[1] 徐海珠,崔国民,万义群,等. 换热网络全局优化的多维峰谷轮换法[J]. 能源研究与信息,2014,30(1):43-47. [2] 肖媛,崔国民,李帅龙. 一种新的用于换热网络全局优化的强制进化随机游走算法[J]. 化工学报,2016,67(12):5140-5147. [3] 胡向柏,崔国民,涂惟民,等. 复杂换热网络MINLP中的非线性特性分析[J]. 工程热物理学报,2012,33(2):285-287. [4] 包艳冰,崔国民,肖媛,等. 极大值极小值交替优化算法实现换热网络全局热集成[J]. 化工进展,2017,36(2):426-434. [5] 周聪海,黄智贤,邱挺,等. 随机搜索算法在换热网络优化中的应用进展[J]. 化工进展,2012,3(1):495-501. [6] LEWIN D R,WANG H,SHALEV O,et al. A generalized method for HEN synthesis using stochastic optimization I:General framework and MER optimal synthesis[J]. Computers and Chemical Engineering,1998,22(10):1503-1513. [7] BAO Zhongkai,CUI Guomin,XIAO Yuan,et al. Global optimization of heat exchanger network based on structure diversity evaluation[J]. Chinese Journal of Computation Physics,2019,36(2):225-235. [8] LOTFI R,BOOZARJOMEHRY R B. Superstructure optimization in heat exchanger network (HEN) synthesis using modular simulators and a genetic algorithm framework[J]. Industrial and Engineering Chemistry Research,2010,49(10):4731-4737. [9] YERRMSETTY K M,MURTY C V S. Synthesis of cost-optimal heat exchanger networks using differential evolution[J]. Computers and Chemical Engineering,2008,32(8):1861-1876. [10] LIN B,MILLER D C. Solving heat exchanger network synthesis problems with Tabu search[J]. Computers and Chemical Engineering,2004,28(8):1451-1464. [11] SILVA A P,RAVAGNANI M A S S,BISCAIA E C. Particle swarm optimisation applied in retrofit of heat exchanger networks[J]. Computer Aided Chemical Engineering,2009,27:1035-1040. [12] DOLAN W,COMMINGS P,LEVAN M. Process optimization via simulated annealing:Application to network design[J]. AIChE Journal,1989,35(5):725-726. [13] BLACKWELL T M. Particle swarms and population diversity[J]. Soft Computing,2005,9(11):793-802. [14] LI Shuailong,CUI Guomin,CHEN Jiaxing,et al. An improved particle swarm optimization based on diversity monitor and real-time updating strategy[J]. Chinese Journal of Computation Physics,2017,34(3):344-354. [15] 肖媛,崔国民,彭富裕,等. PSO用于优化换热网络时对全局搜索能力的研究[J]. 热能动力工程,2016,36(01):20-26+128. [16] 何巧乐,崔国民,徐海珠. 基于新策略粒子群算法优化换热网络[J]. 化工学报,2014,65(S1):391-397. [17] LI Jian,CUI Guomin,CHEN Jiaxing,et al. Simultaneous synthesis of heat exchanger network by random walk algorithm with compulsive evolution based on trilelve protection strategy[J]. Chinese Journal of Computation Physics,2019,36(1):69-79. [18] TEE T F,GROSSMANN I E. Simultaneous optimization models for heat integration Ⅱ:Heat exchanger network synthesis[J]. Computers and Chemical Engineering,1990,14(10):1165-1184. [19] TRIVEDI K K,O'NEILL B K,ROACHR M, WOOD J R. A new dual-temperature design method for the synthesis of heat exchanger networks[J]. Computers & Chemical Engineering,1989,13(6):667-685. [20] REV E,FONYO Z. Diverse pinch concept for heat exchange network synthesis:The case of different heat transfer conditions[J]. Chemical Engineering Science,1991,46(7):1535-1882. [21] YERRAMSETTY K M, TURTY C V S. Synthesis of cost-optimal heat exchanger networks using differential evolution[J]. Computers and Chemical Engineering,2008,32(8):1861-1876. [22] DANIELI R Lewin. A generalized method for HEN synthesis using stochastic optimization Ⅱ[J]. Computers and Chemical Engineering,1998,22(10):1387-1405. [23] Nú1EZ-SERNA R I, ZRMORA J M. NLP model and stochastic multi-start optimization approach for heat exchanger networks[J]. Applied Thermal Engineering,2016,94:458-471. [24] PAVO L V,COSTA C B B,RAVAGNANI M A S S. Heat exchanger network synthesis without stream splits using parallelized and simplified annealing and particle swarm optimization[J]. Chemical Engineering Science,2017,158:96-107. |