Abstract
An analysis is performed for the literature data on catalysts used in industrial processes of the conversion of propylene to the most widely used oxygen-containing products: propylene oxide, acrylonitrile, acrolein, and n- and iso-butyraldehydes. The main trends and the prospects for their development are identified. Catalytic systems for promising processes of synthesizing the above products using less expensive propane or alternative oxidants are also considered, and the similarity between their characteristics and values suitable for embarking on their commercialization is determined.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
Subramanian, V., Global Markets for Catalysts: Focus on Catalyst Regeneration (CHM046C), Wellesley, MA: BCC Research, 2015.
Teske, V. and Carr, C., in Chemical Economics Handbook—Propylene, London: IHS Markit, 2015.
IHStmChemical World Analysis—Propylene, London: IHS Markit, 2015.
Olefins. Honeywell UOP Official Website. https://uop.honeywell.com/en/industry-solutions/petrochemicals/olefins. Cited July 5, 2020.
Le, B., Moore, B., and Wang, S., Acrylic Acid and Acrylates, NexantThinkingTM PERP 2014-3, 2014. http:// thinking.nexant.com/sites/default/files/report/field_ attachment_toc/201409/2014_3_TOC.pdf. Cited July 6, 2020.
Gazprom Neftekhim Salavat intends to launch the production of superabsorbents by a Chinese technology. RUPEC Information and Analytical Center Official Website. www.rupec.ru/news/38660/. Cited August 1, 2019.
Schmidt, F., Bernhard, M., Morell, H., and Pascaly, M., Chim. Oggi, 2014, vol. 32, no. 2, pp. 31–35.
Winnacker-Küchle: Chemische Technik, Dittmeyer, R., Keim, W., Kreysa, G., and Oberholz, A., Eds., Weinheim: Wiley-VCH, 2005.
US Patent 3 350 422, 1966.
US Patent 3 439 001, 1969.
US Patent 5 210 354, 1993.
US Patent 4 590 172, 1986.
Trent, D.L., in Kirk-Othmer Encyclopedia of Chemical Technology, New York: Wiley, 2001, pp. 1–26.
Ghanta, M., Fahey, D.R., Busch, D.H., and Subramaniam, B., ACS Sustainable Chem. Eng., 2013, vol. 1, p-. 268–277.
EEC Patent 345856, 1989.
Buijink, J.K.F., Van Vlaanderen, J.J.M., Crocker, M., and Niele, F.G.M., Catal. Today, 2004, vols. 93–95, pp. 199–204.
Karalin, E.A., Ksenofontov, D.V., and Kharlampidi, Kh.E., Katal.Prom-sti, 2007, vol. 3, pp. 18–22.
Tsuji, J., Yamamoto, J., Ishino, M., and Oku, N., Sumitomo Kagaku, 2006, no. 1, pp. 4–10. https:// www.sumitomo-chem.co.jp/english/rd/report/files/ docs/20060100_ely.pdf. Cited July 7, 2020.
Nijhuis, T.A., Makkee, M., Moulijn, J.A., and Weckhuysen, B.M., Ind. Eng. Chem. Res., 2006, vol. 45, no. 10, pp. 3447–3459.
WO Patent 0 156 693, 2001.
Petro Rabigh starts propylene oxide production. www.arabianindustry.com/oil-gas/news/2009/oct/4/ petro-rabigh-starts-propylene-oxide-production-3861000/. Cited August 1, 2019.
S-Oil Inaugurates RUC & ODC at Onsan. www.mrcplast.com/news-news_open-354967.html. Cited August 13, 2019.
Sumitomo Chemical licenses PO production technology for petrochemical project of Thailand’s largest petrochemical and refining company. Sumitomo Chemical Official Website. www.sumitomo-chem.co.jp/english/news/detail/20170831.html. Cited August 13, 2019.
Bellussi, G., Carati, A., Clerici, M.G., Maddinelli, G., and Millini, R., J. Catal., 1992, vol. 133, no. 1, pp. 220–230.
Millini, R., Previde Massara, E., Perego, G., and Bellussi, G., J. Catal., 1992, vol. 137, no. 2, pp. 497–503.
US Patent 5919430, 1999.
Shin, S.B. and Chadwick, D., Ind. Eng. Chem. Res., 2010, vol. 49, no. 17, pp. 8125–8134.
Russo, V., Tesser, R., Santacesaria, E., and Di Serio, M., Ind. Eng. Chem. Res., 2013, vol. 52, no. 3, pp. 1168–1178.
Domine, M.E. and Clerici, M.G., in Liquid Phase Oxidation via Heterogeneous Catalysis: Organic Synthesis and Industrial Applications, Clerici, M.G. and Kholdeeva, O.A., Eds., New Jersey: Wiley, 2013, pp. 21–93.
TU (Technical Specifications) 2417-068-05757618-2003: Technical Propylene Oxide from Chlorohydrins, 2003. https://extream.ru/Propilena_okis_tehnicheskaya_ Produkti_organicheskogo_sinteza_121.htm, Cited August 5, 2019.
History of the company. Nizhnekamskneftekhim Official Website. www.nknh.ru/about/info/history/. Cited August 5, 2019; Propylene oxide. Nizhnekamskneftekhim Official Website. https://nknh.ru/products/ propylene-oxide/okis-propilena/. Cited August 5, 2019.
Elimanova, G.G., Batyrshin, N.N., and Kharlampidi, Kh.E., Vestn. Kazan.Tekhnol. Univ., 2015, vol. 18, no. 3, pp. 22–23.
Badrtdinova, A.I., Nurmamedov, I.D., Tuntseva, S.N., and Gaifullin, A.A., Vestn. Kazan.Tekhnol. Univ., 2017, vol. 20, no. 1, pp. 44–46.
Sintez Oka plans to launch the production of propylene oxide in 2022–2023. RUPEC Information and Analytical Center Official Website. www.rupec.ru/ news/40322/. Cited August 5, 2019.
US chemical profile: propylene oxide, Focus Catal., 2017, vol. 2017, no. 12. https://doi.org/10.1016/j.focat.2017.11.004
Chan, A., Styrene/Ethylbenzene, NexantThinkingTM PERP 2013-7, 2013.
The PO problem. Elsevier Official Website. https://chemical-materials.elsevier.com/chemicals-industry-news-and-analysis/po-problem/. Cited July 10, 2018.
Peña, M.L., Dellarocca, V., Rey, F., Corma, A., Coluccia, S., and Marchese, L., Microporous Mesoporous Mater., 2001, vols. 44–45, pp. 345–356.
Wu, P., Tatsumi, T., Komatsu, T., and Yashima, T., Chem. Mater., 2002, vol. 14, no. 4, pp. 1657–1664.
Sever, R.R., Alcala, R.A., Dumesic, J.A., and Root, T.W., Microporous Mesoporous Mater., 2003, vol. 66, no. 1, pp. 53–67.
Buijink, J.K.F., Van Vlaanderen, J.J.M., Crocker, M. and Niele, F.G.M. Catal. Today, 2004, vol. 93-95, pp. 199–204.
Li, X.F., Wu, C.Z., Gao, H.X., and Chen, Q.L., Kinet. Catal., 2014, vol. 55, no. 6, pp. 770–776.
Li, X.-F., Gao, H.-X., Jin, G.-J., Chen, L., Ding, L., Yang, H.-Y., and Chen, Q.-L., J. Mol. Struct., 2008, vol. 872, no. 1, pp. 10–17.
Liu, J., Fang, S., Jian, R., Wu, F., and Jian, P., Powder Technol., 2018, vol. 329, pp. 19–24.
Xu, J., Wang, Y., Feng, W., Lin, Y., and Wang, S., Front. Chem. Sci. Eng., 2014, vol. 8, no. 4, pp. 478–487.
Song, W., Xiong, G., Long, H., Jin, F., Liu, L., and Wang, X., Microporous Mesoporous Mater., 2015, vol. 212, pp. 48–55.
Song, Z., Feng, X., Liu, Y., Yang, C., and Zhou, X., Prog. Chem., 2016, vol. 28, no. 12, pp. 1762–1773.
Feng, X., Chen, D., and Zhou, X.G., RSC Adv., 2016, vol. 6, pp. 44050–44056.
