Feasibility of rice straw as alternate substrate for biobutanol production

Applied Energy

Volumn 103, Issue , 2013, Pages 32-38

  Ranjan, Amrita ^a   Khanna, Swati ^a   Moholkar, V S ^a  

^a INDIAN INSTITUTE OF TECHNOLOGY GUWAHATI   (India)

Author keywords

Anaerobic fermentation; Biobutanol; Bioreactor; Hydrolyzate; Lignocelluloses

Indexed keywords

ACETONE; BIOLOGICAL WATER TREATMENT; BIOREACTORS; ETHANOL; GLUCOSE; HYDROLYSIS;

ACID HYDROLYSIS; ACIDOGENESIS; ANAEROBIC FERMENTATION; BIOBUTANOL; BIOFUELS PRODUCTION; CLOSTRIDIUM ACETOBUTYLICUM; HYDROLYZATE; LIGNOCELLULOSES; POTENTIAL FEEDSTOCK; REDUCING SUGARS; RICE STRAWS; SHEARING STRESS; SOLVENTOGENESIS; SUGAR UTILIZATION; TOTAL REDUCING SUGARS;

SUBSTRATES;

ACETONE; ANOXIC CONDITIONS; BACTERIUM; BIOFUEL; BIOREACTOR; CELLULOSE; DIESEL; FEASIBILITY STUDY; FERMENTATION; HYDROLYSIS; LIGNIN; RICE; SHEAR STRESS; STRAW; SUBSTRATE;

CLOSTRIDIUM ACETOBUTYLICUM;

EID: 84870161179     PISSN: 03062619     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apenergy.2012.10.035     Document Type: Article

References (38)

