Paper Titles

Development of a Temperature and Pressure-Controlled Corrosion Test Vessel
p.1147

Hydroxyapatite-Poly(Vinyl Alcohol)-Sodium Alginate Porous Hydrogels with Poly(Vinyl Alcohol) Surface Layer Used for Articular Cartilage Repair
p.1155

Preparation of Slow-Release Potash
p.1162

Research on Mechanical and Corrosion Properties of Ti-Microalloyed Biomedical Cobalt-Based Alloy
p.1168

Progress in Fractionation Processes of Lignocellulosic Biomass for Biorefinery: A Review
p.1175

Photoinduced Microencapsulation of Microcapsules Containing n-Octadecane with P(APUA) and P(AMA) Shell
p.1182

PGA Fiber Reinforced Calcium Aluminate Cement for Orthopaedic Application
p.1188

Research Progress in Cellulose Extraction, Modification and Application
p.1194

Analysis of Solvent Properties of Mandarin Oil
p.1201

HomeMaterials Science ForumMaterials Science Forum Vol. 852Progress in Fractionation Processes of...

Progress in Fractionation Processes of Lignocellulosic Biomass for Biorefinery: A Review

Article Preview

Abstract:

Due to the awareness of fossil fuel depletion and global warming, biorefinery for production of biofuels and valuable platform chemicals from lignocellulosic biomass has attracted growing interest in the past decades. With the rising concept of comprehensive utilization of lignocellulosic biomass,fractionation processes are generally necessary prior to its subsequent conversion with aims to produce purified cellulose with specific recovery of hemicellulose and lignin. In this review, ionic liquids fractionation,steam explosion based fractionation,twin-screw extrusion and organosolv fractionation are described and their features and comparative performances are discussed.

You might also be interested in these eBooks

Functional Materials Research

Info:

Periodical:

Materials Science Forum (Volume 852)

Pages:

1175-1181

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.852.1175

Citation:

Cite this paper

Online since:

April 2016

Authors:

Lu Xia Jiang, Sheng Fang, Jian Wei Mao, Jin Hai Xie

Keywords:

Biorefinery, Fractionation, Lignocellulosic Biomass

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2016 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] V.B. Agbor, N. Cicelc, R. Spading, A. Berlin and D.B. Levin: Biotechnology Advances, Vol. 29 (2011), p.675.

[2] Y.H.P. Zhang, S.Y. Ding, J.R. Mielenz, J.B. Cui, R.T. Slander and M. Laser: Biotechnol Bioeng, Vol. 97 (2007) No. 2, p.214.

[3] C.E. Wyman, B.E. Dale, R.T. Elander, M. Holtzapple, M.R. Ladisch and Y.Y. Lee: Bioresource Technology, Vol. 96 (2005), p. (1959).

DOI: 10.1016/j.biortech.2005.01.010

[4] S.G. Wettstein, D. M. Alonso, E. I. Gürbüz and J. A. Dumesic: Current Opinion in Chemical Engineering, Vol. 1 (2012), p.218.

[5] L. Brinchi, F. Cotana, E. Fortunati and J.M. Kenny: Carbohydrate Polymers, Vol. 94 (2013), p.154.

DOI: 10.1016/j.carbpol.2013.01.033

[6] S.H. Mood, A.H. Golfeshan, M. Tabatabaei, G.S. Jouzani, G.H. Najafi, M. Gholamib and M. Ardjmanda: Renewable and Sustainable Energy Reviews, Vol. 27 (2013), p.77.

DOI: 10.1016/j.rser.2013.06.033

[7] A.T.W.M. Hendrilcs and G. Zeeman: Bioresource Technology Vol. 100 (2009), p.10.

[8] Y.X. An, M.H. Zong, H. Wu and N. Li: Bioresource Technology Vol. 792 (2015), p.765.

[9] J.P. Hallett and T. Welton: Chem. Rev, Vol. 111 (2011), p.3508.

[10] Z.L. W, S.M. Shang, L.W. Tang and C. Irbis: New Chemical Materials, Vol. 42 (2014) No. 4, p.30.

