Korean Journal of Chemical Engineering, Vol.35, No.2, 394-408, 2018
Steam reforming of α-methylnaphthalene as a model compound of biomass tar over Ni-based catalyst for hydrogen-rich gas
Tar is a barrier to limit the development of biomass gasification. Catalytic steam reforming experiments using α-methylnaphthalene (MNP) as a model tar compound were carried out in the two-stage reactor system (TSR). Based on response surface methodology, the effects of TSR temperatures and the molar ratio of steam to carbon (S/C) on MNP reforming performances were analyzed using the Li-modified Ni-based catalyst (NBC). The results show that the proper introduction of H2 is able to improve significantly the MNP conversion, specially at lower temperatures. Furthermore, it is more appropriate for the modified catalysts by Li and Mg to be loaded in the first reactor due to their significant promotion to hydrocracking reactions, and it is favorable to place the Ni/Al catalyst in the second reactor for H2-rich gas. Additionally, the carbon deposition resistance of the NBC modified by Li exhibits better than that of the NBC modified by Mg.
[References]
Guan GQ, Kaewpanha M, Hao XG, Abudula A, Renew. Sust. Energ. Rev. , 58 , 450, 2016
Josuinkas FM, Quitete CPB, Ribeiro NFP, Souza MMVM, Fuel Process. Technol. , 121 , 76, 2014
Balat H, Kirtay E, Int. J. Hydrog. Energy , 35 (14), 7416, 2010
Nipattummakul N, Ahmed II, Kerdsuwan S, Gupta AK, Int. J. Hydrog. Energy , 35 (21), 11738, 2010
Franco C, Pinto F, Gulyurtlu I, Cabrita I, Fuel , 82 (7), 835, 2003
Devi L, Ptasinski KJ, Janssen FJJG, Biomass Bioenerg. , 24 (2), 125, 2003
Swierczynski D, Courson C, Kiennemann A, Chem. Eng. Process. , 47 (3), 508, 2008
Polychronopoulou K, Giannakopoulos K, Efstathiou AM, Appl. Catal. B: Environ. , 111 , 360, 2012
Ozaki J, Takei M, Takakusagi K, Takahashi N, Fuel Process. Technol. , 102 , 30, 2012
Zhang YL, Luo YH, Wu WG, Zhao SH, Long YF, Energy Fuels , 28 (5), 3129, 2014
Ashok J, Kawi S, Acs Catal. , 4 , 289, 2014
Wang TJ, Chang J, Wu CZ, Fu Y, Chen Y, Biomass Bioenerg. , 28 (5), 508, 2005
Furusawa T, Tsutsumi A, Appl. Catal. A: Gen. , 278 (2), 195, 2005
Devi L, Ptasinski KJ, Janssen FJJG, Fuel Process. Technol. , 86 (6), 707, 2005
Michel R, Lamacz A, Krzton A, Djega-Mariadassou G, Burg P, Courson C, Gruber R, Fuel , 109 , 653, 2013
Zhang RQ, Wang YC, Brown RC, Energy Conv. Manag. , 48 (1), 68, 2007
Li D, Nakagawa Y, Tomishige K, Chinese J. Catal. , 33 , 583, 2012
Miyazawa T, Kimura T, Nishikawa J, Kado S, Kunimori K, Tomishige K, Catal. Today , 115 (1-4), 254, 2006
Dieuzeide ML, Laborde M, Amadeo N, Cannilla C, Bonura G, Frusteri F, Int. J. Hydrog. Energy , 41 (1), 157, 2016
Yang J, Wang XG, Li L, Shen K, Lu XG, Ding WZ, Appl. Catal. B: Environ. , 96 (1-2), 232, 2010
Qi CX, Amphlett JC, Peppley BA, J. Power Sources , 171 (2), 842, 2007
Kuchonthara P, Puttasawat B, Piumsomboon P, Mekasut L, Vitidsant T, Korean J. Chem. Eng. , 29 (11), 1525, 2012
Osaki T, Mori T, J. Catal. , 204 (1), 89, 2001
Kong LH, Yue BH, Wang XG, Yu F, Zhen Q, Lu XQ, Ding WZ, Chinese J. Process. Eng. , 9 (2), 403, 2009
Nguyen XH, Bae W, Gunadi T, Park Y, J. Pet. Sci. Eng. , 117 , 37, 2014
Fermoso J, Gil MV, Arias B, Plaza MG, Pevida C, Pis JJ, Rubiera F, Int. J. Hydrog. Energy , 35 (3), 1191, 2010
Deraz NM, Salim HH, El-Aal AA, Mate. Lett. , 53 , 102, 2002
Li GH, Hu LJ, Hill JM, Appl. Catal. A: Gen. , 301 (1), 16, 2006
Juan-Juan J, Roman-Martinez MC, Illan-Gomez MJ, Appl. Catal. A: Gen. , 301 (1), 9, 2006
Dewaele O, Froment GF, J. Catal. , 184 (2), 499, 1999
Pinilla JL, Arcelus-Arrillaga P, Puron H, Millan M, Fuel , 109 , 303, 2013
Lv X, Xiao J, Du YZ, Shen LH, Zhou YY, Int. J. Hydrog. Energy , 39 (36), 20968, 2014
Parthasarathy P, Narayanan KS, Renew. Energy , 66 , 570, 2014
Shen Y, Yoshikawa K, Renew. Sust. Energ. Rev. , 21 , 371, 2013
Oh G, Park SY, Seo MW, Kim YK, Ra HW, Lee JG, Yoon SJ, Renew. Energy , 86 , 841, 2016
Chen L, Hao ZD, Yang TZ, Liu WF, Zhang DC, Int. J. Hydrog. Energy , 39 (28), 15474, 2014
Guczi L, Stefler G, Geszti O, Sajo I, Paszti Z, Tompos A, Schay Z, Appl. Catal. A: Gen. , 375 (2), 236, 2010
Verykios XE, Int. J. Hydrog. Energy , 28 (10), 1045, 2003
Wang CZ, Sun NN, Zhao N, Wei W, Sun YH, Sun CG, Liu H, Snape CE, Fuel , 143 , 527, 2015
[Cited By]
Gao Y, Xiao J, Ye J, Huo X, Shen Y, Korean Journal of Chemical Engineering , 37 (1), 54, 2020
Zhang K, Ouassil N, Campo CAO, Rim G, Kim WJ, Park AHA, Journal of Industrial and Engineering Chemistry , 85 , 219, 2020
Kostyniuk A, Bajec D, Likozar B, Journal of Industrial and Engineering Chemistry , 96 , 130, 2021
Kostyniuk A, Bajec D, Prasnikar A, Likozar B, Journal of Industrial and Engineering Chemistry , 101 , 293, 2021
이전 논문 다음 논문
Result Search