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Received September 7, 2020
Accepted November 22, 2020
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This is an Open-Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/bync/3.0) which permits
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Integration of hemicellulose pre-extraction and solid alkali-oxygen cooking processes for lignocellulose fractionation with emphasis on xylan valorization
Jiangsu Key Laboratory for Biomass-based Energy and Enzyme Technology, School of Chemistry and Chemical Engineering, Huaiyin Normal University, Huaian 223300, Jiangsu, China 1College of Energy, Xiamen University,, Xiamen 361102, Fujian, China
Korean Journal of Chemical Engineering, April 2021, 38(4), 788-796(9), 10.1007/s11814-020-0720-1
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Abstract
Cooking with active oxygen and solid alkali (CAOSA) is a mild and environmentally friendly method for separation of lignin components. The degradation mechanism of hemicellulose associated with this method has been investigated. It was found that the hemicellulose-derived polysaccharides were directly oxidized rather than hydrolyzed to monosaccharides for degradation. To avoid the undesirable degradation of hemicellulose components by CAOSA, the idea of separating hemicellulose first in the form of xylan to produce xylooligosaccharide was presented by this study. Although hydrothermal autocatalysis has been commonly used in hemicellulose separation, the effects of acidenhanced hydrothermal method and alkali-suppressed hydrothermal method on hydrothermal autocatalysis were systematically compared for the first time, and it was found that the acid-enhanced method was beneficial for highly selective extraction of xylan. Then, the hemicellulose-removed bamboo was treated with CAOSA process to separate lignin from cellulose. It was found that solid alkali dosage of CAOSA could be evidently decreased for hemicelluloseremoved bamboo, which was helpful to reduce the cost of CAOSA. Coupling hemicellulose pre-extraction and CAOSA lignin fractionation strategy, a comprehensive biorefinery case for bamboo biomass could be anticipated.
References
Vazquez MJ, Alonso JL, Dominguez H, Parajo JC, Trends Food Sci. Technol., 11, 387 (2000)
Finegold SM, Li Z, Summanen PH, Downes J, Thames G, Corbett K, Dowd S, Krak M, Heber D, Food Funct., 5, 436 (2014)
Thiennimitr P, Yasom S, Tunapong W, Chunchai T, Wanchai K, et al., Nutrition, 54, 40 (2018)
Poletto P, Pereira GN, Monteiro CRM, Pereira MAF, Bordignon SE, de Oliveira D, Process Biochem., 91, 352 (2020)
He MX, Wang JI, Qin H, Shui ZX, Zhu QI, Wu B, Tan FR, Pan K, Hu QC, Dai LC, Wang WG, Tang XY, Hu GQ, Carbohydr. Polym., 111, 645 (2014)
Mera FAT, Xu C, Maderas-Cienc. Tecnol., 7, 1 (2014)
Jiang Y, Zeng X, Luque R, Tang X, Sun Y, Lei T, Liu S, Lin L, Chemsuschem, 10, 3982 (2017)
Jiang Y, Ding N, Luo B, Li Z, Tang X, Zeng X, Sun Y, Liu S, Lei T, Lin L, Chemcatchem, 9, 2544 (2017)
Tujun X, Lu L, Chunsheng P, Junping Z, Jianbin S, Qiulin Y, Carbohydr. Polym., 94, 807 (2013)
Gong C, Wei J, Tang X, Zeng X, Sun Y, Lin L, Korean J. Chem. Eng., 36(5), 740 (2019)
