Production of elemental sulfur and ammonium thiosulfate by the oxidation of H2S containing water vapor and ammonia over V/Zr-PILC catalysts

Kanattukara Vijayan Bineesh; Moon-il Kim; Goo-Hwa Lee; Manickam Selvaraj; Kyu Hyun; Dae-Won Park

Journal of Industrial and Engineering Chemistry, Vol.18, No.5, 1845-1850, September, 2012

DOI10.1016/j.jiec.2012.04.014 Export Citation

Production of elemental sulfur and ammonium thiosulfate by the oxidation of H2S containing water vapor and ammonia over V/Zr-PILC catalysts

Kanattukara Vijayan Bineesh, Moon-il Kim, Goo-Hwa Lee, Manickam Selvaraj, Kyu Hyun, and Dae-Won Park^†

School of Chemical and Biomolecular Engineering, Pusan National University, Busan 609-735, Republic of Korea

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The catalytic oxidation of hydrogen sulfide in the presence of water and ammonia was studied over V2O5 supported on Zr-pillared clay catalysts (V/Zr-PILCs). The synthesized catalysts were examined using a variety of characterization techniques. A catalytic performance study using V/Zr-PILC catalysts showed that H2S was successfully converted to elemental sulfur and ammonium thiosulfate (ATS) without considerable emission of sulfur dioxide. The H2S conversion over V/Zr-PILCs increased with increasing the content of vanadia up to 6 wt.%. This superior catalytic performance might be related to the uniform dispersion of vanadia species on the Zr-PILC support.

Keywords:Selective catalytic oxidation;Hydrogen sulfide;Sulfur;Pillared clay;Vanadia

[References]

