Energy efficacy used to score organic refuse pretreatment processes for hydrogen anaerobic production

Waste Management

Volumn 33, Issue 11, 2013, Pages 2225-2233

  Ruggeri, Bernardo ^a   Luongo Malave, Andrea C ^a   Bernardi, Milena ^a   Fino, Debora ^a  

^a POLITECNICO DI TORINO   (Italy)

Author keywords

Biohydrogen; Efficacy; Efficiency; Lignocellulose material; Organic refuse; Pretreatments

Indexed keywords

BIO-HYDROGEN; EFFICACY; LIGNOCELLULOSE MATERIALS; ORGANIC REFUSE; PRE-TREATMENTS;

ANAEROBIC DIGESTION; COMMERCE; EFFICIENCY; PILOT PLANTS; SEED; WASTES;

HYDROGEN PRODUCTION;

CARBON; HYDROGEN;

ANOXIC CONDITIONS; BIOFUEL; ENERGY EFFICIENCY; HYDROGEN; INDUSTRIAL PRODUCTION; REFUSE; WASTE TREATMENT;

ANAEROBIC DIGESTION; ARTICLE; CHEMICAL PROCEDURES; COFFEE SEED SKIN REFUSE; CONTROLLED STUDY; ENERGY CONVERSION; ENERGY EFFICACY; ENERGY EFFICIENCY; ENERGY YIELD; ORGANIC WASTE; ORGANIC WASTE MARKET REFUSE; PHYSICAL PARAMETERS; PHYSICAL PHENOMENA; PRIORITY JOURNAL; SCORING SYSTEM; SWEET PRODUCT RESIDUE; TEMPERATURE; ULTRASOUND; WASTE; WASTE MANAGEMENT; WASTE PRETREATMENT;

BIOHYDROGEN; EFFICACY; EFFICIENCY; LIGNOCELLULOSE MATERIAL; ORGANIC REFUSE; PRETREATMENTS;

BIOFUELS; CARBOHYDRATE METABOLISM; CONSERVATION OF ENERGY RESOURCES; GARBAGE; HYDROGEN; LIGNIN;

EID: 84885176010     PISSN: 0956053X     EISSN: 18792456     Source Type: Journal    
DOI: 10.1016/j.wasman.2013.06.024     Document Type: Article

References (29)

