Publications
[1] Jiantao Li, Xiuying Yao*, Lu Liu, ChunxiLu*. Investigation on distribution of particles in inlet region of an FCC external catalyst cooler with different inlet structures. Powder Technology, 2020, 362:267-277.
[2] 李建涛, 姚秀颖*, 刘璐, 卢春喜*. 催化裂化外取热器入口区域催化剂分布及优化, 过程工程学报, 2020-01-14.
[3] 傅梦倩, 姚秀颖, 范怡平, 卢春喜. 双层喷嘴提升管进料区内气固流动特性的数值模拟. 过程工程学报, 2019-11-28
[4] 姚秀颖, 卢春喜. 催化裂化再生催化剂取热技术研究进展. 石油学报(石油加工). 2018; 02(02): 217-28.
[5] Xiuying Yao,Yongmin Zhang,Chunxi Lu,Dongsheng Wen,CFD investigation of gas-solids flow in a new fluidized catalyst cooler,Powder Technology,2016.12.01,304:108~119
[6] Xiuying Yao,Yongmin Zhang ,Chunxi Lu,Xiao Han,Investigation of the heat transfer intensification mechanism for a new fluidized catalyst cooler ,AIChE Journal,2015.8.01,61(8):2415~2427
[7] Xiuying Yao,Yongmin Zhang ,Chunxi Lu ,Xiao Han,Systematic study on heat transfer and surface hydrodynamics of a vertical heat tube in a fluidized bed of FCC particles,AIChE Journal,2015.1.01,61(1):68~83
[8] Xiuying Yao,Fuwei Sun,Yongmin Zhang ,Chunxi Lu,Experimental validation of a new heat transfer intensification method for FCC external catalyst coolers,Chemical Engineering and Processing,2014.1.01,75:19~30
[9] Xiuying Yao,Yanjun Guan,Jian Chang,Kai Zhang,Jianchun Jiang,Computational investigation of contraction behavior in a liquid-solid fluidized bed,Petroleum Science,2012.3.01,9(1):93~99