Lin, M., Xia, C., Zhu, B., Li, H., and Shu, X., Chem. Eng. J., 2016, vol. 295, pp. 370–375.
Li, Y., Fan, Q., Li, Y., Feng, X., Chai, Y., and Liu, C., Appl. Surf. Sci., 2019, vol. 483, pp. 652–660.
Feng, W., Wang, Y., Wu, G., Lin, Y., Xu, J., Shi, H., Zhang, T., Wang, S., Wu, X., and Yao, P., J. Chem. Technol. Biotechnol., 2015, vol. 90, pp. 1489–1496.
Molina, L.M., López, M.J., and Alonso, J.A., Phys. Chem. Chem. Phys., 2014, vol. 16, no. 48, pp. 26546–26552.
Wang, L.N., Wang, Y.Q., Wu, G.Q., Feng, W.P., Zhang, T., Yang, R.M., Jin, X., Shi, H.N., and Wang, S.H., Asian J. Chem., 2014, vol. 26, no. 4, pp. 943–950.
Gao, X., An, J., Gu, J., Li, L., and Li, Y., Microporous Mesoporous Mater., 2017, vol. 239, pp. 381–389.
Wang, B., Peng, X., Zhang, W., Lin, M., Zhu, B., Liao, W., Guo, X., and Shu, X., Catal. Commun., 2017, vol. 101, pp. 26–30.
Zuo, Y., Zhang, T., Liu, M., Ji, Y., Song, C., and Guo, X., Ind. Eng. Chem. Res., 2018, vol. 57, no. 2, pp. 512–520.
Zhu, Q., Liang, M., Yan, W., and Ma, W., Microporous Mesoporous Mater., 2019, vol. 278, pp. 307–313.
Möller, K. and Bein, T., Chem. Soc. Rev., 2013, vol. 42, no. 9, pp. 3689–3707.
Pérez-Ramírez, J., Christensen, C.H., Egeblad, K., Christensen, C.H., and Groen J.C., Chem. Soc. Rev., 2008, vol. 37, no. 11, pp. 2530–2542.
Du, S., Chen, X., Sun, Q., Wang, N., Jia, M., Valtchev, V., and Yu, J., Chem. Commun., 2016, vol. 52, no. 17, pp. 3580–3583.
Qin, Z., Melinte, G., Gilson, J.-P., Jaber, M., Bozhilov, K., Boullay, P., Mintova, S., Ersen, O., and Valtchev, V., Angew. Chem., Int. Ed. Engl., 2016, vol. 55, no. 48, pp. 15049–15052.
Liu, J., Ni, X., and Hu, Y., React. Kinet., Mech. Catal., 2015, vol. 114, no. 2, pp. 685–695.
Nguyen, V.-H., Lin, S.D., and Wu, J.C.-S., J. Catal., 2015, vol. 331, pp. 217–227.
Zhan, W., Yao, J., Xiao, Z., Guo, Y., Wang, Y., Guo, Y., and Lu, G., Microporous Mesoporous Mater., 2014, vol. 183, pp. 150–155.
Li, X.F., Wu, C.Z., and Gao, H.X., Kinet. Catal., 2014, vol. 55, no. 6, pp. 770–776.
Degnan, T., Focus Catal., 2017, vol. 2017, no. 8. https://doi.org/10.1016/j.focat.2017.07.001
US Patent 9457346, 2016.
US Patent 9795951, 2017.
US Patent 9636669, 2017.
Lu, X., Wu, H., Jiang, J., He, M., and Wu, P., J. Catal., 2016, vol. 342, pp. 173–183.
Ding, L., Jin, G., Gao, H., Huang, Z., and Kang, C., J. Mol. Catal. (China), 2014, vol. 28, pp. 303–311.
Tyablikov, I.A., Rodionova, L.I., Sobolev, P.D., and Ivanova, I.I., Pet. Chem., 2016, vol. 56, no. 3, pp. 267–274.
Held, A., Kowalska-Kuś, J., Nowińska, K., and Góra-Marek, K., J. Catal., 2017, vol. 347, pp. 21–35.
Tyablikov, I. and Romanovsky, B., Catal. Today, 2016, vol. 278, part 1, pp. 40–44.
Ramanathan, A., Archipov, T., Maheswari, R., Hanefeld, U., Roduner, E., and Gläser, R., J. Phys. Chem. C, 2008, vol. 112, no. 19, pp. 7468–7476.
Ramanathan, A., Maheswari, R., and Subramaniam, B., Top. Catal., 2015, vol. 58, nos. 4–6, pp. 314–324.
Ramanathan, A., Zhu, H., Maheswari, R., Thapa, P.S., and Subramaniam, B., Ind. Eng. Chem. Res., 2015, vol. 54, no. 16, pp. 4236–4242.
Yan, W., Zhang, G., Yan, H., Liu, Y., Chen, X., Feng, X., Jin, X., and Yang, C., ACS Sustainable Chem. Eng., 2018, vol. 6, no. 4, pp. 4423–4452. https://doi.org/10.1021/acssuschemeng.7b03101
Liu, Y.Y., Murata, K., and Inaba, M., Chem. Lett., 2003, vol. 32, no. 11, pp. 992–993.
Yan, W., Wu, Y., Feng, X., Yang, C., Jin, X., and Shen, J., Chin. J. Chem. Eng., 2018, vol. 26, no. 6, pp. 1278–1284.
Miao, Y., Lu, G., Liu, X., Guo, Y., Wang, Y., and Guo, Y., J. Mol. Catal. A: Chem., 2009, vol. 306, nos. 1–2, pp. 17–22.
Miao, Y., Lu, G., Liu, X., Guo, Y., Wang, Y., and Guo, Y., J. Ind. Eng. Chem., 2010, vol. 16, no. 1, pp. 45–50.
Corma, A., Navarro, M.T., and Pérez Pariente, J., J. Chem. Soc., Chem. Commun., 1994, no. 2, pp. 147–148.
Tanev, P.T., Chibwe, M., and Pinnavaia, T.J., Nature, 1994, vol. 368, no. 6469, pp. 321–323.
Mandache, I., Parvulescu, V.I., Popescu, A., Pârvulescu, L., Banciu, M.D., Amoros, P., Beltran, D., Trong On, D., and Kaliaguine, S., Microporous Mesoporous Mater., 2005, vol. 81, nos. 1–3, pp. 115–124.
Wu, P. and Iwamoto, M., J. Chem. Soc., Faraday Trans., 1998, vol. 94, no. 18, pp. 2871–2875.
Wu, P., Tatsumi, T., Komatsu, T., and Yashima, T., Chem. Mater., 2002, vol. 14, no. 4, pp. 1657–1664.
Li, K.-T. and Lin, C.-C., Catal. Today, 2004, vol. 97, no. 4, pp. 257–261.
Chiker, F., Nogier, J.Ph., Launay, F., and Bonardet, J.L., Appl. Catal., A, 2003, vol. 243, no. 2, pp. 309–321.
Yonemitsu, M., Tanaka, Y., and Iwamoto, M., Chem. Mater., 1997, vol. 9, no. 12, pp. 2679–2681.
Mizoshita, N., Tani, T., and Inagaki, S., Chem. Soc. Rev., 2011, vol. 40, no. 2, pp. 789–800.
Zhang, X., Huang, Y., Guo, Y., Yuan, X., and Jiao, F., Microporous Mesoporous Mater., 2018, vol. 262, pp. 251–257.
Clerici, M.G. and Ingallina, P., Catal. Today, 1998, vol. 41, no. 4, pp. 351–364.
Hayashi, T., Tanaka, K., and Haruta, M., J. Catal., 1998, vol. 178, no. 2, pp. 566–575.
Meiers, R. and Hölderich, W.F., Catal. Lett., 1999, vol. 59, nos. 2–4, pp. 161–163.
Oyama, S.T., Murata, K., and Haruta, M., Catalysts Catal., 2004, vol. 46, no. 1, pp. 13–18.
Murata., K., Catalysts Catal., 2005, vol. 47, pp. 226–229.
Tullo, A., Chem. Eng. News, 2004, vol. 82, no. 36, p. 15. https://doi.org/10.1021/cen-v082n036.p015a
Duma, V. and Hönicke, D., J. Catal., 2000, vol. 191, no. 1, pp. 93–104.
