Comparison of saccharification and fermentation of steam exploded rice straw and rice husk

Biotechnology for Biofuels

Volumn 9, Issue 1, 2016, Pages

  Wood, Ian P ^a   Cao, Huong Giang ^b   Tran, Long ^b   Cook, Nicola ^c   Ryden, Peter ^a   Wilson, David R ^a   Moates, Graham K ^a   Collins, Samuel R A ^a   Elliston, Adam ^a   Waldron, Keith W ^a  

^a INSTITUTE OF FOOD RESEARCH   (United Kingdom)

^b Institute of Agricultural Genetic   (Viet Nam)

^c EARLHAM INSTITUTE   (United Kingdom)

Author keywords

Bioethanol; Biomass; Fermentation; Pretreatment; Rice husk; Rice straw; Saccharification; Steam explosion

Indexed keywords

BIOETHANOL; BIOLOGICAL WATER TREATMENT; BIOMASS; ENZYME ACTIVITY; ETHANOL; EXPLOSIONS; FEEDSTOCKS; FERMENTATION; STEAM;

CARBOHYDRATE COMPOSITIONS; ENZYMATIC SACCHARIFICATION; PHYSIOLOGICAL DIFFERENCES; PRE-TREATMENT; RICE HUSK; RICE STRAWS; SIMULTANEOUS SACCHARIFICATION AND FERMENTATION; STEAM EXPLOSION;

SACCHARIFICATION;

BIOMASS; BIOTECHNOLOGY; ETHANOL; FERMENTATION;

ORYZA SATIVA;

EID: 84984994875     PISSN: 17546834     EISSN: None     Source Type: Journal    
DOI: 10.1186/s13068-016-0599-6     Document Type: Article

References (33)

