| [1] 李斌, 李士杰, 李能, 等. FCC 催化剂中REHY型分子筛的结构与酸性[J]. 催化学报, 2005,26(4):301-306[2] 于善青, 田辉平, 代振宇, 等. La 或 Ce 增强 Y 型分子筛结构稳定性的机制[J]. 催化学报, 2010, 31(10):1263-1270[3] 于善青, 田辉平, 代振宇, 等. 稀土离子调变Y分子筛结构稳定性和酸性的机制[J]. 物理化学学报, 2011, 27 (11), 2528-2534[4] 孙书红, 庞新梅, 郑淑琴, 等. 稀土超稳Y型分子筛催化裂化催化剂的研究[J]. 石油炼制与化工, 2001, 32 (6): 25-28[5] 刘秀梅, 韩秀文, 包信和. 稀土在催化裂化催化剂中的抗钒作用Ⅱ.稀土的抗钒机理[J]. 石油学报(石油加工), 1999, 15(4): 39-45[6] Baillie C, Schiller R. The development of rare-earth free FCC catalysts [J]. Catalagram, 2011,109:17-20[7] Ray Fletcher. Catalyst additives reduce rare earth costs [J]. Petroleum Technology Quarterly, Q1 2012: 81-83[8] Ron Colwell, David Hunt, Doug Jergenson. Alternatives to area earth – commercial evaluation of REpLaCeRTM FCC catalysts at montana refining company [C]. NPRA Annual Meeting, AM-12-29, San Diego, CA, 2012[9] Schiller R. Grace Davison’s GENESIS catalysts system provide refiners economic opportunities [J]. Catalagram, 2010, 107: 4-6.[10] Kramer A. Avoiding the low sulfur diet new catalystic ways to cost-effectively reduce product sulfur and SOX emissions[C]. NPRA Annual Meeting, AM-11-04, San Antonio, 2011[11] Yen Yung, Ken Bruno. Low rare earth catalysts for FCC operations[J]. Petroleum Technology Quarterly, Q1 2012: 71-79 |
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