Sinha, A.K., Seelan, S., Tsubota, S., and Haruta, M., Angew. Chem., Int. Ed. Engl., 2004, vol. 43, no. 12, pp. 1546–1548.
Chen, J., Halin, S.J.A., Pidko, E.A., Verhoe-ven, M.W.G.M.T., Perez Ferrandez, D.M., Hensen, E.J.M., Schouten, J.C., and Nijhuis, T.A., ChemCatChem, 2013, vol. 5, no. 2, pp. 467–478.
Lee, W.-S., Cem Akatay, M., Stach, E.A., Ribeiro, F.H., and Delgass W.N., J. Catal., 2013, vol. 308, pp. 98–113.
Li, Z., Wang, Y., Zhang, J., Wang, D., and Ma, W., Catal. Commun., 2017, vol. 90, pp. 87–90.
Feng, X., Sheng, N., Liu, Y., Chen, X., Chen, D., Yang, C., and Zhou, X., ACS Catal., 2017, vol. 7, no. 4, pp. 2668–2675.
Jin, F., Lin, T.-H., Chang, C.-C., Wan, B.-Z., Lee, J.-F., and Cheng, S., RSC Adv., 2015, vol. 5, no. 76, pp. 61710–61718.
Jin, F., Wu, Y., Liu, S., Lin, T.-H., Lee, J.-F., and Cheng, S., Catal. Today, 2016, vol. 264, pp. 98–108.
Lee, W.-S., Cem Akatay, M., Stach, E.A., Ribeiro, F.H., and Delgass, W.N., J. Catal., 2012, vol. 287, pp. 178–189.
Kanungo, S., Perez Ferrandez, D.M., d’Angelo, F.N., Schouten, J.C., and Nijhuis, T.A., J. Catal., 2016, vol. 338, pp. 284–294.
Kanungo, S., Su, Y., Neira d’Angelo, M.F., Schouten, J.C., and Hensen, E.J.M. Catal. Sci. Technol., 2017, vol. 7, no. 11, pp. 2252–2261.
Feng, X., Duan, X., Cheng, H., Qian, G., Chen, D., Yuan, W., and Zhou, X., J. Catal., 2015, vol. 325, pp. 128–135.
Chen, X.-Y., Chen, S.-L., Jia, A.-P., Lu, J.-Q., and Huang, W.-X., Appl. Surf. Sci., 2017, vol. 393, pp. 11–22.
Prieto, A., Palomino, M., Díaz, U., and Corma, A., Appl. Catal., A, 2016, vol. 523, pp. 73–84.
Chen, J., Pidko, E.A., Ordomsky, V.V., Verhoeven, T., Hensen, E.J.M., Schouten, J.C., and Nijhuis, T.A., Catal. Sci. Technol., 2013, vol. 3, no. 11, pp. 3042–3055.
Turner, C.H., Ji, J., Lu, Z., and Lei, Y., Chem. Eng. Sci., 2017, vol. 174, pp. 229–237.
Ji, J., Lu, Z., Lei, Y., and Turner, C.H., Chem. Eng. Sci., 2018, vol. 191, pp. 169–182.
Chen, X.-Y., Chen, S.-L., Jia, A.-P., Lu, J.-Q. and Huang, W.-X. Appl. Surf. Sci., 2017, vol. 393, pp. 11–22.
Ayvalı, T., Ye, L., Wu, S., Lo, B.T.W., Huang, C., Yu, B., Cibin, G., Kirkland, A.I., Tang, C., Bagabas, A.A., and Edman Tsang, S.C., J. Catal., 2018, vol. 367, pp. 229–233.
Li, Z., Zhang, J., Wang, D., Ma, W., and Zhong, Q., J. Phys. Chem. C, 2017, vol. 121, no. 45, pp. 25215–25222.
Taylor, B., Lauterbach, J., and Delgass, W.N., Appl. Catal., A, 2005, vol. 291, nos. 1–2, pp. 188–198.
Chowdhury, B., Bravo-Suárez, J.J., Daté, M., Tsubota, S., and Haruta, M., Angew. Chem., Int. Ed. Engl., 2006, vol. 45, no. 3, pp. 412–415.
Yap, N., Andres, R.P., and Delgass, W.N., J. Catal., 2004, vol. 226, no. 1, pp. 156–170.
Cumaranatunge, L. and Delgass, W.N., J. Catal., 2005, vol. 232, no. 1, pp. 38–42.
Lee, W.-S., Lai, L.-C., Cem Akatay, M., Stach, E.A., Ribeiro, F.H., and Delgass, W.N., J. Catal., 2012, vol. 296, pp. 31–42.
Yang, M., Allard, L.F., and Flytzani-Stephanopoulos, M., J. Am. Chem. Soc., 2013, vol. 135, no. 10, pp. 3768–3771.
Yang, M., Li, S., Wang, Y., Herron, J.A., Xu, Y., Allard, L.F., Lee, S., Huang, J., Mavrikakis, M., and Flytzani-Stephanopoulos, M., Science, 2014, vol. 346, no. 6216, pp. 1498–1501.
Wang, C., Yang, M., and Flytzani-Stephanopoulos, M., AIChE J., 2016, vol. 62, no. 2, pp. 429–439.
Li, N., Chen, Y., Shen, Q., Yang, B., Liu, M., Wei, L., Tian, W., and Zhou, J., J. Solid State Chem., 2018, vol. 261, pp. 92–102.
Khatib, S.J. and Oyama, S.T., Catal. Rev.: Sci. Eng., 2015, vol. 57, no. 3, pp. 306–344.
Lu, J.Q., Luo, M., Lei, H., and Li, C., Appl. Catal., A, 2002, vol. 237, nos. 1–2, pp. 11–19.
Lu, J., Bravo-Suárez, J.J., Haruta, M., and Oyama, S.T., Appl. Catal., A, 2006, vol. 302, no. 2, pp. 283–295.
Zemichael, F.W., Palermo, A., Tikhov, M.S., and Lambert, R.M., Catal. Lett., 2002, vol. 80, nos. 3–4, pp. 93–98.
Luo, M.F., Lu, J.Q., and Li, C., Catal. Lett., 2003, vol. 86, nos. 1–3, pp. 43–49.
Jin, G., Lu, G., Guo, Y., Guo, Y., Wang, J., and Liu, X., Catal. Today, 2004, vols. 93–95, pp. 173–182.
Yao, W., Lu, G., Guo, Y., Guo, Y., Wang, Y., and Zhang, Z., J. Mol. Catal. A: Chem., 2007, vol. 276, nos. 1–2, pp. 162–167.
Lu, J., Bravo-Suárez, J.J., Takahashi, A., Haruta, M., and Oyama, S.T., J. Catal., 2005, vol. 232, no. 1, pp. 85–95.
Molina, L.M., Lee, S., Sell, K., Barcaro, G., Fortunelli, A., Lee, B., Seifert, S., Winans, R.E., Elam, J.W., Pellin, M.J., Barke, I., Von Oeynhausen, V., Lei, Y., Meyer, R.J., Alonso, J.A., Fraile Rodríguez, A., Kleibert, A., Giorgio, S., Henry, C.R., Meiwes-Broer, K.H., and Vajda, S., Catal. Today, 2011, vol. 160, no. 1, pp. 116–130.
Zhang, Q., Guo, Y., Zhan, W., Guo, Y., Wang, L., Wang, Y., and Lu, G., Catal. Today, 2016, vol. 276, pp. 2–10.
Lei, Y., Mehmood, F., Lee, S., Greeley, J., Lee, B., Seifert, S., Winans, R.E., Elam, J.W., Meyer, R.J., Redfern, P.C., Teschner, D., Schlögl, R., Pellin, M.J., Curtiss, L.A., and Vajda, S., Science, 2010, vol. 328, no. 5975, pp. 224–228.
Cheng, L., Yin, C., Mehmood, F., Liu, B., Greeley, J., Lee, S., Lee, B., Seifert, S., Winans, R.E., Teschner, D., Schlögl, R., Vajda, S., and Curtiss, L.A., ACS Catal., 2014, vol. 4, no. 1, pp. 32–39.