1. America Public Health Association (APHA) Standard Methods for the Examination of Water and Wastewater 1995, America Public Health Association, Washington DC. 19th ed.
2. Belitz H.D., Grosch W., Schieberle P. Food Chemistry 2009, Springer-Verlag, Berlin. fourth ed.
3. Blackburn J., Liang Y., Das D. Biohydrogen from complex carbohydrate wastes as feedstocks - cellulose degraders from a unique series enrichment. Int. J. Hydrogen Energy 2009, 34:7428-7434.
4. Cantrell K.B., Ducey T., Ro K.S., Hunt P.G. Livestock waste to bioenergy generation opportunities. Bioresour. Technol. 2008, 99:7941-7953.
5. Del Campo I., Alegría I., Zazpe M., Echeverría M., Echeverría I. Diluted acid hydrolysis pretreatment of agri-food wastes for bioethanol production. Ind. Crops Prod. 2006, 24(3):214-221.
6. Deublein D., Steinhauser A. Biogas from Waste and Renewable Resources 2011, Wiley-VCH, Weinheim. second ed.
7. Fan L.T., Lee Y., Beardmore D.H. Mechanism of the enzymatic hydrolysis of cellulose: effects of major structural features of cellulose on enzymatic hydrolysis. Biotechnol. Bioeng. 1980, 22:177-199.
8. Guo X.M., Trably E., Latrille E., Carrère H., Steyer J.-P. Hydrogen production from agricultural waste by dark fermentation. Int. J. Hydrogen Energy 2010, 35(19):10660-10673.
9. Hansen T.L., Janson J., la C., Davidsson Å., Christensen T.H. Effects of pre-treatment technologies on quantity and quality of source-sorted municipal organic waste for biogas recovery. Waste Manage. 2007, 27:398-405.
10. Hussy I., Hawkes F.R., Dinsdale R., Hawkes D.L. Continuous fermentative hydrogen production from sucrose and sugarbeet. Int. J. Hydrogen Energy 2005, 30:471-483.
11. INRAN, Istituto Nazionale di Ricerca per gli Alimenti e la Nutrizione. (accessed 28.03.12). http://www.inran.it/646/tabelle_di_composizione_degli_alimenti.html.
12. Laser M., Haiming J., Kemantha J., Lynd L.R. Coproduction of ethanol and power from switch grass. Biofuels Bioprod. Biorefining 2009, 3(2):195-218.
13. Liu C., Wyman C.E. Partial flow of compressed-hot water through corn stover to enhance hemicellulose sugar recovery and enzymatic digestibility of cellulose. Bioresour. Technol. 2005, 96:1978-1985.
14. Martins S., Van Boekel M. A kinetic model for the glucose/glycine Maillard reaction pathways. Food Chem. 2005, 90:257-269.
15. McMillan J.D. Pretreatment of ligninocellulosic biomass. Enzymatic Conversion of Biomass for Fuels Production 1994, 292-324. American Chemical Society, Washington, DC. Himmel, Baker, Overend (Eds.).
16. Miller G.L. Use of dinitrosalicylic acid reagent for determination of reducing sugar. In Analytical Chemistry, American Chemical Society Publisher 1959, 31(3):426-428.
17. Mizuno O., Dinsdale R., Hawkes F.R., Hawkes D.L., Noike T. Enhancement of hydrogen production from glucose by nitrogen gas sparging. Bioresour. Technol. 2000, 73(1):59-65.
18. Mohan S.V., Bhaskar Y.V., Krishna P.M., Rao N.C., Babu V.L., Sarma P.N. Biohydrogen production from chemical wastewater as substrate composition. Int. J. Hydrogen Energy 2007, 32:2286-2295.
19. 2-producting cultures from anaerobic sludge. Enzyme Microb. Technol. 2007, 40:947-953.
20. Palonen H., Viikari L. Role of oxidative enzymatic treatments on enzymatic hydrolysis of softwood. Biotechnol. Bioeng. 2004, 85(5):550-557.
21. Parking B.G.F., Owen W. Fundamentals of anaerobic digestion of wastewater sludges. J. Environ. Eng., ASCE 1986, 112:867-920.
22. Ruggeri B., Bernardi M., Tommasi T. On the pre-treatment of Municipal Organic Waste (MOW) towards fuel production: a review. Int. J. Environ. Pollut. 2012, 49(3/4):226-250.
23. 2 energy production from organic waste. Int. J. Hydrogen Energy 2012, 37:6491-6502.
24. Sawayama S., Inoue S., Tsukahara K., Ogi T. Thermochemical liquidization of anaerobically digested and dewatered sludge and anaerobic pretreatment. Bioresour. Technol. 1996, 55:141-144.
25. Tarkow, H., Feist, W.C., 1969. A mechanism for improving the digestibility of lignocellulosic materials with dilute alkali and liquid NH3. In: Hajny, Reese (Eds.), Cellulases and their Applications, Advances in Chemistry Series 95. American Chemical Society, Washington, DC, pp. 197-218.
26. Tommasi T., Sassi G., Ruggeri B. Acid pre-treatment of sewage anaerobic sludge to increase hydrogen producing bacteria HPB: effectiveness and reproducibility. Water Sci. Technol. 2008, 58(8):1623.
27. Tuomela M., Vikman M., Hatakka A., Itävaara M. Biodegradation of lignin in a compost environment: a review. Bioresour. Technol. 2000, 72(2):169-183.
28. Valdez-Vazques I., Poggi-Varaldo H.M. Hydrogen production by fermentative consortia. Renew. Sustain. Energy Rev. 2009, 13:1000-1013.
29. Xing Y., Li Z., Fan Y., Hou H. Biohygrogen production from dairy manures with acidification pretreatment by anaerobic fermentation. Environ. Sci. Pollut. Res. 2010, 17:392-399.