1. Srirangan K., Akawi L., Moo-Young M., Chou C.P. Towards sustainable production of clean energy carriers from biomass resources. Appl Energy 2012, 100:172-186.
2. Ranjan A., Patil C., Moholkar V.S. Mechanistic assessment of microalgal lipid extraction. Ind Eng Chem Res 2010, 49:2979-2985.
3. Daroch M., Geng S., Wang G. Recent advances in liquid biofuel production from algal feedstocks. Appl Energy 2013, 102:1371-1381.
4. Daianova L., Dotzauer E., Thorin E., Yan J. Evaluation of a regional bioenergy system with local production of biofuel for transportation, integrated with a CHP plant. Appl Energy 2011, 92:739-749.
5. Matsumoto N., Sano D., Elder M. Biofuel initiatives in Japan: strategies, policies, and future potential. Appl Energy 2009, 86:S69-S76.
6. Saga K., Imou K., Yokoyama S., Minowa T. Net energy analysis of bioethanol production system from high-yield rice plant in Japan. Appl Energy 2010, 87:2164-2168.
7. Yan J., Lin T. Biofuels in Asia. Appl Energy 2009, 86:S1-S10.
8. Decker S.R., Brunecky R., Tucker M.P., Himmel M.E., Seli M.J. High-throughput screening techniques for biomass conversion. Bioenergy Res 2009, 2:179-192.
9. Demirbas A. Competitive liquid biofuels from biomass. Appl Energy 2010, 88:17-28.
10. Ekman A., Wallberg O., Joelsson E., Börjesson P. Possibilities for sustainable biorefineries based on agricultural residues - a case study of potential straw-based ethanol production in Sweden. Appl Energy 2013, 102:299-308.
11. Suramaythangkoor T., Gheewala S.H. Potential alternatives of heat and power technology application using rice straw in Thailand. Appl Energy 2010, 87:128-133.
12. Zhang Q., He G., Wang J., Cai W., Xu Y. Mechanisms of the stimulatory effects of rhamnolipid biosurfactant on rice straw hydrolysis. Appl Energy 2009, 86:S233-S237.
13. Gadde B., Menke C., Wassmann R. Rice straw as a renewable energy source in India, Thailand and the Philippines: overall potential and limitations for energy contribution and greenhouse gas mitigation. Biomass Bioenergy 2009, 33:1532-1546.
14. He Y., Pang Y., Liu Y., Li X., Wang K. Physiochemical characterization of rice straw pretreated with sodium hydroxide in the solid state for enhancing biogas production. Energy Fuel 2008, 32:2775-2781.
15. Ranjan A., Moholkar V.S. Comparative study of various pretreatment techniques for rice straw saccharification for the production of alcoholic biofuels. Fuel 2011, 10.1016/j.fuel.2011.03.030.
16. Choi, Um B.H., Kim Y.S., Oh K.K. Improved enzyme efficiency of rapeseed straw through the two-stage fractionation process using sodium hydroxide and sulfuric acid. Appl Energy 2013, 102:640-646.
17. Vancov T., McIntosh S. Mild acid pretreatment and enzyme saccharification of Sorghum bicolor straw. Appl Energy 2012, 92:421-428.
18. Diep N.Q., Fujimoto S., Minowa T., Sakanishi K., Nakagoshi N. Estimation of the potential of rice straw for ethanol production and the optimum facility size for different regions in Vietnam. Appl Energy 2012, 93:205-211.
19. Chandra R., Takeuchi H., Hasegawa T. Hydrothermal pretreatment of rice straw biomass: a potential and promising method for enhanced methane production. Appl Energy 2012, 94:129-140.
20. Zheng Y., Pan Z., Zhang R., Wang D. Enzymatic saccharification of dilute acid pretreated saline crops for fermentable sugar production. Appl Energy 2009, 86:2459-2465.
21. Chen W.H., Tu Y.J., Sheen H.K. Disruption of sugarcane bagasse lignocellulosic structure by means of dilute sulfuric acid pretreatment with microwave-assisted heating. Appl Energy 2011, 88:2726-2734.
22. Verma A., Kumar S., Jain P.K. Key pretreatment technologies on cellulosic ethanol production. J Sci Res 2011, 55:57-63.
23. Delivand M.K., Barz M., Gheewala S.H., Sajjakulnukit B. Economic feasibility assessment of rice straw utilization for electricity generating through combustion in Thailand. Appl Energy 2011, 88:3651-3658.
24. Hedge J.E., Hofreiter B.T. Carbohydrate chemistry 1962, 17. Academic press, New York. R.L. Whistler, J.N. Miller (Eds.).
25. Miller G.L. Use of dinitrosalicylic acid reagent for determination of reducing sugar. Anal Chem 1972, 31:426-428.
26. Lee Y.Y., Iyer P., Torget R.W. Dilute acid hydrolysis of lignocellulosic biomass. Adv Biochem Eng Biotechnol 1999, 65:93-115.
27. Labbe G.R. Sporulation (Morphology) of clostridia. Handbook on Clostridia 2005, 647-658. CRC Press, Boca Raton. P. Duerre (Ed.).
28. Mayank R., Ranjan A., Moholkar V.S. Mathematical models of ABE fermentation: review and analysis. Crit Rev Biotech 2012, 10.3109/07388551.201.
29. Ranjan A., Moholkar V.S. Biobutanol: science, engineering, and economics. Int J Energy Res 2012, 39:277-323.
30. Durre P. Formation of solvents in Clostridia. Handbook on Clostridia 2005, 671-693. CRC Press, Boca Raton. P. Duerre (Ed.).
31. Weil J.R., Dien B., Hendrickson R., Mosier N.S., Ladisch M.R. Removal of fermentaton inhibitors formed during fermentation of biomass by polymeric adsorbent. Ind Eng Chem Res 2002, 41:6132-6138.
32. Liu Z., Ying Y., Li F., Ma C., Xu P. Butanol production by Clostridium beijerinckii ATCC 55025 from wheat bran. J Ind Microbiol Biotechnol 2010, 37:495-501.
33. Qureshi N., Ezeji T.C., Ebener J., Dien B.S., Cotta M.A., Blaschek H.P. Butanol production by Clostridium beijerinckii. Part I. Use of acid and enzyme hydrolyzed corn fiber. Bioresour Technol 2008, 99:5915-5922.
34. Qureshi N., Saha B.C., Cotta M.A. Butanol production from wheat straw by simultaneous saccharification and fermentation using Clostridium beijerinckii. Part I. Fed batch fermentation. Biomass Bioenergy 2008, 32:168-175.
35. Huesemann M.H., Kuo L.J., Urquhart L., Gill G.A., Roesijadi G. Acetone-butanol fermentation of marine macroalgae. Bioresour Technol 2012, 108:305-309.
36. Jesse T.W., Ezeji T.C., Quereshi N., Blaschek H.P. Production of butanol from starch-based waste packing peanuts and agricultural waste. J Ind Microbiol Biotechnol 2002, 29:117-123.
37. Chauvatcharin S., Siripatana C., Seki T., Takagi M., Yoshida T. Metabolism analysis and online physiological state diagnosis of acetone-butanol fermentation. Biotechnol Bioenergy 1998, 58:561-571.
38. Mitchelle W.J., Tangney M. Carbohydrate uptake by the Phosphotransferase system and other mechanism. Handbook on Clostridia 2005, 155-175. CRC Press, Boca Raton. P. Duerre (Ed.).