Synthesis of copper-nickel/SBA-15 from rice husk ash catalyst for dimethyl carbonate production from methanol and carbon dioxide

Siraprapa Pimprom; Khemmachat Sriboonkham; Peerapan Dittanet; Karin Fottinger; Gunther Rupprechter; Paisan Kongkachuichay

Journal of Industrial and Engineering Chemistry, Vol.31, 156-166, November, 2015

DOI10.1016/j.jiec.2015.06.019 Export Citation

Synthesis of copper-nickel/SBA-15 from rice husk ash catalyst for dimethyl carbonate production from methanol and carbon dioxide

Siraprapa Pimprom¹, Khemmachat Sriboonkham¹, Peerapan Dittanet¹, Karin Fottinger², Gunther Rupprechter², and Paisan Kongkachuichay^{1, 3, †}

¹Department of Chemical Engineering, Faculty of Engineering, Kasetsart University, Bangkok 10900, Thailand
²Institute of Materials Chemistry/Physical Chemistry Division, Vienna University of Technology, Getreidemarkt 9, A-1060 Vienna, Austria
³Center for Advanced Studies in Nanotechnology and Its Applications in Chemical, Food and Agricultural Industries, Kasetsart University, Bangkok 10900, Thailand

E-mail:

The SBA-15 was synthesized via sol.gel process by using rice hush ash and tetraethyl orthosilicate as silica sources at a ratio of 50:50. Subsequently, Cu.Ni bimetals were loaded on the SBA-15 and were tested for the direct synthesis of dimethyl carbonate from CH3OH and CO2. FTIR showed that methanol reacted with pre-adsorbed carbon dioxide to form methoxy carbonate species that was the reaction intermediate. It was found that 0.5 g of catalyst with Cu and Ni bimetal loading of 5 wt% exhibited the highest activities. Moreover, the molybdenum modified catalyst showed greater beneficial effects on the stabilization of the catalyst.

Keywords:Dimethyl carbonate;Methanol;Carbon dioxide;Mesoporous silica;SBA-15

[References]

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[2] Lopez-Garzon CS, van der Wielen LAM, Straathof AJJ, Chem. Eng. J., 235, 52 (2014)

[3] Razali NAM, Lee KT, Bhatia S, Mohamed AR, Renew. Sust. Energ. Rev., 16, 4951 (2012)

[4] Guo XC, Qin ZF, Wang GF, Wang JG, Chin. Chem. Lett., 19, 249 (2008)

[5] Memoli S, Selva M, Tundo P, Chemosphere, 43, 115 (2001)

[6] Aresta M, Dibenedetto A, Pastore C, Angelini A, Aresta B, Papai I, J. Catal., 269(1), 44 (2010)

[7] Yang L, Qi YT, Yuan XD, Shen H, Kim J, J. Mol. Catal. A-Chem., 229(1-2), 199 (2005)

[8] Du M, Li Q, Dong W, Geng T, Jiang Y, Res. Chem. Intermed., 38, 1069 (2012)

[9] Aymes D, Ballivet-Tkatchenko D, Jeyalakshmi K, Saviot L, Vasireddy S, Catal. Today, 147(2), 62 (2009)

[10] Zhou Y, Wang S, Xiao M, Han D, Lu Y, Meng Y, RSC Adv., 2, 6831 (2012)

[11] Wu XL, Meng YZ, Xiao M, Lu YX, J. Mol. Catal. A-Chem., 249(1-2), 93 (2006)

[12] Bian J, Xiao M, Wang SJ, Lu YX, Meng YZ, Catal. Commun., 10, 1529 (2009)

[13] Wang XJ, Xiao M, Wang SJ, Lu YX, Meng YZ, J. Mol. Catal. A-Chem., 278(1-2), 92 (2007)

[14] Bian J, Xiao M, Wang SJ, Wang XJ, Lu YX, Meng YZ, Chem. Eng. J., 147(2-3), 287 (2009)

[15] Bian J, Xiao M, Wang SJ, Lu YX, Meng YZ, Appl. Surf. Sci., 255(16), 7188 (2009)

[16] Cai Q, Lu B, Guo L, Shan Y, Catal. Commun., 10, 605 (2009)

[17] Bian J, Wei XW, Jin YR, Wang L, Luan DC, Guan ZP, Chem. Eng. J., 165(2), 686 (2010)

[18] Santos BAV, Pereira CSM, Silva VMTM, Loureiro JM, Rodrigues AE, Appl. Catal. A: Gen., 455, 219 (2013)

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[30] Shen Y, Zhao P, Shao Q, Microporous Mesoporous Mater., 188, 46 (2014)

[31] Cheng Y, Lu M, Li JS, Su XY, Pan SL, Jiao C, Peng MH, J. Colloid Interface Sci., 369, 388 (2012)

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[47] Gaur A, Shrivastava BD, Khalid S, J. Phys. Conf. Ser., 430, 012045 (2013)

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