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- In relation to this article, we declare that there is no conflict of interest.
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Received July 8, 2014
Accepted February 16, 2015
- 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 unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Effect of combined slow pyrolysis and steam gasification of sugarcane bagasse on hydrogen generation
Fossil and Alternate Fuel Processing Laboratory, Department of Chemical Engineering, National Institute of Technology, Tiruchirappalli-620015, Tamil Nadu, India
sheeba@nitt.edu
Korean Journal of Chemical Engineering, November 2015, 32(11), 2236-2246(11), 10.1007/s11814-015-0038-6
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Abstract
The present work aims at improving the generation of H2 from sugarcane bagasse in steam gasification process by incorporating slow pyrolysis technique. As a bench scale study, slow pyrolysis of sugarcane bagasse is performed at various pyrolysis temperature (350, 400, 450, 500 and 550 oC) and feed particle size (90
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Yan F, Luo SY, Hu ZQ, Xiao B, Cheng G, Bioresour. Technol., 101(14), 5633 (2010)
Rapagna S, Jand N, Kiennemann A, Foscolo PU, Biomass Bioenerg., 19(3), 187 (2000)
Portofino S, Donatelli A, Iovane P, Innella C, Civita R, Martino M, Matera DA, Russo A, Cornacchia G, Galvagno S, Waste Manage., 33(3), 672 (2013)
Raj SM, Talluri S, Christopher LP, BioEnergy Res., 5(2), 515 (2012)
Su S, Li W, Bai ZQ, Xiang HW, Bai J, Int. J. Hydrog. Energy, 35(10), 4459 (2010)
Sun S, Zhao Y, Su F, Ling F, Korean J. Chem. Eng., 26(2), 528 (2009)
Cohce MK, Dincer I, Rosen MA, Int. J. Hydrog. Energy, 35(10), 4970 (2010)
Kuchonthara P, Puttasawat B, Piumsomboon P, Mekasut L, Vitidsant T, Korean J. Chem. Eng., 29(11), 1525 (2012)
Jeon MJ, Choi SJ, Yoo KS, Ryu C, Park SH, Lee JM, Jeon JK, Park YK, Kim S, Korean J. Chem. Eng., 28(2), 497 (2011)
Bundhoo ZMA, Mudhoo A, Mohee R, J. Environ. Sci. Sustain., 1(1), 1 (2013)
Balat M, Energy Sources Part A-Recovery Util. Environ. Eff., 33(7), 674 (2011)
Lu YJ, Guo LJ, Zhang XM, Ji CM, Int. J. Hydrog. Energy, 37(4), 3177 (2012)
Parthasarathy P, Sheeba KN, Int. J. Energy Res., 39(2), 147 (2015)
Wang S, High-efficiency Separation of Bio-oil, in Biomass now-Sustianable growth and use, Matovic MD, Ed. Intech Open-Access Publisher, 401 (2013).
Czernik S, Bridgwater AV, Energy Fuels, 18(12), 590 (2004)
Wang SR, Go YL, Liu Q, Yao Y, Guo ZG, Luo ZY, Cen KF, Fuel Process. Technol., 90(5), 738 (2009)
Wang SR, Li XB, Zhang F, Cai QJ, Wang YR, Luo ZY, Int. J. Hydrog. Energy, 38(36), 16038 (2013)
Kwak TH, Lee S, Park JW, Maken S, Yoo YD, Lee SH, Korean J. Chem. Eng., 23(6), 954 (2006)
Eren AP, Onal E, Uzun BB, Ozbay N, Ind. Crop. Prod., 26, 307 (2007)
Fushimi C, Wada T, Tsutsumi A, Biomass Bioenerg., 35(1), 179 (2010)
Ko MK, Lee WY, Kim SB, Lee KW, Chun HS, Korean J. Chem. Eng., 18(6), 961 (2001)
Chaiwong K, Kiatsiriroat T, Vorayos N, Thararax C, Maejo Int. J. Sci. Technol., 6(2), 186 (2012)
Fagernas L, Kuoppala E, Tiilikkala K, Oasmaa A, Energy Fuels, 26(2), 1275 (2012)
Umeki K, Son Y, Namioka T, Yoshikawa K, J. Environ. Eng.-ASCE, 4(1), 211 (2009)
Wei L, Xu S, Zhang L, Liu C, Zhu H, Liu S, Int. J. Hydrog. Energy, 32, 24 (2006)
Chaudhari ST, Dalai AK, Bakhshi NN, Energy Fuels, 17(4), 1062 (2003)
Chaudhari ST, Bej SK, Bakhshi NN, Dalai AK, Energy Fuels, 15(3), 736 (2001)
Lv S, Yu Q, Zhuang X, Yuan Z, Wang W, Wang Q, Qi W, Tan X, BioEnergy Res., 6, 1128 (2013)
Aradhey A, India Sugar Annual 2012, 2012. [Online]. Available:http://gain.fas.usda.gov/Recent GAIN Publications/Sugar Annual_New Delhi_India_4-19-2012.pdf.
