Experimental and modeling study of a two-stage pilot scale high solid anaerobic digester system

Bioresource Technology

Volumn 124, Issue , 2012, Pages 8-17

  Yu, Liang ^a   Zhao, Quanbao ^a   Ma, Jingwei ^a   Frear, Craig ^a   Chen, Shulin ^a  

^a WASHINGTON STATE UNIVERSITY   (United States)

Author keywords

Anaerobic digestion model No. 1 (ADM1); Food waste; High solid anaerobic digester (HSAD); Organic fraction of municipal solid wastes (OFMSW)

Indexed keywords

ANAEROBIC DIGESTER; ANAEROBIC DIGESTION MODEL; BIOGAS PRODUCTION; COMPREHENSIVE MODEL; CONTINUOUS STIRRED TANK REACTOR; FOOD WASTE; HIGH-SOLIDS; LEACHATES; MODELING STUDIES; ORGANIC FRACTION OF MUNICIPAL SOLID WASTES; PILOT SCALE;

BIOGAS; MUNICIPAL SOLID WASTE; REACTION KINETICS; VOLATILE FATTY ACIDS;

ANAEROBIC DIGESTION;

BIOGAS; METHANE; VOLATILE FATTY ACID;

ANOXIC CONDITIONS; BIOGAS; DIGESTION; DOMESTIC WASTE; EXPERIMENTAL STUDY; MUNICIPAL SOLID WASTE; PH; REACTION KINETICS;

ANAEROBIC DIGESTION; ARTICLE; BIOREACTOR; BIOREACTOR DESIGN; CHEMICAL REACTION KINETICS; CONTINUOUS STIRRED TANK REACTOR; CONTROLLED STUDY; EXPERIMENTAL STUDY; GRAVITY; HIGH SOLID ANAEROBIC DIGESTION SYSTEM; LEACHING; MUNICIPAL SOLID WASTE; PH; PRIORITY JOURNAL; SIMULATION; SOLID WASTE MANAGEMENT; UPFLOW REACTOR;

ANAEROBIOSIS; BIOFUELS; BIOREACTORS; DIFFUSION; KINETICS; PILOT PROJECTS; REFUSE DISPOSAL;

EID: 84866177356     PISSN: 09608524     EISSN: 18732976     Source Type: Journal    
DOI: 10.1016/j.biortech.2012.08.088     Document Type: Article

References (34)

