuse: A novel substrate for L (+)-lactic acid production by Rhizopus oryzae in submerged fermentation. Japan Journal of Food Engineering 6: 45-51.
16. Roman, H.J., J.E. Burgess, and B.I. Pletschke. 2006. Enzyme treatment to decrease solids and improve digestion of primary sewage sludge. African Journal of Biotechnology 5: 963-7. (Pubitemid 43793469)
17. Shigeki, S., T.M. Seiichiinoue, T. Kenichiro, and O. Tomoko. 1997. Thermochemical liquidization and anaerobic treatment of kitchen garbage. Journal of Fermentation and Bioengineering 83: 451-5.
18. Tsukahara K., T. Yagishita, T. Ogi, and S. Sawayama. 1999. Treatment of liquid fraction separated from liquidized food waste in an upflow anaerobic sludge blanket reactor. Journal of Bioscience and Bioengineering 87: 554-6. (Pubitemid 29239025)