Lagas JA, Borsboom J, Berben PH, Oil & Gas Journal., 10, 68 (68)
Naber JE, Wesselingh JA, Chemical Engineering Progress., 69(12), 29 (1973)
Goar BG, Oil & Gas Journal., 34, 96 (1975)
van Nisselrooy PFMT, Lagas JA, Catalysis Today., 16, 263 (1993)
Kettner R, Liermann N, Oil & Gas Journal., 11, 63 (1982)
Kettner R, Lubcke T, Liermann N, Eur. Patent 0078690 (1983)
Pieplu A, Saur O, Lavalley JC, Legendre O, Nedez C, Catal. Rev.-Sci. Eng., 40(4), 409 (1998)
Park DW, Park BK, Park DK, Woo HC, Appl. Catal. A: Gen., 223(1-2), 215 (2002)
Kim MI, Park DW, Park SW, Yang X, Choi JS, Suh DJ, Catal. Today, 111(3-4), 212 (2006)
Bineesh KV, Kim DK, Kim MI, Park DW, Applied Clay Science., 53, 204 (2011)
Park DW, Kim BG, Kim MI, Kim I, Woo HC, Catal. Today, 93-95, 235 (2004)
Cho DR, Kim SY, Park DW, Mutin PH, Korean J. Chem. Eng., 26(2), 377 (2009)
Wieckowska J, Catal. Today, 24(4), 405 (1995)
White ZS, Johnson D, Chemical Engineering Progress., 76(10), 76 (1980)
Gil A, Gandia LM, Vicente MA, Catal. Rev.-Sci. Eng., 42(1-2), 145 (2000)
Bineesh KV, Kim SY, Jermy BR, Park DW, J. Ind. Eng. Chem., 15(2), 207 (2009)
Kloprogge JT, Journal of Porous Materials., 5, 5 (1998)
Bineesh KV, Kim DK, Kim MI, Selvaraj M, Park DW, Dalton Transactions., 40, 3938 (2011)
Valverde JL, de Lucas A, Sanchez P, Dorado E, Romero A, Appl. Catal. B: Environ., 43(1), 43 (2003)
Trombetta M, Busca G, Lenarda M, Storaro L, Ganzerla R, Piovesan L, Lopez AJ, Alcantara-Rodriguez M, Rodriguez-Castellon E, Appl. Catal. A: Gen., 193(1-2), 55 (2000)
Pinnavaia TJ, Tzou MS, Landau SD, Raythatha RJ, Journal of Molecular Catalysis., 27, 195 (1984)
Long RQ, Yang RT, J. Catal., 196(1), 73 (2000)
Sadykov VA, Kuznetsova TG, Doronin VP, Moroz EM, Ziuzin DA, Kochubei DI et al., Topics in Catalysis., 32, 29 (2005)
Mishra BG, Ganga Rao G, Journal of Porous Materials., 10, 93 (2003)
Ramosgalvan CE, Sandovalrobles G, Castillomares A, Dominguez JM, Appl. Catal. A: Gen., 150(1), 37 (1997)
Colin JA, de los Reyes JA, Vazquez A, Montoya A, Appl. Surf. Sci., 240(1-4), 48 (2005)
Gandia LM, Vicente MA, Gil A, Appl. Catal. B: Environ., 38(4), 295 (2002)
Chmielarz L, Kustrowski P, Zbroja M, Lasocha W, Dziembaj R, Catal. Today, 90(1-2), 43 (2004)
Gongshin QS, Yang RT, Thompson LT, Appl. Catal. A: Gen., 259(2), 261 (2004)
Bahranowski K, Grabowski R, Grzybowska B, Kielski A, Serwicka EM, Wcislo K, Wisla-Walsh E, Wodnicka K, Topics in Catalysis., 11/12, 255 (2000)
Nguyen-Thanh D, Bandosz TJ, J. Phys. Chem. B, 107(24), 5812 (2003)
Li KT, Chien TY, Catal. Lett., 57(1-2), 77 (1999)
Yasyerli S, Dogu G, Dogu T, Catal. Today, 117(1-3), 271 (2006)
Lee EK, Jung KD, Joo OS, Shul YG, Appl. Catal. A: Gen., 284(1-2), 1 (2005)
Keller N, Pham-Huu C, Ledoux MJ, Appl. Catal. A: Gen., 217(1-2), 205 (2001)
Mashapa TN, Rademan JD, van Vuuren MJJ, Ind. Eng. Chem. Res., 46(19), 6338 (2007)
Shinkarev VV, Glushenkov AM, Kuvshinov DG, Kuvshinov GG, Appl. Catal. B: Environ., 85(3-4), 180 (2009)
Soriano MD, Jimenez-Jimenez J, Concepcion P, Jimenez-Lopez A, Rodriguez-Castellon E, Nieto JML, Appl. Catal. B: Environ., 92(3-4), 271 (2009)
Long D, Chen Q, Qiao W, Zhan L, Liang X, Ling L, Chemical Communications., 3898 (2009)
Bineesh KV, Kim DK, Kim DW, Cho HJ, Park DW, Energy Environmental Science., 3, 302 (2010)
Maes N, Heylen I, Cool P, Vansant EF, Applied Clay Science., 12, 43 (1997)
Burch R, Warburton CI, Journal of Catalysis., 97, 503 (1986)
Moreno S, Kou RS, Molina R, Poncelet G, J. Catal., 182(1), 174 (1999)
Pereira PR, Pires J, de Carvalho MB, Langmuir, 14(16), 4584 (1998)
Ohtsuka K, Hayashi Y, Suda M, Chemistry of Materials., 5, 1823 (1993)
Chae HJ, Nam IS, Ham SW, Hong SB, Catal. Today, 68(1-3), 31 (2001)
Cheng LS, Yang RT, Microporous Materials., 8, 177 (1997)
Arfaoui J, Boudali LK, Ghorbel A, Catalysis and Communications., 7, 86 (2006)
Bineesh KV, Kim SY, Jermy BR, Park DW, J. Mol. Catal. A-Chem., 308(1-2), 150 (2009)
Chae HJ, Nam IS, Ham SW, Hong SB, Appl. Catal. B: Environ., 53(2), 117 (2004)
Bineesh KV, Kim DK, Cho HJ, Park DW, J. Ind. Eng. Chem., 16(4), 593 (2010)
Bineesh KV, Kim MI, Park MS, Lee KY, Park DW, Catalysis Today, http://dx.doi.org/10.1016/j.cattod.2011.03.033. (2011)
Leon M, Jimenez Jimenez J, Jimenez Lopez A, Rodriguez Castellon E, Soriano D, Lopez Nieto JM, Solid State Science., 12, 996 (2010)
Yasyerli S, Dogu G, Ar I, Dogu T, Chem. Eng. Sci., 59(19), 4001 (2004)
Pieck CL, Banares MA, Fierro JLG, J. Catal., 224(1), 1 (2004)
Shin MY, Park DW, Chung JS, Catal. Today, 63(2-4), 405 (2000)
Park BK, Dissertation MS, Pusan National University, Korea (2000)
Hartley EM, Matterson MJ, Industrial & Engineering Chemistry Fundamentals., 14, 67 (1975)
Zey A, White S, Johnson D, Chemical Engineering Progress., 76, 76 (1980)
Henke KH, Weiner G, Ger Offen. 2,635,649 (1978)