Lingle SE, Thomson JL, BioEnergy Res., 5, 168 (2012)
De Souza AP, Grandis A, Leite DCC, Buckeridge MS, BioEnergy Res., 7, 24 (2014)
Energy statistics 2013, Central Statistics Office. National Statistical Organisation. Ministry of Statistics and Programme Implementation, 2013. [Online]. Available: http://mospi.nic.in/mospi_new/upload/Energy_Statistics_2013.pdf. [Accessed: 04-Aug-2013].
Lin LL, Yan R, Liu YQ, Jiang WJ, Bioresour. Technol., 101(21), 8217 (2010)
Bledzki AK, Mamun AA, Volk J, Compos. Pt. A-Appl. Sci. Manuf., 41(4), 480 (2010)
Carrier M, Hugo T, Gorgens J, Knoetze H, J. Anal. Appl. Pyrolysis, 90(1), 18 (2011)
ASTM D 1946-90. Standard practice for analysis of reformed gas by gas chromatography.
GC data sheet. Shimadzu Gas Chromatograph. Analysis of Inert Inorganic Gases (2010).
Packed Column GC Application Guide-Supelco Bulletion 890A.
Validation of Chromatographic Methods-Reviewer Guidance-Centre for drug evaluation and research (CDER) (1994).
Demirbas A, Fuel Process. Technol., 88(6), 591 (2007)
Weerachanchai P, Tangsathitkulchai C, Tangsathitkulchai M, Korean J. Chem. Eng., 28(12), 2262 (2011)
Acharya B, Dutta A, Basu P, Int. J. Hydrog. Energy, 35(4), 1582 (2010)
Franco C, Pinto F, Gulyurtlu I, Cabrita I, Fuel, 82(7), 835 (2003)
Inayat A, Ahmad MM, Yusup S, Ibrahim M, Mutalib A, Energies, 3, 1472 (2010)
Moghtaderi B, Fuel, 86(15), 2422 (2007)
Lv PM, Xiong ZH, Chang J, Wu CZ, Chen Y, Zhu JX, Bioresour. Technol., 95(1), 95 (2004)
Khor A, Ryu C, Yang Y, Sharifi VN, Swithenbank J, Clean Hydrogen Production via Novel Steam-Air Gasification of Biomass, in Proceedings of the 16th World Hydrogen Energy Conference(WHEC), 1 (2006).
Alauddin ZABZ, Lahijani P, Mohammadi M, Mohamed AR, Renew. Sust. Energ. Rev., 14(9), 2852 (2010)
Gao NB, Li AM, Quan C, Bioresour. Technol., 100(18), 4271 (2009)
Li JF, Yin YF, Zhang XM, Liu JJ, Yan R, Int. J. Hydrog. Energy, 34(22), 9108 (2009)
Nipattummakul N, Ahmed II, Kerdsuwan S, Gupta AK, Int. J. Hydrog. Energy, 35(21), 11738 (2010)
Ucar S, Karagoz S, J. Anal. Appl. Pyrolysis, 84(2), 151 (2009)
Yan F, Luo SY, Hu ZQ, Xiao B, Cheng G, Bioresour. Technol., 101(14), 5633 (2010)
Rapagna S, Jand N, Kiennemann A, Foscolo PU, Biomass Bioenerg., 19(3), 187 (2000)
Portofino S, Donatelli A, Iovane P, Innella C, Civita R, Martino M, Matera DA, Russo A, Cornacchia G, Galvagno S, Waste Manage., 33(3), 672 (2013)
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