[11] R. P. Swatloski, S. K. Spear and J. D. Holbrey: J Am Chem Soc, Vol. 124 (2007) No. 18, p.4974.

[12] Y. Zheng, X.P. Xuan, A.R. Xu, M. Guo and J.J. Wang: Vol. 21(2009) No. 9, p.1807.

[13] J.R. Ren R.C. Sun, C.F. Liu, Z.N. Cao and W. Luo: Carbohydrate Polymers, Vol. 70 (2007) No. 4, p.406.

[14] K. Shill, S. Padmanabhan, Q. Xin and J.M. Prausnitz: Biotechnol Bioeng, Vol. 108 (2011), p.511.

[15] Y.Q. Pu, N. Jiang and A.J. Ragauskas: Journal of Wood Chemistry and Technology, Vol. 27 (2007) No. 1, p.23.

[16] X. Gao, R. Kumar, S. Singh, B.A. Simmons, V. Balan, B.E. Dale and C.E. Wyman: Biotechnol. Biofuels, Vol. 7 (2014)No. 1, p.71.

[17] A. Brandt, J. Gräsvik, J.P. Hallett and T. Welton: Green Chem, Vol. 15(2013), p.550.

[18] W. Lan: Dissolution and fractionation of lignocellulosic biomass in ionic liquids (MS., South China University of Technology, China 2012). (In Chinese).

[19] D. Yang: Fractionation of lignocellulose and synthesis of cellulose-based materials (MS., South China University of Technology, China 2014). (In Chinese).

[20] A.M. da Costa Lopes, K.G. João, E. Bogel-Lukasik, L.B. Roseiro and R. Bogel-Lukasik: J. Agric. Food Chem, Vol. (2013)No. 61, p.7874.

DOI: 10.1021/jf401980p

[21] P. Zhang, S.J. Dong, H. H, Ma, B.X. Zhang, Y.F. Wang and X.M. Hua: Industrial Crops and Products, Vol. 76 (2015), p.688.

[22] C.Z. Liu, F. Wang, A.R. Stiles and C. Guo: Applied Energy, Vol. 92 (2012), p.406.

[23] X.D. Hou, J. Xu, N. Li and M.H. Zong: Biotechnol Bioeng, Vol112（2015）, pp.65-73.

[24] E. Lorente, X. Farriol and J. Salvadó: Fuel Processing Technology, Vol. 131 (2015), p.93.

[25] K.L. Iroba, L.G. Tabil, S. Sokhansanj and T. Dumonceaux: Biomass and Bioenergy, Vol. 6（2014）, p.286.

DOI: 10.1016/j.biombioe.2014.02.002

[26] B. Toussaint, G. Excoffier and M.R. Vignon: Anim Feed Sci Technol Vol. 32 (1991), p.235.

[27] N. Mosier, C. Wyman, B. Dale, R. Slander, Y.Y. Lee and M. Holtzapple: Bioresour Technol, Vol. 96(2005), p.673.

[28] H.Z. Chen and L. Y. Liu: Bioresource Technology, Vol. 98 (2007), p.666.

[29] K. Wang: Research on Pretreatment, Component Fractionation an Enzymatic Hydrolysis of Lignocellulosic Materials (Ph. D, Beijing Forestry University, China 2011). (In Chinese).

[30] Li. Zhang: Research on the Components Separation Tehnology of Lignocellulose (MS. Changchun University, China 2014). (In Chinese).

[31] C. Asada, Y. Nakamura and F. Kobayashi: Biochemical Engineering Journal, Vol. 23 (2005), p.131.

[32] H.Z. Chen and F.B. Sun: P.R.C. Patent 200610113216. (2006). (In Chinese).

[33] Q.S. Yu: Study on Combined Pretreatment of Corn by Microwave and Steam Explosion (MS. Tianjin University, China 2010). (In Chinese).

[34] M.J. Negro, A. Duque, P. Manzanares, F. Sáez, J.M. Oliva, I. Ballesteros and M. Ballesteros: Industrial Crops and Products, Vol. 74 (2015), p.336.

