[1] PAPOULIAS S A, GROSSMAN I E. A structural optimization of approach in process synthesis.Ⅰ: utility systems [J]. Computers and Chemical Engineering, 1983, 7(6): 695-706.
[2] BRUNO J C, FERNANDEZ F, GROSSMAN I E. A rigorous MINLP model for the optimal synthesis and operation of utility plants [J]. Chemical Engineering Research and Design, 76 (Part A): 246-258.
[3] MAVROMATIS S P, KOKOSSIS A C. Conceptual optimization of utility networks for operational variations: Ⅰ. targets and level optimization [J]. Chemical Engineering Science, 1998, 53(8): 1585-1608.
[4] MAVROMATIS S P, KOKOSSIS A C. Conceptual optimization of utility networks for operational variations: Ⅱ. network development and optimization [J]. Chemical Engineering Science, 1998, 53(8): 1609-1630.
[5] HUI C W, NATORI Y. An industrial application using mixedinteger programming technique: a multiperiod utility system model [J]. Computers and Chemical Engineering, 1996, 20(supplement): S1577-S1582.
[6] IYER R R, GROSSMAN I E. Synthesis and operational planning of utility systems for multiperiod operation [J]. Computers and Chemical Engineering, 1998, 22(7/8): 979-993.
[7] YOKOYAMA R, HASEGAWA Y, ITO K. A MILP decomposition approach to large scale optimization in structural design of energy supply systems [J]. Energy Conversion and Management, 2002, 43(6): 771-790.
[8] 贺阿特,冯霄,隋新华,等.蒸汽动力系统可调节性分析[J].热能动力工程,2000,15(87): 226-228.
HE Ate, FENG Xiao, SUI Xinhua, et al. An analysis of the regulation possibility of steam power systems [J]. Journal of Engineering for Thermal Energy and Power, 2000, 15(87): 226-228.
[9] 鄢烈祥,胡晟华,麻德贤.锅炉蒸汽系统多操作周期的优化调度[J].化工学报,2003,54(12): 1708-1712.
YAN Liexiang, HU Shenghua, MA Dexian. Optimal multiperiod operational planning for boiler steam systems [J]. Journal of Chemical Industry and Engineering (China), 2003, 54(12): 1708-1712.
[10] ZHANG B J, HUA B. Effective MILP model for oil refinerywide production planning and better energy utilization [J]. Journal of Cleaner Production, 2007, 15(5): 439-448.
[11] 戴文智,尹洪超,池晓.改进PSO算法在蒸汽动力系统多周期运行优化中的应用[J].化工学报,2009,60(1): 112-117.
DAI Wenzhi, YIN Hongchao, CHI Xiao. Optimal multiperiod operational planning of steam power systems using improved particle swarm optimization method [J]. Journal of Chemical Industry and Engineering (China), 2009, 60(1): 112-117.
[12] 罗向龙,华贲.石化企业蒸汽动力系统柔性设计[J].化工学报,2009, 60(4): 936-944.
LUO Xianglong, HUA Ben. Synthesis and design of flexible steam power system [J]. CIESC Journal, 2009, 60(4): 936-944.
[13] PAPALEXANDRI K P, PISTIKOPOULOS E N, KALITVENTZEFF B, et al. Operation of a steam production network with variable demands modeling and optimization under certainty [J]. Computers and Chemical Engineering, 1996, 20(supplement): S763-S768.
[14] KATERINA P, EFSTRATIOS N, PISTIKOPOULOS B, et al. Modeling and operation aspects in energy management and plant operation with variable energy demandsapplication to industrial problems [J]. Computers and Chemical Engineering, 1998, 22(9): 1319-1333.
[15] 罗向龙,陈颖,华贲.参数不确定性条件下蒸汽动力系统的运行优化[J].石油学报(石油加工),2009,25(2): 233-240.
LUO Xianglong, CHEN Ying, HUA Ben. Operational planning optimization of utility system under parameters uncertainty [J]. Acta Petrol Ei Sinica (Petrol Eum Processing Section), 2009, 25(2): 233-240.
[16] SHANG Z, KOKOSSIS A. A transshipment model for the optimization of steam levels of total site utility system for multiperiod operation [J]. Computers and Chemical Engineering, 2004, 28(9): 1673-1688.
[17] SHANG Z, KOKOSSIS A. A systematic approach to the synthesis and design of flexible utility systems [J]. Chemical Engineering Science, 2005, 60(16): 4431-4451.
[18] RAMIK J, RIMANEK J. Inequality relation between fuzzy numbers and its use in fuzzy optimization [J]. Fuzzy Sets and Systems, 1985, 16(2): 123-138.
[19] LAI Y J, HWANG C L. A new approach to some possibilistic linear programming problems [J]. Fuzzy Sets and Systems, 1992, 49(2): 121-133.
[20] 孙增圻.智能控制理论与技术[M].北京:清华大学出版社,1997: 16-114.
[21] FANG S C, HU C F, WANG H F. Linear programming with fuzzy coefficients in constraints [J]. Computers and Mathematics with Applications, 1999, 37(10): 63-76.
[22] INUIGUCHI M, RAMIK J. Possibilistic linear programming: a brief review of fuzzy mathematical programming and a comparison with stochastic programming in portfolio selection problem [J]. Fuzzy Sets and Systems, 2000, 111(1): 3-28.
[23] LI W K, HUI C W. Applying marginal value analysis in refinery planning [J]. Chemical Engineering Communications, 2007, 194(7): 962-974. |