Yunfei Cui
Chinese Ministry of Education
7 Papers
Yunfei Cui is an academic researcher from Chinese Ministry of Education. The author has contributed to research in topics: Computer science & Optimization problem. The author has an hindex of 4, co-authored 5 publications. Previous affiliations of Yunfei Cui include Beijing University of Chemical Technology.
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Papers
Review: Multi-objective optimization methods and application in energy saving
Yunfei Cui,Yunfei Cui,Zhiqiang Geng,Zhiqiang Geng,Qunxiong Zhu,Qunxiong Zhu,Yongming Han,Yongming Han +7 more
TL;DR: In order to get the final optimal solution in the real-world multi-objective optimization problems, trade-off methods including a priori methods, interactive methods, Pareto-dominated methods and new dominance methods are utilized.
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CBM Desorption Model and Stages Based on a Natural Desorption Experiment
TL;DR: In this paper , the authors established a coalbed methane desorption model, quantitatively identified the CBM desorptions stages, and discussed the relationship between CBM gas content and well productivity.
7
Response and Mechanism of Coal Fine Production to Differential Fluid Action in the Baode Block, Ordos Basin
Boyang Wang,Yunfei Cui,Jingjing Li,Junjian Zhang,Long Bai,Liu Wang +5 more
TL;DR: Research reveals the response and mechanism of coal fine production to differential fluid action in the Baode Block, Ordos Basin, showing varying pore patterns, optimal salinity for reservoir sensitivity enhancement, and mechanical-chemical effects on coal reservoir damage.
1
Novel competing evolutionary membrane algorithm based on multiple reference points for multi-objective optimization of ethylene cracking processes
Di Cong,Di Cong,Chunjing Shi,Chunjing Shi,Yunfei Cui,Yunfei Cui,Yongming Han,Yongming Han,Zhiqiang Geng,Zhiqiang Geng +9 more
TL;DR: A reference point based competing evolutionary membrane algorithm is proposed, helping chemical processes realize products amount improvement, energy saving and emission reduction, and applying the algorithm to realize the multi-objective optimization of the ethylene cracking process.