Ghosh, S., Acharyya, S.S., Tiwari, R., Sarkar, B., Singha, R.K., Pendem, C., Sasaki, T., and Bal, R., ACS Catal., 2014, vol. 4, no. 7, pp. 2169–2174.
Lee, E.J., Lee, J., Seo, Y.-J., Lee, J.W., Ro, Y., Yi, J., and Song, I.K., Catal. Commun., 2017, vol. 89, pp. 156–160.
Huang, J. and Haruta, M., Res. Chem. Intermed., 2012, vol. 38, no. 1, pp. 1–24.
Yao, W., Zheng, X., Guo, Y., Zhan, W., Guo, Y., and Lu, G., J. Mol. Catal. A: Chem., 2011, vols. 342–343, pp. 30–34.
Zheng, X., Zhang, Q., Guo, Y., Zhan, W., Guo, Y., Wang, Y., and Lu, G., J. Mol. Catal. A: Chem., 2012, vol. 357, pp. 106–111.
Abdel Dayem, H.M., Al-Shihry, S.S., and Hassan, S.A., J. Rare Earths, 2019, vol. 37, no. 5, pp. 500–507. https://doi.org/10.1016/j.jre.2018.09.003
Yu, B., Ayvalı, T., Raine, E., Li, T., Li, M.M.-J., Zheng, J., Wu, S., Bagabas, A.A., and Tsang, S.C.E., Appl. Catal., B, 2019, vol. 243, pp. 304–312.
Kalyoncu, S., Düzenli, D., Onal, I., Seubsai, A., Noon, D., and Senkan, S., Catal. Commun., 2015, vol. 61, pp. 16–20.
Atmaca, D.O., Düzenli, D., Ozbek, M.O., and Onal, I., Appl. Surf. Sci., 2016, vol. 385, pp. 99–105.
Phon-in, P., Seubsai, A., Chukeaw, T., Charoen, K., Donphai, W., Prapainainar, P., Chareonpanich, M., Noon, D., Zohour, B., and Senkan, S., Catal. Commun., 2016, vol. 86, pp. 143–147.
Hua, Q., Cao, T., Gu, X.-K., Lu, J., Jiang, Z., Pan, X., Luo, L., Li, W.-X., and Huang, W., Angew. Chem., Int. Ed. Engl., 2014, vol. 53, no. 19, pp. 4856–4861.
He, J., Zhai, Q., Zhang, Q., Deng, W., and Wang, Y., J. Catal., 2013, vol. 299, pp. 53–66.
Zhang, Q., Chai, G., Guo, Y., Zhan, W., Guo, Y., Wang, L., Wang, Y., and Lu, G., J. Mol. Catal. A: Chem., 2016, vol. 424, pp. 65–76.
Seubsai, A., Kahn, M., Zohour, B., Noon, D., Charoenpanich, M., and Senkan, S., Ind. Eng. Chem. Res., 2015, vol. 54, no. 10, pp. 2638–2645.
Seubsai, A., Noon, D., Chukeaw, T., Zohour, B., Donphai, W., Chareonpanich, M., and Senkan, S., J. Ind. Eng. Chem., 2015, vol. 32, pp. 292–297.
Miller, A., Zohour, B., Seubsai, A., Noon, D., and Senkan, S., Ind. Eng. Chem. Res., 2013, vol. 52, no. 28, pp. 9551–9555.
Kalyoncu, S., Düzenli, D., Onal, I., Seubsai, A., Noon, D., Senkan, S., Say, Z., Vovk, E., and Ozensoy, E., Catal. Lett., 2015, vol. 145, no. 2, pp. 596–605.
He, J.L., Zhai, Q.G., Zhang, Q.H., Deng, W.P. and Wang, Y. J. Catal., 2013, vol. 299, pp. 53–66.
Wang, Y., Chu, H., Zhu, W., and Zhang, Q., Catal. Today, 2008, vol. 131, nos. 1–4, pp. 496–504.
Su, W., Wang, S., Ying, P., Feng, Z., and Li, C., J. Catal., 2009, vol. 268, np. 1, pp. 165–174.
Düzenli, D., Atmaca, D.O., Gezer, M.G., and Onal, I., Appl. Surf. Sci., 2015, vol. 355, pp. 660–666.
Teržana, J., Djinović, P., Zavašnik, J., Arčon, I., Žerjav, G., Spreitzer, M., and Pintar, A., Appl. Catal., B, 2018, vol. 237, pp. 214–227.
Lei, Y., Chen, X., Xu, C., Dai, Z., and Wei, K., J. Catal., 2015, vol. 321, pp. 100–112.
Pang, Y., Chen, X., Xu, C., Lei, Y., and Wie, K., ChemCatChem, 2014, vol. 6, no. 3, pp. 876–884.
Xu, Y., Guo, L., Chen, X., and Huang, Q., Catal. Sci. Technol., 2018, vol. 8, no. 4, pp. 1070–1082.
Wang, Z., Gao, A., Chen, P., Hu, H., Huang, Q., and Chen, X., J. Catal., 2018, vol. 368, pp. 120–133.
García-Aguilar, J., Cazorla-Amoros, D., and Berenguer-Murcia, A., Appl. Catal., A, 2017, vol. 538, pp. 139–147.
García-Aguilar, J., Miguel-García, I., Juan-Juan, J., Such-Basáñez, I., San Fabián, E., Cazorla-Amorós, D., and Berenguer-Murcia, Á., J. Catal., 2016, vol. 338, pp. 154–167.
Li, Y., Feng, Z., Lian, Y., Sun, K., Zhang, L., Jia, G., Yang, Q., and Li, C., Microporous Mesoporous Mater., 2005, vol. 84, nos. 1–3, pp. 41–49.
Yang, S., Zhu, W., Zhang, Q., and Wang, Y., J. Catal., 2008, vol. 254, no. 2, pp. 251–262.
Wang, X., Zhang, Q., Yang, S., and Wang, Y., J. Phys. Chem. B, 2005, vol. 109, no. 49, pp. 23500–23508.
Zhang, Q., Guo, Q., Wang, X., Shishido, T., and Wang, Y., J. Catal., 2006, vol. 239, no. 1, pp. 105–116.
Held, A. and Florczak, P., Catal. Today, 2009, vol. 142, nos. 3—4,pp. 329–334.
Falbe, J. and Cornils, B., Fortschr. Chem. Forsch., 1968, vol. 11, no. 1, pp. 101–145.
Dümbgen, G. and Neubauer, D., Chem. Ing. Tech., 1969, vol. 41, no. 17, pp. 974–980.
DE Patent 838746, 1953.
Rybakov, V.A., El’kin, A.L., Tyukavin, G.N., Luriya, V.B., and Ryabov, V.G., Tekhnologiya oksosinteza i rodstvennykh protsessov s uchastiem okisi ugleroda (Oxosynthesis and Related Processes Involving Carbon Oxide), Perm: ZAO Sibur-Khimprom, 2004.
Cronan, C.S., Chem. Eng. Sci., 1977, vol. 84, no. 26, pp. 110–115.
Applied Homogeneous Catalysis with Organometallic Compounds, Cornils, B. and Herrmann, W.A., Eds., Weinheim: Wiley-VCH, 1996.
Cornils, B. and Kuntz, E.G., in: Aqueous Phase Organometallic Catalysis—Concept and Application, Cornils, B. and Herrmann, W.A., Eds., Weinheim: Wiley-VCH, 1998, pp. 271–283.
Herwig, J. and Fischer, R., in: Rhodium Catalyzed Hydroformylation, van Leeuwen, P.W.N.M. and Claver, C., Eds., Dordrecht: Kluwer Academic Publishers, 2000, pp. 189–200.
EEC Patent 0107006, 1983.
FR Patent 2314910, 1975.
Cornils, B. and Kuntz, E.G., J. Organomet. Chem., 1995, vol. 502, nos. 1–2, pp. 177–186.
Bohnen, H.-W. and Cornils, B., Adv. Catal., 2002, vol. 47, pp. 1–64.
Herrmann, W.A., Kohlpaintner, C.W., Manetsberger, R.B., Bahrmann, H., and Kottmann, H., J. Mol. Catal. A: Chem., 1995, vol. 97, no. 2, pp. 65–72.
