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Received June 13, 2017
Accepted November 5, 2017
- 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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Process optimization for selective hydrogenation of α-pinene over Ni/AlPO4
Faculty of Chemical Engineering, Kunming University of Science and Technology, Kunming 650500, P. R. China
Korean Journal of Chemical Engineering, February 2018, 35(2), 409-420(12), 10.1007/s11814-017-0307-7
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Abstract
A new supported Ni/AlPO4 catalyst was synthesized and studied for the selective hydrogenation of α- pinene to prepare cis-pinane. The support was flaky morphology with orthorhombic phase and Ni was well dispersed. The surface area of the catalyst was 37.62m2·g -1 with a pore size of 2.83 nm. For the hydrogenation reaction, the performance of the catalyst was positively correlated with the surface area of support and loading content of Ni. Effects of hydrogenation condition were determined and the process was optimized by response surface methodology. The result suggested that the conversion was positively correlated to hydrogenation temperature, duration and catalyst dosage, while the selectivity showed a negative correlation to temperature and catalyst dosage. After optimization, 95.1% of selectivity was obtained under 94.8% of conversion at 405 K, 81 min and 2.28 wt% of catalyst.
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References
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Hou S, Xie C, Yu F, Yuan B, Yu S, RSC Adv., 6, 54806 (2016)
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Simakova IL, Solkina Y, Deliy I, Warna J, Murzin DY, Appl. Catal. A: Gen., 356(2), 216 (2009)
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Canova LA, US Patent, 4,018,842 (1977).
Ko SH, Chou TC, Ind. Eng. Chem. Res., 32, 1579 (1993)
Ko SH, Chou TC, Yang TJ, Ind. Eng. Chem. Res., 34(2), 457 (1995)
Zhang JH, Jiang LH, Wu SS, Wang HQ, Wang YM, CIESC J., 67, 2363 (2016)
Ren SB, Qiu JH, Wang CY, Xu BL, Fan YN, Chen Y, Chin. J. Inorg. Chem., 23, 1021 (2007)
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Chakrabortty D, Ganguli J, Satyanarayana C, Microporous Mesoporous Mater., 137, 65 (2011)
Dai WL, Kong WB, Wu GJ, Li N, Li LD, Guan NJ, Catal. Commun., 12, 535 (2011)
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Bhattacharjee S, Lee YR, Ahn WS, Korean J. Chem. Eng., 34(3), 701 (2017)
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Delgado JA, Agueda VI, Uguina MA, Sotelo JL, Fernandez P, Adsorption, 19, 407 (2013)
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Tang K, Yu J, Zhao Y, Liu Y, Wang X, Xu R, J. Mater. Chem., 16, 1741 (2006)
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Golubina EV, Lokteva ES, Erokhin AV, Veligzhanin AA, Zubavichus YV, Likholobov VA, Lunin VV, J. Catal., 344, 90 (2016)
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Khalfaoui M, Knani S, Hachicha MA, Ben Lamine A, J. Colloid Interface Sci., 263(2), 350 (2003)
Liu YQ, Gao L, J. Am. Ceram. Soc., 86(10), 1651 (2003)
Wright SF, Dollimore D, Dunn JG, Alexander K, Thermochim. Acta, 421(1-2), 25 (2004)
Zhang Y, Chu W, Cao WM, Luo CR, Wen XG, Zhou KL, Plasma Chem. Plasma Process., 20(1), 137 (2000)
Hoffer BW, van Langeveld AD, Janssens JP, Bonne RLC, Lok CM, Moulijn JA, J. Catal., 192(2), 432 (2000)
Salminen E, Maki-Arvela P, Virtanen P, Salmi T, Mikkola JP, Top. Catal., 57, 1533 (2014)
Singh AK, Mukhopadhyay M, Korean J. Chem. Eng., 33(4), 1247 (2016)
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Cao J, Wu Y, Jin Y, Yilihan P, Huang W, J. Taiwan. Inst. Chem. Eng., 45, 860 (2014)
Ahmed OU, Mjalli FS, Al-Wahaibi T, Al-Wahaibi Y, AlNashef IM, Ind. Eng. Chem. Res., 54(25), 6540 (2015)
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Smidt M, Kusic H, Juretic D, Stankov MN, Ukic S, Bolanca T, Rogosic M, Bozic AL, Ind. Eng. Chem. Res., 54(20), 5427 (2015)