[Referenced By]

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[1] Lagas JA, Borsboom J, Berben PH, Oil & Gas Journal., 10, 68 (68)

[2] Naber JE, Wesselingh JA, Chemical Engineering Progress., 69(12), 29 (1973)

[3] Goar BG, Oil & Gas Journal., 34, 96 (1975)

[4] van Nisselrooy PFMT, Lagas JA, Catalysis Today., 16, 263 (1993)

[5] Kettner R, Liermann N, Oil & Gas Journal., 11, 63 (1982)

[6] Kettner R, Lubcke T, Liermann N, Eur. Patent 0078690 (1983)

[7] Pieplu A, Saur O, Lavalley JC, Legendre O, Nedez C, Catal. Rev.-Sci. Eng., 40(4), 409 (1998)

[8] Park DW, Park BK, Park DK, Woo HC, Appl. Catal. A: Gen., 223(1-2), 215 (2002)

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[10] Bineesh KV, Kim DK, Kim MI, Park DW, Applied Clay Science., 53, 204 (2011)

[11] Park DW, Kim BG, Kim MI, Kim I, Woo HC, Catal. Today, 93-95, 235 (2004)

[12] Cho DR, Kim SY, Park DW, Mutin PH, Korean J. Chem. Eng., 26(2), 377 (2009)

[13] Wieckowska J, Catal. Today, 24(4), 405 (1995)

[14] White ZS, Johnson D, Chemical Engineering Progress., 76(10), 76 (1980)

[15] Gil A, Gandia LM, Vicente MA, Catal. Rev.-Sci. Eng., 42(1-2), 145 (2000)

[16] Bineesh KV, Kim SY, Jermy BR, Park DW, J. Ind. Eng. Chem., 15(2), 207 (2009)

[17] Kloprogge JT, Journal of Porous Materials., 5, 5 (1998)

[18] Bineesh KV, Kim DK, Kim MI, Selvaraj M, Park DW, Dalton Transactions., 40, 3938 (2011)

[19] Valverde JL, de Lucas A, Sanchez P, Dorado E, Romero A, Appl. Catal. B: Environ., 43(1), 43 (2003)

[20] Trombetta M, Busca G, Lenarda M, Storaro L, Ganzerla R, Piovesan L, Lopez AJ, Alcantara-Rodriguez M, Rodriguez-Castellon E, Appl. Catal. A: Gen., 193(1-2), 55 (2000)

[21] Pinnavaia TJ, Tzou MS, Landau SD, Raythatha RJ, Journal of Molecular Catalysis., 27, 195 (1984)

[22] Long RQ, Yang RT, J. Catal., 196(1), 73 (2000)

[23] Sadykov VA, Kuznetsova TG, Doronin VP, Moroz EM, Ziuzin DA, Kochubei DI et al., Topics in Catalysis., 32, 29 (2005)

[24] Mishra BG, Ganga Rao G, Journal of Porous Materials., 10, 93 (2003)

[25] Ramosgalvan CE, Sandovalrobles G, Castillomares A, Dominguez JM, Appl. Catal. A: Gen., 150(1), 37 (1997)

[26] Colin JA, de los Reyes JA, Vazquez A, Montoya A, Appl. Surf. Sci., 240(1-4), 48 (2005)

[27] Gandia LM, Vicente MA, Gil A, Appl. Catal. B: Environ., 38(4), 295 (2002)