Herrmann, W.A., Kohlpaintner, C.W., Bahrman, H., and Konkol, W., J. Mol. Catal., 1992, vol. 73, no. 2, pp. 191–201.
Cole-Hamilton, D.J., Science, 2003, vol. 299, no. 5613, pp. 1702–1706.
Pospech, J., Fleischer, I., Franke, R., Buchholz, S., and Beller, M., Angew. Chem., Int. Ed. Engl., 2013, vol. 52, no. 10, pp. 2852–2872.
Süss-Fink, G., J. Organomet. Chem., 1980, vol. 193, no. 1, pp. C20–C22.
Johnson, B.F.G., Lewis, J., Raithby, P.R., and Süss, G., J. Chem. Soc., Dalton Trans., 1979, no. 9, pp. 1356–1361.
Süss-Fink, G. and Schmidt, G.F., J. Mol. Catal., 1987, vol. 42, no. 2, pp. 361–366.
Gao, J.-X., Xu, P.-P., Yi, X.-D., Wan, H.-L., and Tsai, K.-R., J. Mol. Catal. A: Chem., 1999, vol. 147, nos. 1–2, pp. 99–104.
Kovalchuk, V.I., Mikova, N.M., Chesnokov, N.V., Naimushina, L.V., and Kuznetsov, B.N., J. Mol. Catal. A: Chem., 1996, vol. 107, nos. 1–3, pp. 329–337.
Lenarda, M., Storaro, L., and Ganzerla, R., J. Mol. Catal. A: Chem., 1996, vol. 111, no. 3, pp. 203–237.
Konishi, Y., Ichikawa, M., and Sachtler, W.M.H., J. Phys. Chem., 1987, vol. 91, no. 24, pp. 6286–6291.
Arakawa, H., Takahashi, N., Hanaoka, T., Takeuchi, K., Matsuzaki, T., and Sugi, Y., Chem. Lett., 1988, vol. 17, no. 11, pp. 1917–1918. 1988, Vol.17, No.11
Sordelli, L., Psaro, R., Dossi, C., and Fusi, A., in Catalysis and Surface Characterization, Dines, T.J., Rochester, C.H., and Thompson, J., Eds., Cambridge: Royal Society of Chemistry, 1992, pp. 127–135.
Huang, L., Xu, Y., Guo, W., Liu, A., Li, D., and Guo, X., Catal. Lett., 1995, vol. 32, nos. 1–2, pp. 61–81.
Yan, L., Ding, Y., Zhu, H., Yin, H., Jiao, G., Zhao, D., and Lin, L., Chin. J. Catal., 2006, vol. 27, no. 1, pp. 1–3.
Jackson, P.F., Johnson, B.F.G., Lewis, L., Ganzerla, R., Lenarda, M., and Graziani, M., J. Organomet. Chem., 1980, vol. 190, no. 1, pp. C1–C4.
Jordan, D.S. and Bell, A.T., J. Catal., 1987, vol. 107, no. 2, pp. 338–350.
Fukuoka, A., Matsuzaka, H., Hidai, M., and Ichikawa, M., Chem. Lett., 1987, vol. 16, no. 5, pp. 941–944.
Kioeński, J., Gliński, M., and Bielawski, K., Stud. Surf. Sci. Catal., 1988, vol. 41, pp. 379–386.
Chuang, S.S.C., Pien, S.-I., and Sze, C., J. Catal., 1990, vol. 126, no. 1, pp. 187–191.
Halligudi, S.B., Taqui Khan, M.M., Moroz, B.L., Chuvilin, A.L., Prosvirin, I.P., and Likholobov, V.A., React. Kinet. Catal. Lett., 1991, vol. 44, no. 1, pp. 139–146.
Pien, S.-I. and Chuang, S.S.C., J. Mol. Catal., 1991, vol. 68, no. 3, pp. 313–330.
Alvila, L., Pursiainen, J., Kiviaho, J., Pakkanen, T.A., and Krause, O., J. Mol. Catal., 1994, vol. 91, no. 3, pp. 335–342.
Xiao, F.S. and Ichikawa, M., J. Catal., 1994, vol. 147, no. 2, pp. 578–593.
Xiao, F.-S. and Ichikawa, M., J. Mol. Catal. A: Chem., 1996, vol. 113, no. 3, pp. 427–444.
Ichikawa, M., J. Catal., 1979, vol. 56, pp. No. 1, 127–129.
Takeuchi, K., Hanaoka, T., Matsuzaki, T., Sugi, Y., Ogasawara, S., Abe, Y., and Misono, T., Catal. Today, 1994, vol. 20, no. 3, pp. 423–435.
Vit, Z., Portefaix, J.L., and Breysse, M., Appl. Catal., A, 1994, vol. 116, nos. 1–2, pp. 259–268.
Llorca, J., Barbier, A., Martin, G.A., Sales, J., Ramírez de la Piscina, P., and Homs, N., Catal. Lett., 1996, vol. 42, nos. 1–2, pp. 87–92.
Moroz, B.L., Moudrakovski, I.L., and Likholobov, V.A., J. Mol. Catal. A: Chem., 1996, vol. 112, no. 2, pp. 217–233.
Kainulainen, T.A., Niemela, M.K., and Krause, A.O.I., Catal. Lett., 1998, vol. 53, nos. 1–2, pp. 97–101.
Beller, M., Cornils, B., Frohning, C.D., and Kohlpaintner, C.W., J. Mol. Catal. A: Chem., 1995, vol. 104, no. 1, pp. 17–85.
Suss-Fink, G. and Reiner, J., J. Mol. Catal., 1982, vol. 16, no. 2, pp. 231–242.
Grasselli, R.K., Catal. Today, 2014, vol. 238, pp. 10–27.
Grasselli, R.K., Lugmair, C.G., and Volpe Jr., A.F., Top. Catal., 2011, vol. 54, nos. 10–12, pp. 595–604.
Acrylonitrile and Derivatives World Supply/Demand Report 2013. http://www.pci-acrylo.com/dox/PCI%20 Acrylonitrile%20Supply%20Demand%20Report% 202013.pdf. Cited January 10, 2014.
US Patent 2904580, 1959.
Callahan, J.L., Grasselli, R.K., Milberger, E.C., and Strecker, H.A., Ind. Eng. Chem. Prod. Res. Dev., 1970, vol. 9, no. 2, pp. 134–142.
Kunii, D. and Levenspiel, O., Fluidization Engineering, Boston, MA: Butterworth-Heinemann, 2013.
Brazdil, J.F., Appl. Catal., A, 2017, vol. 543, pp. 225–233.
Egishara, M., Matsuo, K., Kawaga, S., and Seiyama, T., J. Catal., 1979, vol. 58, no. 3, pp. 409–418.
Brazdil, J.F., Suresh, D.D., and Grasselli, R.K., J. Catal., 1980, vol. 66, no. 2, pp. 347–367.
Carson, D., Coudurier, G., Forissier, M., Vedrine, J.C., Laarif, A., and Theobald, F., J. Chem. Soc., Faraday Trans. 1, 1983, vol. 79, no. 8, pp. 1921–1929.
Brixner, L.H., Sleight, A.W., and Licis, M.S., J. Solid State Chem., 1972, vol. 5, no. 2, pp. 247–249.
Antonio, M.R., Teller, R.G., Sandstrom, D.R., Mehicic, M., and Brazdil, J.F., J. Phys. Chem., 1988, vol. 92, no. 10, pp. 2939–2944.
Grasselli, R.K. and Tenhover, M.A., in Handbook of Heterogeneous Catalysis, Ertl, G., Knözinger, H., Schüth, F., and Weitkamp, J., Eds., Weinheim: Wiley-VCH, 2008, pp. 3489–3517.
Le, M.T., Van Well, W.J.M., Van Driessche, I., and Hoste, S., Appl. Catal., A, 2004, vol. 267, nos. 1–2, pp. 227–234.
Snyder, T.P. and Hill, C.G., J. Catal., 1991, vol. 132, no. 2, pp. 536–555.
Haber, J. and Turek, W., J. Catal., 2000, vol. 190, no. 2, pp. 320–326.
Jung, J.C., Lee, H., Kim, H., Chung, Y.-M., Kim, T.J., Lee, S.J., Oh, S.-H., Kim, Y.S., and Song, I.K., Catal. Lett., 2008, vol. 124, nos. 3–4, pp. 262–267.