DOI: 10.1016/j.indcrop.2015.05.018

[35] C.T. Scott, J.R. Samaniuk and D.J. Klingenberg：Tappi J, Vol (2011), p.47.

[36] D. Colasa, C. Doumeng, P.Y. Pontalier and L. Rigal: Chemical Engineering and Processing, Vol. 72 (2013), p.1.

[37] C. Karunanithy and K. Muthukumarappan: Bioenergy, Vol 5 (2011) No. 4, p.531.

[38] C.H. Choi and K.K. Oh: Bioresource Technology, Vol. 110 (2012), p.349.

[39] Information on http: /www. purevisiontechnology. com/biomass-fractionation. html.

[40] R.C. Wingerson: U.S. Patent 7, 600, 707 B2. (2009).

[41] K.L. Kadam, C.Y. Chin and L.W. Brown: J Ind Microbiol Biotechnol, Vol. 35 (2008), p.331.

[42] R. Zeitoun, P.Y. Pontalier, P. Marechal and L. Rigal: Bioresource Technology, Vol. 101 (2010), p.9348.

DOI: 10.1016/j.biortech.2010.07.022

[43] T. Villmow, B. Kretzschmar and P. Potschke: Compos. Sci. Technol., Vol. 70 (2010), p.20.

[44] C.H. Choi, B.H. Um and K.K. Oh: Bioresource Technology, Vol. 132 (2013), p.49.

[45] S.S. Ozer, H. Gevgilili and D.M. Kalyon: Bioresour Technol, Vol. 102 (2011) No. 19, p.9068.

[46] J.J. Villaverde, P. Ligero and A. Vega： Industrial Crops and Products, Vol. 77 (2015), p.275.

[47] X. Pan, C. Arato, N. Gilkes, D. Gregg, W. Mabee, K. Pye, Z. Xiao, X. Zhang and J. Saddler: Biotechnol. Bioeng, Vol. 90 (2005) No. 4, p.473.

DOI: 10.1002/bit.20453

[48] B. Koo, H. Kim, N. Park, S. Lee, H. Yeo and I. Choi: Biomass Bioenergy, Vol. 35 (2011) No. 5, p.1833.

[49] J.J. Bozell, S.K. Black, M. Myers, D. Cahill, W. P. Miller and S. Park: Biomass and bioenergy, Vol. 35 (2011), p.4197.

[50] J. Snelders, E. Dornez, B.B. Mlayah, W.J.J. Huijgen, P.J. de Wild, R.J.A. Gosselinlc, J. Gerritsma and C.M. Courtin: Bioresource Technology, Vol. 756 (2014), p.275.

DOI: 10.1016/j.biortech.2014.01.069

[51] K. Zhang, Z.J. Pei and D.H. Wang: Bioresource Technology, 2015, http: /dx. doi. org/10. 1016/j. biortech. 2015. 08. 102.

[52] Y. Sun and J. Cheng: Bioresour. Technol., Vol. 83 (2002) No. 1, p.1.

[53] G. Brudecki, I. Cybulslca and K. Rosentrater: Bioresource Technology, Vol. 131 (2013), p.101.

[54] S. Imman, J. Arnthong, V. Burapatana, V. Champreda and N. Laosiripojana：Renewable Energy, Vol. 83 (2015), p.663.

[55] R.L. Huang, R.X. Su, W. Qi, M.J. Zhang and Z.M. He: The Chinese Journal of Process Engineering, Vol. 8 (2008) No. 6, p.1103. (In Chinese).

[56] G. Yu, B. Li, C. Liu, Y.D. Zhang, H.S. Wang and X.D. Mu: Industrial Crops and Products, Vol. 50 (2013), p.750.

[57] J. Sun: Design, Simulation and Application of Composite Ceramic Tool Materials (MS., Shanghai Jiao Tong University, China 2009). (In Chinese).

[58] J.L. Espinoza-Acosta, P.L. Tomes-Chávez, E. Carvajal-Millán, B. Ramírez-Wong, L.A. Bello-Pérez and B. Montańo-Leyva: BioResources, Vol. 9 (2014) No. 2, p.3660.

DOI: 10.15376/biores.9.2.3660-3687