1. Arudchelvam Y., Perinpanayagam M., Nirmalakhandan N. Predicting VFA formation by dark fermentation of particulate substrates. Bioresource Technology 2010, 101:7492-7499.
2. Arvanitoyannis I.S. Waste Management for the Food Industries 2008, Academic Press.
3. Batstone D., Keller J., Angelidaki I., Kalyuzhnyi S., Pavlostathis S.G., Rozzi A., Sanders W.T.M., Siegrist H., Vavilin V.A. Anaerobic Digestion Model No. 1 (ADM1) 2002, IWA Publishing, London, UK.
4. Batstone D.J., Keller J., Steyer J.P. A review of ADM1 extensions, applications, and analysis: 2002-2005. Water Science and Technology 2006, 54:1-10.
5. Blumensaat F., Keller J. Modelling of two-stage anaerobic digestion using the IWA Anaerobic Digestion Model No. 1 (ADM1). Water Research 2005, 39:171-183.
6. Cavinato C., Bolzonella D., Fatone F., Giuliano A., Pavan P. Two-phase thermophilic anaerobic digestion process for biohythane production treating biowaste: preliminary results. Water Science and Technology 2011, 64:715-721.
7. Chen Z.B., Hu D.X., Zhang Z.P., Ren N.Q., Zhu H.B. Modeling of two-phase anaerobic process treating traditional Chinese medicine wastewater with the IWA Anaerobic Digestion Model No. 1. Bioresource Technology 2009, 100:4623-4631.
8. Chynoweth D.P., Isaacson R. Anaerobic Digestion of Biomass 1987, Elsevier Applied Science, London and New York.
9. Demirel B., Yenigun O. Two-phase anaerobic digestion processes: a review. Journal of Chemical Technology and Biotechnology 2002, 77:743-755.
10. Dinsdale R.M., Premier G.C., Hawkes F.R., Hawkes D.L. Two-stage anaerobic co-digestion of waste activated sludge and fruit/vegetable waste using inclined tubular digesters. Bioresource Technology 2000, 72:159-168.
11. Dohányos M., Kosová B., Zábranská J., Grau P. Production and utilization of volatile fatty acids in various types of anaerobic reactors. Water Science and Technology 1985, 17:191-205.
12. Eaton A.D., Franson M.A.H. Standard Methods for the Examination of Water & Wastewater 2005, American Public Health Association, American Water Works Association, Water Environment Federation, American Public Health Association.
13. Gali A., Benabdallah T., Astals S., Mata-Alvarez J. Modified version of ADM1 model for agro-waste application. Bioresource Technology 2009, 100:2783-2790.
14. Inanc B., Matsui S., Ide S. Propionic acid accumulation in anaerobic digestion of carbohydrates: an investigation on the role of hydrogen gas. Water Science and Technology 1999, 40:93-100.
15. Jagadabhi P.S., Kaparaju P., Rintala J. Two-stage anaerobic digestion of tomato, cucumber, common reed and grass silage in leach-bed reactors and upflow anaerobic sludge blanket reactors. Bioresource Technology 2011, 102:4726-4733.
16. Koutrouli E.C., Kalfas H., Gavala H.N., Skiadas I.V., Stamatelatou K., Lyberatos G. Hydrogen and methane production through two-stage mesophilic anaerobic digestion of olive pulp. Bioresource Technology 2009, 100:3718-3723.
17. Lehtomaki A., Huttunen S., Lehtinen T., Rintala J.A. Anaerobic digestion of grass silage in batch leach bed processes for methane production. Bioresource Technology 2008, 99:3267-3278.
18. Liu Y., Xu H.-L., Show K.-Y., Tay J.-H. Anaerobic granulation technology for wastewater treatment. World Journal of Microbiology and Biotechnology 2002, 18:99-113.
19. Molina F., Garcia C., Roca E., Lema J.M. Characterization of anaerobic granular sludge developed in UASB reactors that treat ethanol, carbohydrates and hydrolyzed protein based wastewaters. Water Science and Technology 2008, 57:837-842.
20. Nizami A.S., Singh A., Murphy J.D. Design, commissioning, and start-up of a sequentially fed leach bed reactor complete with an upflow anaerobic sludge blanket digesting grass silage. Energy & Fuels 2011, 25:823-834.
21. Padmasiri S.I., Zhang J.Z., Fitch M., Norddahl B., Morgenroth E., Raskin L. Methanogenic population dynamics and performance of an anaerobic membrane bioreactor (AnMBR) treating swine manure under high shear conditions. Water Research 2007, 41:134-144.
22. Reichert P. AQUASIM 2.0: Computer Program for the Identification and Simulation of Aquatic Systems 1998, Swiss Federal Institute for Environmental Science and Technology (EAWAG), Switzerland.
23. Rivard C.J., Himmel M.E., Vinzant T.B., Adney W.S., Wyman C.E., Grohmann K. Development of a novel laboratory scale high solids reactor for anaerobic-digestion of processed municipal solid-wastes for the production of methane. Applied Biochemistry and Biotechnology 1989, 20-1:461-478.
24. Rosen, C., Jeppsson, U., 2006. Aspects on ADM1 Implementation within the BSM2 Framework, Technical Report. Department of Industrial Electrical Engineering and Automation, Lund University, Lund, Sweden.
25. Schievano A., D'Imporzano G., Malagutti L., Fragali E., Ruboni G., Adani F. Evaluating inhibition conditions in high-solids anaerobic digestion of organic fraction of municipal solid waste. Bioresource Technology 2010, 101:5728-5732.
26. Schmidt J.E., Ahring B.K. Granular sludge formation in upflow anaerobic sledge blanket (UASB) reactors. Biotechnology and Bioengineering 1996, 49:229-246.
27. Seghezzo L., Zeeman G., van Lier J.B., Hamelers H.V.M., Lettinga G. A review: the anaerobic treatment of sewage in UASB and EGSB reactors. Bioresource Technology 1998, 65:175-190.
28. Sonakya V., Raizada N., Hausner M., Wilderer P.A. Microbial populations associated with fixed- and floating-bed reactors during a two-stage anaerobic process. International Microbiology 2007, 10:245-251.
29. Thamsiriroj T., Murphy J.D. Modelling mono-digestion of grass silage in a 2-stage CSTR anaerobic digester using ADM1. Bioresource Technology 2011, 102:948-959.
30. Vavilin V.A., Angelidaki I. Anaerobic degradation of solid material: importance of initiation centers for methanogenesis, mixing intensity, and 2D distributed model. Biotechnology and Bioengineering 2005, 89:113-122.
31. Velmurugan B., Ramanujam R.A. Anaerobic digestion of vegetable wastes for biogas production in a fed-batch reactor. International Journal of Emerging Sciences 2011, 1:478-486.
32. Walker M., Banks C.J., Heaven S. Two-stage anaerobic digestion of biodegradable municipal solid waste using a rotating drum mesh filter bioreactor and anaerobic filter. Bioresource Technology 2009, 100:4121-4126.
33. Yu L., Ma J., Chen S. Numerical simulation of mechanical mixing in high solid anaerobic digester. Bioresource Technology 2011, 102:1012-1018.
34. Zhao B.-H., Yue Z.-B., Ni B.-J., Mu Y., Yu H.-Q., Harada H. Modeling anaerobic digestion of aquatic plants by rumen cultures: cattail as an example. Water Research 2009, 43:2047-2055.