Brazdil, J.F., Catal. Sci. Technol., 2015, vol. 5, no. 7, pp. 3452–3458.
GB Patent 1319190, 1973.
He, D.-H., Ueda, W., and Moro-Oka, Y., Catal. Lett., 1992, vol. 12, nos. 1–3, pp. 35–44.
Millet, J.M.M., Ponceblanc, H., Coudurier, G., Herrmann, J.M., and Vedrine, J.C., J. Catal., 1993, vol. 142, no. 2, pp. 381–391.
Prasada Rao, T.S.R. and Krishnamurthy, K.R., J. Catal., 1985, vol. 95, no. 1, pp. 209–219.
Legendre, O., Jaeger, P., and Brunelle, J.P., Stud. Surf. Sci. Catal., 1992, vol. 72, pp. 387–398.
Delmon, B. and Froment, G.F., Catal. Rev.: Sci. Eng., 1996, vol. 38, no. 1, pp. 69–100.
Moro-oka, Y., He, D.-H., and Ueda, W., Stud. Surf. Sci. Catal., 1991, vol. 67, pp. 57–66.
Engeldinger, J., Radnik, J., Kreyenschulte, C., Devred, F., Gaigneaux, E. M., Fischer, A., Zanthoff, H.-W., and Bentrup, U., ChemCatChem, 2016, vol. 8, no. 5, pp. 976–983.
WO Patent 2014051090, 2014.
Brazdil, J.F., Toft, M.A., Lin, S.S.-Y., McKenna, S.T., Zajac, G., Kaduk, J.A., and Golab, J.T., Appl. Catal., A, 2015, vol. 495, pp. 115–123.
Jpn. Patent 2009285581A, 2009.
Jpn. Patent 2010172851A2, 2010.
Jpn. Patent 2016120468A2, 2016.
US Patent 9358528, 2016.
Han, Y.-H., Ueda, W., and Moro-Oka, Y., Appl. Catal., A, 1999, vol. 176, no. 1, pp. 11–16.
Duc, D. T., Ha, H.N., Fehrmann, R., Riisager, A., and Le, M.T., Res. Chem. Intermed., 2011, vol. 37, no. 6, pp. 605–616.
Chen, B.H., Dai, Q.L., and Lu, D.W., Chem. Eng. Sci., 1996, vol. 51, no. 11, pp. 2983–2988.
Bettahar, M.M., Costentin, G., Savary, L., and Lavalley, J.C, Appl. Catal., A, 1996, vol. 145, nos. 1–2, pp. 1–48.
Grasselli, R.K., Lugmair, C.G. and Volpe Jr. A.F. Top Catal., 2011, vol. 54, pp. 595–604.
Kim, J.S. and Woo, S.I., Appl. Catal., A, 1994, vol. 110, no. 2, pp. 173–184.
Ushikubo, T., Oshima, K., Kayou, A., Vaarkamp, M., and Hatano, M., J. Catal., 1997, vol. 169, no. 1, pp. 394–396.
Vaarkamp, M. and Ushikubo, T., Appl. Catal., A, 1998, vol. 174, nos. 1–2, pp. 99–107.
Asakura, K., Nakatani, K., Kubota, T., and Iwasawa, Y., J. Catal., 2000, vol. 194, no. 2, pp. 309–317.
Guerrero-Pérez, M.O., Peña, M.A., Fierro, J.L.G., and Bañares, M.A., Ind. Eng. Chem. Res., 2006, vol. 45, no. 13, pp. 4537–4543.
Albonetti, S., Blanchard, G., Burattin, P., Masetti, S., Tagliani, A., and Trifirò, F., Catal. Lett., 1998, vol. 50, nos. 1–2, pp. 17–23.
Centi, G., Grasselli, R.K., Patane’, E., and Trifiro, F., Stud. Surf. Sci. Catal., 1990, vol. 55, pp. 515–526.
Bowker, M., Bicknell, C.R., and Kerwin, P., Appl. Catal., A, 1996, vol. 136, no. 2, pp. 205–229.
Nilsson, J., Landa-Cánovas, A.R., Hansen, S., and Andersson, A., J. Catal., 1999, vol. 186, no. 2, pp. 442–457.
Centi, G. and Perathoner, S., Appl. Catal., A, 1995, vol. 124, no. 2, pp. 317–337.
Wickman, A., Wallenberg, L.R., and Andersson, A., J. Catal., 2000, vol. 194, no. 1, pp. 153–166.
Pasupulety, N., Driss, H., Zaman, S.F., Alhamed, Y.A., Alzahrani, A.A., Daous, M.A., and Petrov, L., Appl. Catal., A, 2016, vol. 512, pp. 52–62.
Soria, M.A., Ruiz, P., and Gaigneaux, E.M., Catal. Today, 2013, vol. 203, pp. 40–47.
Centi, G., Tosarelli, T., and Trifiro, F., J. Catal., 1993, vol. 142, no. 1, pp. 70–83.
Centi, G. and Perathoner, S., J. Catal., 1993, vol. 142, no. 1, pp. 84–96.
Derouane-Abd Hamid, S.B., Centi, G., Pal, P., and Derouane, E.G., Top. Catal., 2001, vol. 15, nos. 2—4, pp. 161–168.
Derouane-Abd Hamid, S.B., Pal, P., He, H., and Derouane, E.G., Catal. Today, 2001, vol. 64, nos. 1–2, pp. 129–138.
Pérez-Ramírez, J., Blangenois, N., and Cruiz, P., Catal. Lett., 2005, vol. 104, nos. 3–4, pp. 163–167.
Bulánek, R. and Částek, F., Top. Catal., 2007, vol. 45, nos. 1–4, pp. 233–237.
Bulanek, R., Raabová, K., Košová-Kučerová, G., and Capek, L., Stud. Surf. Sci. Catal., 2008, vol. 174, part B, pp. 1151–1154.
Bulánek, R., Raabová, K., and Bad’urová, E., Catal. Today, 2012, vol. 179, no. 1, pp. 73–77.
Zhang, H., Zhao, Z., Xu, C., and Duan, A., Chem. Lett., 2006, vol. 35, no. 1, pp. 36–37.
Florea, M., Prada-Silvy, R., and Grange, P., Catal. Lett., 2003, vol. 87, nos. 1–2, pp. 63–66.
Lin, M.M., Appl. Catal., A, 2003, vol. 250, no. 2, pp. 287–303.
Ushikubo, T., Oshima, K., Kayou, A., and Hatano, M., Stud. Surf. Sci. Catal., 1997, vol. 112, pp. 473–480.
Baerns, M. and Buyevskaya, O., Catal. Today, 1998, vol. 45, nos. 1–4, pp. 13–22.
Bettahar, M.M., Costentin, G., Savary, L. and Lavalley J.C. Appl. Catal. A, 1996, vol. 145, pp. 1–48.
Cavani, R. and Trifirò, F., Catal. Today, 1999, vol. 51, nos. 3–4, pp. 561–580.
Guliants, V.V., Bhandari, R., Al-Saeedi, J.N., Vasudevan, V.K., Soman, R.S., Guerrero-Pérez, O., and Bañares, M.A., Appl. Catal., A, 2004, vol. 274, nos. 1–2, pp. 123–132.
Lin, M.M., Appl. Catal., A, 2001, vol. 207, nos. 1–2, pp. 1–16.
Popova, G.Ya., Andrushkevich, T.V., Chesalov, Yu.A., Plyasova, L.M., Dovlitova, L.S., Ischenko, E.V., Aleshina, G.I., and Khramov, M.I., Catal. Today, 2009, vol. 144, nos. 3–4, pp. 312–317.
Ishchenko, E.V., Andrushkevich, T.V., Popova, G.Ya., Kardash, T.Yu., Ishchenko, A.V., Dovlitova, L.S., and Chesalov, Yu.A., Appl. Catal., A, 2014, vol. 476, pp. 91–102.
Holmberg, J., Grasselli, R.K., and Andersson, A., Appl. Catal., A, 2004, vol. 270, nos. 1–2, pp. 121–134.
Holmberg, J., Grasselli, R.K., and Andersson, A., Top. Catal., 2003, vol. 23, nos. 1–4, pp. 55–63.