1. Yu J, Zhang JB, He J, Liu ZD, Yu ZN. Combinations of mild physical or chemical pretreatment with biological pretreatment for enzymatic hydrolysis of rice hull. Bioresour Technol. 2009;100:903-8.
2. Organisation FaA. 2016. FAO Rice Market Monitor. p. 1.
3. Singh A, Tuteja S, Singh N, Bishnoi NR. Enhanced saccharification of rice straw and hull by microwave-alkali pretreatment and lignocellulolytic enzyme production. Bioresour Technol. 2011;102:1773-82.
4. Fernandez A, Davis SB, Wendt JOL, Cenni R, Young RS, Witten ML. Public health - particulate emission from biomass combustion. Nature. 2001;409:998-1098.
5. Bond TC, Doherty SJ, Fahey DW, Forster PM, Berntsen T, et al. Bounding the role of black carbon in the climate system: a scientific assessment. J Geophys Res Atmos. 2013;118:5380-552.
6. Alberto MCR, Wassmann R, Gummert M, Buresh RJ, Quilty JR, et al. Straw incorporated after mechanized harvesting of irrigated rice affects net emissions of CH4 and CO2 based on eddy covariance measurements. Field Crop Res. 2015;184:162-75.
7. Moniruzzaman M. Effect of steam explosion on the physicochemical properties and enzymatic saccharification of rice straw. Appl Biochem Biotechnol. 1996;59:283-97.
8. Moniruzzaman M. Saccharification and alcohol fermentation of steam-exploded rice straw. Bioresour Technol. 1996;55:111-7.
9. Taniguchi M, Takahashi D, Watanabe D, Sakai K, Hoshino K, et al. Effect of steam explosion pretreatment on treatment with Pleurotus ostreatus for the enzymatic hydrolysis of rice straw. J Biosci Bioeng. 2010;110:449-52.
10. Ibrahim MM, El-Zawawy WK, Abdel-Fattah YR, Soliman NA, Agblevor FA. Comparison of alkaline pulping with steam explosion for glucose production from rice straw. Carbohydr Polym. 2011;83:720-6.
11. Sindhu R, Binod P, Janu KU, Sukumaran RK, Pandey A. Organosolvent pretreatment and enzymatic hydrolysis of rice straw for the production of bioethanol. World J Microb Biot. 2012;28:473-83.
12. Jin SY, Chen HZ. Superfine grinding of steam-exploded rice straw and its enzymatic hydrolysis. Biochem Eng J. 2006;30:225-30.
13. Yanez R, Alonso JL, Parajo JC. Enzymatic saccharification of hydrogen peroxide-treated solids from hydrothermal processing of rice husks. Process Biochem. 2006;41:1244-52.
14. Banerjee S, Sen R, Pandey RA, Chakrabarti T, Satpute D, et al. Evaluation of wet air oxidation as a pretreatment strategy for bioethanol production from rice husk and process optimization. Biomass Bioenergy. 2009;33:1680-6.
15. Piñeros-Castro Y, Velasco GA, Proaños J, Cortes W, Ballesteros I. Producción de azúcares fermentables por hidrólisis enzimática de cascarilla de arroz pretratada mediante explosión con vapor. Revista ION. 2011;24:23-8.
16. Jeya M, Zhang YW, Kim IW, Lee JK. Enhanced saccharification of alkali-treated rice straw by cellulase from Trametes hirsuta and statistical optimization of hydrolysis conditions by RSM. Bioresour Technol. 2009;100:5155-61.
17. Singh A, Bajar S, Bishnoi NR. Enzymatic hydrolysis of microwave alkali pretreated rice husk for ethanol production by Scheffersomyces stipitis and their co-culture Saccharomyces cerevisiae. Fuel. 2014;116:699-702.
18. Waldron KW. Bioalcohol production: biochemical conversion of lignocellulosic biomass. Boca Raton: Woodhead Publishing Ltd: CRC Press Ltd; 2010. p. 476.
19. Cabrera E, Munoz MJ, Martin R, Caro I, Curbelo C, Diaz AB. Alkaline and alkaline peroxide pretreatments at mild temperature to enhance enzymatic hydrolysis of rice hulls and straw. Bioresour Technol. 2014;167:1-7.
20. Saeman JF, Bubl JL, Harris EE. Quantitative saccharification of wood and cellulose. Ind Eng Chem. 1945;17:35-7.
21. Ghose TK. Measurement of cellulase activities. Pure Appl Chem. 1987;59:257-68.
22. Elliston A, Collins SRA, Wilson DR, Roberts IN, Waldron KW. High concentrations of cellulosic ethanol achieved by fed batch semi simultaneous saccharification and fermentation of waste-paper. Bioresour Technol. 2013;134:117-26.
23. Wood IP, Elliston A, Ryden P, Bancroft I, Roberts IN, Waldron KW. Rapid quantification of reducing sugars in biomass hydrolysates: improving the speed and precision of the dinitrosalicylic acid assay. Biomass Bioenergy. 2012;44:117-21.
24. Abedinifar S, Karimi K, Khanahmadi M, Taherzadeh MJ. Ethanol production by Mucor indicus and Rhizopus oryzae from rice straw by separate hydrolysis and fermentation. Biomass Bioenergy. 2009;33:828-33.
25. Moradi F, Amiri H, Soleimanian-Zad S, Ehsani MR, Karimi K. Improvement of acetone, butanol and ethanol production from rice straw by acid and alkaline pretreatments. Fuel. 2013;112:8-13.
26. Merali Z, Ho JD, Collins SRA, Le Gall G, Elliston A, et al. Characterization of cell wall components of wheat straw following hydrothermal pretreatment and fractionation. Bioresour Technol. 2013;131:226-34.
27. Novozymes. 2015. Novozymes Cellic® CTec2 and HTec2 - enzymes for hydrolysis of lignocellulosic. http://bioenergy.novozymes.com/en/cellulosic-ethanol/CellicCTec3/Documents/AS-2010-01668-03.pdf.
28. Elliston A, Collins SRA, Faulds CB, Roberts IN, Waldron KW. Biorefining of waste paper biomass: increasing the concentration of glucose by optimising enzymatic hydrolysis. Appl Biochem Biotechnol. 2014;172:3621-34.
29. Zhang Y, Liu YY, Xu JL, Yuan ZH, Qi W, et al. High solid and low enzyme loading based saccharification of agricultural biomass. Bioresources. 2012;7:345-53.
30. Liu YY, Xu JL, Zhang Y, Yuan ZH, Xie J. Optimization of high solids fed-batch saccharification of sugarcane bagasse based on system viscosity changes. J Biotechnol. 2015;211:5-9.
31. Yang MH, Li WL, Liu BB, Li Q, Xing JM. High-concentration sugars production from corn stover based on combined pretreatments and fed-batch process. Bioresour Technol. 2010;101:4884-8.
32. Harun S, Balan V, Takriff MS, Hassan O, Jahim J, Dale BE. Performance of AFEX (TM) pretreated rice straw as source of fermentable sugars: the influence of particle size. Biotechnol Biofuels. 2013;6:40.
33. Kim SB, Lee SJ, Lee JH, Jung YR, Thapa LP, et al. Pretreatment of rice straw with combined process using dilute sulfuric acid and aqueous ammonia. Biotechnol Biofuels. 2013;6:109.