[28] Chmielarz L, Kustrowski P, Zbroja M, Lasocha W, Dziembaj R, Catal. Today, 90(1-2), 43 (2004)

[29] Gongshin QS, Yang RT, Thompson LT, Appl. Catal. A: Gen., 259(2), 261 (2004)

[30] Bahranowski K, Grabowski R, Grzybowska B, Kielski A, Serwicka EM, Wcislo K, Wisla-Walsh E, Wodnicka K, Topics in Catalysis., 11/12, 255 (2000)

[31] Nguyen-Thanh D, Bandosz TJ, J. Phys. Chem. B, 107(24), 5812 (2003)

[32] Li KT, Chien TY, Catal. Lett., 57(1-2), 77 (1999)

[33] Yasyerli S, Dogu G, Dogu T, Catal. Today, 117(1-3), 271 (2006)

[34] Lee EK, Jung KD, Joo OS, Shul YG, Appl. Catal. A: Gen., 284(1-2), 1 (2005)

[35] Keller N, Pham-Huu C, Ledoux MJ, Appl. Catal. A: Gen., 217(1-2), 205 (2001)

[36] Mashapa TN, Rademan JD, van Vuuren MJJ, Ind. Eng. Chem. Res., 46(19), 6338 (2007)

[37] Shinkarev VV, Glushenkov AM, Kuvshinov DG, Kuvshinov GG, Appl. Catal. B: Environ., 85(3-4), 180 (2009)

[38] Soriano MD, Jimenez-Jimenez J, Concepcion P, Jimenez-Lopez A, Rodriguez-Castellon E, Nieto JML, Appl. Catal. B: Environ., 92(3-4), 271 (2009)

[39] Long D, Chen Q, Qiao W, Zhan L, Liang X, Ling L, Chemical Communications., 3898 (2009)

[40] Bineesh KV, Kim DK, Kim DW, Cho HJ, Park DW, Energy Environmental Science., 3, 302 (2010)

[41] Maes N, Heylen I, Cool P, Vansant EF, Applied Clay Science., 12, 43 (1997)

[42] Burch R, Warburton CI, Journal of Catalysis., 97, 503 (1986)

[43] Moreno S, Kou RS, Molina R, Poncelet G, J. Catal., 182(1), 174 (1999)

[44] Pereira PR, Pires J, de Carvalho MB, Langmuir, 14(16), 4584 (1998)

[45] Ohtsuka K, Hayashi Y, Suda M, Chemistry of Materials., 5, 1823 (1993)

[46] Chae HJ, Nam IS, Ham SW, Hong SB, Catal. Today, 68(1-3), 31 (2001)

[47] Cheng LS, Yang RT, Microporous Materials., 8, 177 (1997)

[48] Arfaoui J, Boudali LK, Ghorbel A, Catalysis and Communications., 7, 86 (2006)

[49] Bineesh KV, Kim SY, Jermy BR, Park DW, J. Mol. Catal. A-Chem., 308(1-2), 150 (2009)

[50] Chae HJ, Nam IS, Ham SW, Hong SB, Appl. Catal. B: Environ., 53(2), 117 (2004)

[51] Bineesh KV, Kim DK, Cho HJ, Park DW, J. Ind. Eng. Chem., 16(4), 593 (2010)

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[53] Leon M, Jimenez Jimenez J, Jimenez Lopez A, Rodriguez Castellon E, Soriano D, Lopez Nieto JM, Solid State Science., 12, 996 (2010)

[54] Yasyerli S, Dogu G, Ar I, Dogu T, Chem. Eng. Sci., 59(19), 4001 (2004)

[55] Pieck CL, Banares MA, Fierro JLG, J. Catal., 224(1), 1 (2004)

[56] Shin MY, Park DW, Chung JS, Catal. Today, 63(2-4), 405 (2000)

[57] Park BK, Dissertation MS, Pusan National University, Korea (2000)

[58] Hartley EM, Matterson MJ, Industrial & Engineering Chemistry Fundamentals., 14, 67 (1975)

[59] Zey A, White S, Johnson D, Chemical Engineering Progress., 76, 76 (1980)

[60] Henke KH, Weiner G, Ger Offen. 2,635,649 (1978)