Grasselli, R.K., Buttrey, D.J., DeSanto Jr., P., Burrington, J.D., Lugmair, C.G., Volpe Jr., A.F., and Weingand, T., Catal. Today, 2004, vols. 91–92, pp. 251–258.
Ishchenko, E.V., Andrushkevich, T.V., Popova, G.Ya., Chesalov, Yu.A., Plyasova, L.M., Ishchenko, A.V., Kardash, T.Yu., and Dovlitova, L.S., Catal. Ind., 2010, vol. 2, no. 4, pp. 291–298.
Grasselli, R.K., Burrington, J.D., Buttrey, D.J., DeSanto Jr., P., Lugmair, C.G., Volpe Jr., A.F., and Weingand, T., Top. Catal., 2003, vol. 23, nos. 1–4, pp. 5–22.
Baca, M., Pigamo, A., Dubois, J.L., and Millet, J.M.M., Top. Catal., 2003, vol. 23, nos. 1–4, pp. 39–46.
Grasselli, R.K., Buttrey, D.J., Burrington, J.D., Andersson, A., Holmberg, J., Ueda, W., Kubo, J., Lugmair, C.G., and Volpe Jr., A.F., Top. Catal., 2006, vol. 38, nos. 1–3, pp. 7–16.
Woo, J., Sanghavi, U., Vonderheide, A., and Guliants, V.V., Appl. Catal., A, 2016, vol. 515, pp. 179–189.
Andrushkevich, T.V., Popova, G.Y., Chesalov, Yu.A., Ishchenko, E.V., Khramov, M.I., and Kaichev, V.V., Appl. Catal., A, 2015, vol. 506, pp. 109–117.
Ivars, F., Solsona, B., Hernández, S., and López Nieto, J.M., Catal. Today, 2010, vol. 149, nos. 3–4, pp. 260–266.
Zhu, B., Li, H., Yang, W., and Lin, L., Catal. Today, 2004, vols. 93–95, pp. 229–234.
Popova, G.Ya., Andrushkevich, T.V., Dovlitova, L.S., Aleshina, G.A., Chesalov, Yu.A., Ishenko, A.V., Ishenko, E.V., Plyasova, L.M., Malakhov, V.V., and Khramov, M.I., Appl. Catal., A, 2009, vol. 353, no. 2, pp. 249–257.
Yates, J.G., and Lettieri, P., Fluidized-Bed Reactors: Processes and Operating Conditions, New York: Springer, 2016.
WO Patent 2015133510A1, 2015.
US Patent 9427727, 2016.
Acrylic Acid and acrylates. Process evaluation/Research planning. Nexant ThinkingTM. PERP 2014-3. September 2014. 174 p.
Saleh-Alhamed, Y.A., Hudgins, R.R., and Silveston, P.L., Appl. Catal., A, 1995, vol. 127, nos. 1–2, pp. 177–199.
Jo, B.Y., Kim, E.J., and Moon, S.H., Appl. Catal., A, 2009, vol. 358, no. 2, pp. 180–185.
Wong, H.-W., Cesa, M.C., Golab, J.T., Brazdil, J.F., and Green, W.H., Appl. Catal., A, 2006, vol. 303, no. 2, pp. 177–191.
Licht, R.B., Vogt, D., and Bell, A.T., J. Catal., 2016, vol. 339, pp. 228–241.
Spenger, P., Kleist, W., and Grunwaldt, J.-D., ACS Catal., 2017, vol. 7, no. 9, pp. 5628–5642.
Moro-Oka, Y. and Ueda, W., Adv. Catal., 1994, vol. 40, pp. 233–273.
Moro-Oka, Y., Ueda, W., and Lee, K.-H., J. Mol. Catal. A: Chem., 2003, vol. 199, nos. 1–2, pp. 139–148.
Liu, L., Ye, X.P., and Bozell, J.J., ChemSusChem, 2012, vol. 5, no. 7, pp. 1162–1180.
US Patent 2941007A, 1960.
US Patent 3497461A, 1970.
US Patent 4148757A, 1979.
US Patent 4537874A, 1985.
WO Patent 2007042369A1, 2006.
Arntz, D., Fischer, A., Höpp, M., Jacobi, S., Sauer, J., Ohara, T., Sato, T., Shimizu, N., and Schwind, H., in Ullmann’s Encyclopedia of Industrial Chemistry, Weinheim: Wiley-VCH, 2007, pp. 329–346.
Carson, D., Coudurier, G., Forissier, M., Vedrine, J.C., Laarif A. and Theobald F. J. Chem. Soc., Faraday Trans. 1, 1983, vol. 79, pp. 1921−1929.
Jung, J.C., Kim, H., Choi, A.S., Chung, Y.-M., Kim, T.J., Lee, S.J., Oh, S.-H., and Song, I.K., J. Mol. Catal. A: Chem., 2006, vol. 259, nos. 1–2, pp. 166–170.
Briand, L.E., Hirt, A.M., and Wachs, I.E., J. Catal., 2001, vol. 202, no. 2, pp. 268–278.
Le, M.T., Van Well, W.J.M., Van Driessche, I., and Hoste, S., Appl. Catal., A, 2004, vol. 267, nos. 1–2, pp. 227–234.
Le, M.T., Van Craenenbroeck, J., Van Driessche, I., and Hoste, S., Appl. Catal., A, 2003, vol. 249, no. 2, pp. 355–364.
Le, M.T., Van Well, W.J.M., Van Driessche, I., and Hoste, S., Can. J. Chem. Eng., 2005, vol. 83, no. 2, pp. 336–343.
Galván, D.H., Fuentes, S., Avalos-Borja, M., Cota-Araiza, L., Cruz-Reyes, J., Early, E.A., and Maple, M.B., Catal. Lett., 1993, vol. 18, no. 3, pp. 273–281.
Jang, M., Lee, H., Lee, J., and Park, Y., Jpn. J. Appl. Phys., 1985, vol. 24, pp. 611–612.
Ghule, A.V., Ghule, K.A., Tzing, S.-H., Chang, J.-Y., Chang, H., and Ling, Y.-C., Chem. Phys. Lett., 2004, vol. 383, nos. 1–2, pp. 208–213.
Le, M.T., Bac, L.H., Van Driessche, I., Hoste, S., and Van Well, W.J.M., Catal. Today, 2008, vol. 131, nos. 1–4, pp. 566–571.
Jo, B.Y., Kim, E.J., and Moon, S.H., Appl. Catal., A, 2007, vol. 332, no. 2, pp. 257–262.
Belver, C., Adán, C., and Fernández-García, M., Catal. Today, 2009, vol. 143, nos. 3–4, pp. 274–281.
Nell, A., Getsoian, A.B., Werner, S., Kiwi-Minsker, L., and Bell, A.T., Langmuir, 2014, vol. 30, no. 3, pp. 873–880.
Tonelli, M., Aouine, M., Massin, L., Belliere Baca, V., and Millet, J.M.M., Catal. Sci. Technol., 2017, vol. 7, no. 20, pp. 4629–4639.
Jpn. Patent 44013130, 1969.
Keulks, G.W., Yu, Z., and Krenzke, L.D., J. Catal., 1983, vol. 84, no. 1, pp. 38–44.
Carbucicchio, M., Centi, G., Forzatti, P., Trifirò, F., and Villa, P.L., J. Catal., 1987, vol. 107, no. 2, pp. 307–316.
Allen, M., Betteley, R., Bowker, M., and Hutchings, G.J., Catal. Today, 1991, vol. 9, nos. 1–2, pp. 97–104.
Zhao, C. and Wachs, I.E., Catal. Today, 2006, vol. 118, nos. 3–4, pp. 332–343.
Zhao, C. and Wachs, I.E., J. Phys. Chem. C, 2008, vol. 112, no. 30, pp. 11363–11372.
Tüysüz, H., Galilea, J.L., and Schüth, F., Catal. Lett., 2009, vol. 131, pp. 49–53.
Reitz, J.B. and Solomon, E.I., J. Am. Chem. Soc., 1998, vol. 120, no. 44, pp. 11467–11478.
