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• W2149693369 abstract "AIChE JournalVolume 52, Issue 12 p. 4276-4279 Reactors, Kinetics and Catalysis Partial oxidation of methane to syngas over nickel monolithic catalysts Yunhua Li, Yunhua Li Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorYaquan Wang, Corresponding Author Yaquan Wang [email protected] Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaKey Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorXuebin Hong, Xuebin Hong Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorZhaoguang Zhang, Zhaoguang Zhang Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorZhiping Fang, Zhiping Fang Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorYu Pan, Yu Pan Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorYanbo Lu, Yanbo Lu Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorZhongqi Han, Zhongqi Han Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this author Yunhua Li, Yunhua Li Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorYaquan Wang, Corresponding Author Yaquan Wang [email protected] Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaKey Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorXuebin Hong, Xuebin Hong Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorZhaoguang Zhang, Zhaoguang Zhang Key Laboratory of Green Chemical & Technology, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, P.R. of ChinaSearch for more papers by this authorZhiping Fang, Zhiping Fang Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorYu Pan, Yu Pan Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorYanbo Lu, Yanbo Lu Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this authorZhongqi Han, Zhongqi Han Science & Technology Development Center, China Petroleum & Chemical Corporation (SINOPEC), Beijing 100029, P.R. of ChinaSearch for more papers by this author First published: 10 October 2006 https://doi.org/10.1002/aic.11016Citations: 23Read the full textAboutPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShare Give accessShare full text accessShare full-text accessPlease review our Terms and Conditions of Use and check box below to share full-text version of article.I have read and accept the Wiley Online Library Terms and Conditions of UseShareable LinkUse the link below to share a full-text version of this article with your friends and colleagues. Learn more.Copy URL Share a linkShare onEmailFacebookTwitterLinkedInRedditWechat Literature Cited 1 Choudhary VR, Mamman AS. Oxidative conversion of methane to syngas over NiO/MgO solid solution supported on low surface area catalyst carrier. Fuel Process Technol. 1999; 60: 203–211. 2 Choudhary VR, Mamman AS, Uphade BS. Steam and oxysteam reforming of methane to syngas over CoxNi1-xO supported on MgO precoated SA-5205. AIChE J. 2001; 47: 1632–1638. 3 Claridge JB, York APE, Brungs AJ, Marquez-Alvarez C, Sloan J, Tsang SC, Green MLH. New catalysts for the conversion of methane to synthesis gas: molybdenum and tungsten carbide. J Catal. 1998; 180: 85–100. 4 Hickman DA, Schmidt LD. Production of syngas by direct catalytic oxidation of methane. Science. 1993; 259: 343–346. 5 Torniainen PM, Chu X, Schmidt LD. Comparison of monolith-supported metals for the direct oxidation of methane to syngas. J Catal. 1994; 146: 1–10. 6 Li ZH, Zhang XY, He F, Xu GH. Catalytic stability of Ni catalyst for partial oxidation of methane to syngas. Preprint of ACS Fuel Symposia. 2002; 47: 335–336. 7 Kim P, Kim Y, Kim H, Song IK, Yi J. Synthesis and characterization of mesoporous alumina with nickel incorporated for use in the partial oxidation of methane into synthesis gas. Appl Catal A: Gen. 2004; 272: 157–166. 8 Wu T, Yan Q, Wan H. Partial oxidation of methane to hydrogen and carbon monoxide over a Ni/TiO2 catalyst. J Mol Catal A: Chem. 2005; 226: 41–48. 9 Passos FB, De Oliveira ER, Mattos LV, Noronha FB. Partial oxidation of methane to synthesis gas on Pt/CexZr1-xO2 catalysts: the effect of the support reducibility and of the metal dispersion on the stability of the catalysts. Catal Today. 2005; 101: 23–30. 10 Pengpanich S, Meeyoo V, Rirksomboon T. Methane partial oxidation over Ni/CeO2-ZrO2 mixed oxide solid solution catalysts. Catal Today. 2004; 93–95: 95–105. 11 Wang YQ. Autothermal Oxidation of Natural Gas into Syngas at High GHSV. Chinese Patent ZL. 2003: 03101191.8. 12 Wang YQ, Hou YJ, Qi ST. Partial oxidation of methane over monolithic to syngas autothermally catalysts. J Combustion Sci Techn. 2001; 7: 105–109. 13 Takeguchi T, Furukawa S, Inoue M. Hydrogen spillover from NiO to the large surface area CeO2-ZrO2 solid solutions and activity of the NiO/CeO2-ZrO2 catalysts for partial oxidation of methane. J Catal. 2001; 202: 14–24. 14 Guo C, Zhang J, Li W, Zhang P, Wang Y. Partial oxidation of methane to syngas over BaTi1-xNixO3 catalysts. Catal Today. 2004; 98: 583–587. 15 Sahli N, Petit C, Roger AC, Kiennemann A, Libs S, Bettahar M.M. Ni catalysts from NiAl2O4 spinel for CO2 reforming of methane. Catal Today. 2006; 113: 187–193. 16 Verykios XE. Catalytic dry reforming of natural gas for the production of chemicals and hydrogen. Int J Hydrogen Energy. 2003; 28: 1045–1063. 17 Kundakovic LJ, Flytzani-Stephanopoulos M. Cu- and Ag-modified cerium oxide catalysts for methane oxidation. J Catal. 1998; 179: 203–221. Citing Literature Volume52, Issue12December 2006Pages 4276-4279 ReferencesRelatedInformation" @default.
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