Ding N, Song X, Jiang Y, Luo B, Zeng X, Sun Y, Tang X, Lei T, Lin L, Sustain. Energy Fuels, 2, 2206 (2018)
Cao W, Sun C, Qiu J, Li X, Liu R, Zhang L, Korean J. Chem. Eng., 33(3), 873 (2016)
Klinpratoom B, Ontanee A, Ruangviriyachai C, Korean J. Chem. Eng., 32(3), 413 (2015)
Song X, Ding N, Zai Y, Zeng X, Sun Y, Tang X, Lei T, Lin L, J. Taiwan Inst. Chem. E, 96, 315 (2019)
Jiang Y, Chen W, Sun Y, Li Z, Tang X, Zeng X, Lin L, Liu S, Ind. Crop. Prod., 83, 408 (2016)
Ding N, Liu H, Zeng X, Sun Y, Tang X, Lin L, RSC Adv., 10, 16481 (2020)
Klinke HB, Ahring BK, Schmidt AS, Thomsen AB, Bioresour. Technol., 82(1), 15 (2002)
Knill CJ, Kennedy JF, Carbohydr. Polym., 51, 281 (2003)
Jain I, Kumar V, Satyanarayana T, Indian J. Exp. Biol., 53, 131 (2015)
Xiao X, Bian J, Peng XP, Xu H, Xiao B, Sun RC, Bioresour. Technol., 138, 63 (2013)
Yan Y, Li H, Ren J, Lin Q, Peng F, Sun R, Chen K, Ind. Crop. Prod., 101, 36 (2017)
Yan G, Feng Y, Wang H, Sun Y, Tang X, Hong W, Zeng X, Lin L, Commun. Mater., 41, 1 (2020)
Jiang YT, Li Z, Tang X, Sun Y, Zeng XH, Liu SJ, Lin L, Energy Fuels, 29(3), 1662 (2015)
Thant MM, Charmondusit K, Clean Technol. Environ., 12, 427 (2010)
Finegold SM, Li Z, Summanen PH, Downes J, Thames G, Corbett K, Dowd S, Krak M, Heber D, Food Funct., 5, 436 (2014)
Thiennimitr P, Yasom S, Tunapong W, Chunchai T, Wanchai K, et al., Nutrition, 54, 40 (2018)
Poletto P, Pereira GN, Monteiro CRM, Pereira MAF, Bordignon SE, de Oliveira D, Process Biochem., 91, 352 (2020)
He MX, Wang JI, Qin H, Shui ZX, Zhu QI, Wu B, Tan FR, Pan K, Hu QC, Dai LC, Wang WG, Tang XY, Hu GQ, Carbohydr. Polym., 111, 645 (2014)
Mera FAT, Xu C, Maderas-Cienc. Tecnol., 7, 1 (2014)
Jiang Y, Zeng X, Luque R, Tang X, Sun Y, Lei T, Liu S, Lin L, Chemsuschem, 10, 3982 (2017)
Jiang Y, Ding N, Luo B, Li Z, Tang X, Zeng X, Sun Y, Liu S, Lei T, Lin L, Chemcatchem, 9, 2544 (2017)
Tujun X, Lu L, Chunsheng P, Junping Z, Jianbin S, Qiulin Y, Carbohydr. Polym., 94, 807 (2013)
Gong C, Wei J, Tang X, Zeng X, Sun Y, Lin L, Korean J. Chem. Eng., 36(5), 740 (2019)
Ding N, Song X, Jiang Y, Luo B, Zeng X, Sun Y, Tang X, Lei T, Lin L, Sustain. Energy Fuels, 2, 2206 (2018)
Cao W, Sun C, Qiu J, Li X, Liu R, Zhang L, Korean J. Chem. Eng., 33(3), 873 (2016)
Klinpratoom B, Ontanee A, Ruangviriyachai C, Korean J. Chem. Eng., 32(3), 413 (2015)
Song X, Ding N, Zai Y, Zeng X, Sun Y, Tang X, Lei T, Lin L, J. Taiwan Inst. Chem. E, 96, 315 (2019)
Jiang Y, Chen W, Sun Y, Li Z, Tang X, Zeng X, Lin L, Liu S, Ind. Crop. Prod., 83, 408 (2016)
Ding N, Liu H, Zeng X, Sun Y, Tang X, Lin L, RSC Adv., 10, 16481 (2020)
Klinke HB, Ahring BK, Schmidt AS, Thomsen AB, Bioresour. Technol., 82(1), 15 (2002)
Knill CJ, Kennedy JF, Carbohydr. Polym., 51, 281 (2003)
Jain I, Kumar V, Satyanarayana T, Indian J. Exp. Biol., 53, 131 (2015)
Xiao X, Bian J, Peng XP, Xu H, Xiao B, Sun RC, Bioresour. Technol., 138, 63 (2013)
Yan Y, Li H, Ren J, Lin Q, Peng F, Sun R, Chen K, Ind. Crop. Prod., 101, 36 (2017)
Yan G, Feng Y, Wang H, Sun Y, Tang X, Hong W, Zeng X, Lin L, Commun. Mater., 41, 1 (2020)
Jiang YT, Li Z, Tang X, Sun Y, Zeng XH, Liu SJ, Lin L, Energy Fuels, 29(3), 1662 (2015)
Thant MM, Charmondusit K, Clean Technol. Environ., 12, 427 (2010)