Belin, S., Bracey, C.J., Briois, V., Ellis, P.R., Hutchings, G.J., Hyde, T.I., and Sankar, G., Catal. Sci. Technol., 2013, vol. 3, no. 11, pp. 2944–2957.
Lai, N.-C., Tsai, M.-C., Liu, C.-H., Chen, C.-S., and Yang, C.-M., J. Catal., 2018, vol. 365, pp. 411–419.
Rietz, J.B. and Solomon E.I. JACS, 1998, vol. 120, pp. 11487–11488.
Bøyesen, K.L., Kristiansen, T., and Mathisen, K., Catal. Today, 2015, vol. 254, pp. 21–28.
Song, W., Perez Ferrandez, D.M., van Haandel, L., Liu, P., Nijhuis, T.A., and Hensen, E.J.M., ACS Catal., 2015, vol. 5, no. 2, pp. 1100–1111.
Marimuthu, A., Zhang, J., and Linic, S., Science, 2013, vol. 339, no. 6127, pp. 1590–1593.
Vaughan, O.P.H., Kyriakou, G., Macleod, N., Tikhov, M., and Lambert, R.M., J. Catal., 2005, vol. 236, no. 2, pp. 401–404.
Yu, J.S. and Kevan, L., J. Phys. Chem., 1991, vol. 95, no. 8, pp. 3262–3271.
Liu, C.-H., Lai, N.-C., Lee, J.-F., Chen, C.-S., and Yang, C.-M., J. Catal., 2014, vol. 316, pp. 231–239.
Suo, Z., Jin, M., Lu, J., Wei, Z., and Li, C., J. Nat. Gas Chem., 2008, vol. 17, no. 2, pp. 184–190.
Bracey, C.L., Carley, A.F., Edwards, J.K., Ellis, P.R., and Hutchings, G.J., Catal. Sci. Technol., 2011, vol. 1, no. 1, pp. 76–85.
Bøyesen, K.L., Kristiansen, T., and Mathisen, K., Phys. Chem. Chem. Phys., 2014, vol. 16, no. 38, pp. 20451–20463.
Chieregato, A., Soriano, M.D., Basile, F., Liosi, G., Zamora, S., Concepción, P., Cavani, F., and López Nieto, J.M., Appl. Catal., B, 2014, vols. 150–151, pp. 37–46.
Omata, K., Matsumoto, K., Murayama, T., and Ueda, W., Catal. Today, 2015, vol. 259, part 1, pp. 205–212.
US Patent 7345198 B2, 2008.
US Patent 7524987 B2, 2009.
Landi, G., Lisi, L., and Russo, G., J. Mol. Catal. A: Chem., 2005, vol. 239, nos. 1–2, pp. 172–179.
Li, W., Oshihara, K., and Ueda, W., Appl. Catal., A, 1999, vol. 182, no. 2, pp. 357–363.
Dimitratos, N. and Védrine, J.C., Appl. Catal., A, 2003, vol. 256, nos. 1–2, pp. 251–263.
Mizuno, N., Tateishi, M., and Iwamoto, M., Appl. Catal., A, 1995, vol. 128, no. 2, pp. L165–L170.
US Patent 5380933, 1995.
Ishikawa, S., Yi, X., Murayama, T., and Ueda, W., Catal. Today, 2014, vol. 238, pp. 35–40.
Chen, L., Derouane, E.G., and Védrine, J.C., Appl. Catal., A, 2004, vol. 270, nos. 1–2, pp. 157–163.
Chen, L., Liang, J., Lin, H., Weng, W., Wan, H., and Védrine, J.C., Appl. Catal., A, 2005, vol. 293, pp. 49–55.
Jo, B.Y., Kum, S.S., and Moon, S.H., Appl. Catal., A, 2010, vol. 378, no. 1, pp. 76–82.
Grasselli, R.K., Buttrey, D.J., DeSanto Jr., P., Burrington, J.D., Lugmair, C.G., Volpe Jr., A.F., and Weingand, T., Catal. Today, 2004, vols. 91–92, pp. 251–258.
Baca, M., Aouine, M., Dubois, J.L., and Millet, J.M.M., J. Catal., 2005, vol. 233, no. 1, pp. 234–241.
Hävecker, M., Wrabetz, S., Kröhnert, J., Csepei, L.-I., d’Alnoncourt, R.N., Kolen’ko, Yu.V., Girgsdies, F., Schlögl, R., and Trunschke, A., J. Catal., 2012, vol. 285, no. 1, pp. 48–60.
Grasselli, R.K., Catal. Today, 2005, vol. 99, nos. 1–2, pp. 23–31.
Watanabe, N. and Ueda, W., Ind. Eng. Chem. Res., 2006, vol. 45, no. 2, pp. 607–614.
Sadacane, M., Kadoto, K., Kuranishi, T., Nodasaka, Y., Sugavara, K., Sakaguchi, N., Nagai, T., Matsui, Y., and Ueda, W., Angew. Chem., Int. Ed. Engl., 2008, vol. 47, no. 13, pp. 2493–2496.
Ueda, W., Sadacane, M., and Ogihara, H., Catal. Today, 2008, vol. 132, nos. 1–4, pp. 2–8.
Kubo, J., Watanabe, N., and Ueda, W., Chem. Eng. Sci., 2008, vol. 63, no. 6, pp. 1648–1653.
Vitry, D., Morikawa, Y., Dubois, J.L., and Ueda, W., Top. Catal., 2003, vol. 23, nos. 1–4, pp. 47–53.
Deniau, B., Bergeret, G., Jouguet, B., Dubois, J.L., and Millet, J.M.M., Top. Catal., 2008, vol. 50, nos. 1–4, pp. 33–42.
d’Alnoncourt, R.N., Csepei, L.-I., Hävecker, M., Girgsdies, F., Schuster, M.E., Schlögl, R., and Trunschke, A., J. Catal., 2014, vol. 311, pp. 369–385.
Tompos, A., Sanchez-Sanchez, M., Végvári, L., Szijjártó, G.P., Margitfalvi, J.L., Trunschke, A., Schlögl, R., Wanninger, K., and Mestl, G., Catal. Today, 2019. https://doi.org/10.1016/j.cattod.2019.03.047
Ishchenko, E.V., Popova, G.Ya., Kardash, T.Yu., Ishchenko, A.V., Plyasova, L.M., and Andrushke-vich, T.V., Catal. Sustainable Energy, 2013, vol. 1, pp. 75–81.
US Patent 7718568 B2, 2010.
CN Patent 101279252, 2008.
RF Patent 2480280, 2013.
RF Patent 2495024, 2013
RF Patent 2495720, 2013.
Grasselli, R.K., Lugmair, C.G., Volpe Jr., A.F., Andersson, A., and Burrington, J.D., Catal. Today, 2010, vol. 157, nos. 1–4, pp. 33–38.
Xu, A., Wang, Y., Ge, H., Chen, S., Li, Y., and Lu, W., Chin. J. Catal., 2013, vol. 34, no. 12, pp. 2183–2191.
Mestl, G., Margitfalvi, J.L., Végvári, L., Szijjártó, G.P., and Tompos, A., Appl. Catal., A, 2014, vol. 474, pp. 3–9.
Hibst, H., Rosowski, F., and Cox, G., Catal. Today, 2006, vol. 117, nos. 1–3, pp. 234–241.
Shiju, N.R. and Guliants, V.V., Prepr. - Am. Chem. Soc., Div. Pet. Chem., 2007, vol. 52, no. 1.
Deniau, B., Millet, J.M.M., Loridant, S., Christen, N., and Dubois, J.L., J. Catal., 2008, vol. 260, no. 1, pp. 30–36.
DE Patent 102011109774, 2012.
DE Patent 102011109816, 2012.
US Patent 9073036, 2012.
Funding
This work was performed as part of a State Task for the Boreskov Institute of Catalysis (Siberian Branch, Russian Academy of Sciences, Novosibirsk, Russia), project no. AAAA–A17–117041710077–4.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated by V. Glyanchenko
Rights and permissions
About this article
Cite this article
Pinaeva, L.G., Noskov, A.S. Prospects for the Development of Catalysts for the Oxidation Processes of Advanced Propylene Processing. Catal. Ind. 12, 176–200 (2020). https://doi.org/10.1134/S2070050420030095
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S2070050420030095