Greenlee L, Lawler D, Freeman B, Marrot B, Moulin P. Reverse osmosis desalination: water sources, technology, and today's challenges [J]. Water Research, 2009, 43 (9): 2317-2348.
[2]
Fritzmann C, Lowenberg J, Wintgens T, Melin T. State-of-the-art of reverse osmosis desalination [J]. Desalination, 2007, 216 (1-3): 1-76.
[3]
Zheng Cheng (郑成).membrane fouling and prediction [J]. Membrane Science and Technology (膜科学与技术), 1997, 17 (2): 5-14.
[4]
Sioutopoulous D C, Yiantsios S G, Ksrabelas A J. Relation between fouling characteristics of RO and UF membranes in experiments with colloidal organic and inorganic species [J]. Journal of Membrane Science 2010, 350 (1/2): 62-82.
[5]
Jacob J, Prádanos P, Calvo J I, Hernández A, Jonsson G. Fouling kinetics and associated dynamics of structural modifications [J]. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 1998, 138 (2): 173-183.
[6]
Tansel B, Bao W Y, Tansel I N. Characterization of fouling kinetics in ultrafiltration systems by resistances in series model [J]. Desalination, 2000, 129 (1): 7-14.
[7]
Wu Jun, He Chengda, Zhang Yaping. Modeling membrane fouling in a submerged membrane bioreactor by considering the role of solid, colloidal and soluble components [J]. Journal of Membrane Science, 2012, 397: 102-111.
[8]
Kostoglou M, Karabelas A J. A mathematical study of the evolution of fouling and operating parameters throughout membrane sheets comprising spiral wound modules [J]. Chemical Engineering Journal, 2012, 187: 222-231.
[9]
Scrivani A. Energy management and DSM techniques for a PV-diesel powered seawater reverse osmosis desalination plant in Ginostra, Sicily [J]. Desalination, 2005, 183 (1/2/3): 63-72.
[10]
Kim Y, Kim S, Lee S, Kim I, Kim J.Overview of systems engineering approaches for a large-scale seawater desalination plant with a reverse osmosis network [J]. Desalination, 2009, 238 (1/2/3): 312-332.
[11]
Lee S Y, Ang W S. Menachem Elimelech. Fouling of reverse osmosis membranes by hydrophilic organic matter: implications for water reuse [J]. Desalination, 2006,187 (1): 313-321.
[12]
Peiris R H, Budman H, Moresoli C, Legge R L. Fouling control and optimization of a drinking water membrane filtration process with real-time model parameter adaption using fluorescence and permeate flux measurement [J]. Journal of Process Control, 2013, 23 (1): 70-77.
[13]
Ma Rui (马蕊), Zhang Pan (张盼), Sun Wei (孙伟), Nie Guoxin (聂国欣), Li Wei (李薇).Improvement of reverse osmosis membrane fouling prediction model [J]. Environmental Protection of Chemical Industry (化工环保), 2012, 32 (2): 133-136.
[14]
See H J, Vassiliadis V S. Optimisation of membrane regeneration scheduling in reverse osmosis networks for seawater desalination [J]. Desalination, 1999, 125 (1/2/3): 37-54.
[15]
El-Halwagi M M. Synthesis of reverse osmosis networks for waste reduction [J]. AIChE J, 1992, 38: 1185-1198.
[16]
Voros N G, Maroulis Z B. Optimization of reverse osmosis networks for seawater desalination [J]. Comp. Chem. Eng., 1996, 20 (1): 345-350.
[17]
Lu YY, Hu YD, Xu D M, Wu L Y. Optimum design of reverse osmosis seawater desalination system considering membrane cleaning and replacing [J]. Journal of Membrane Science, 2006, 282 (1/2): 7-13.
[18]
Lu Y Y, Hu Y D, Zhang X L, Wu L Y, Liu Q Z. Optimum design of reverse osmosis system under different feed concentration and product specification [J]. Journal of Membrane Science, 2007,287 (2): 219-229.
[19]
Lu Yanyue (卢彦越). Study on the optimization design of seawater desalination processes by reverse osmosis membrane method [D]. Qingdao: Ocean University of China, 2007.
[20]
Abbas A.Simulation and analysis of an industrial water desalination plant [J]. Chemical Engineering and Processing, 2005, 44 (9): 999-1004.
[21]
Wilf M, Bartels C. Optimization of seawater RO systems design [J]. Desalination, 2005,173 (1): 1-12.
[22]
Geraldes V, Pereira N E, Pinho M N. Simulation and optimization of medium-sized seawater reverse osmosis processes with spiral-wound modules [J]. Ind. Eng. Chem. Res., 2005, 44 (6): 1897-1905.
[23]
Sassi K M, Mujtaba I M. Optimal operation of RO system with daily variation of fresh water demand and seawater temperature [J]. Chem. Eng., 2013, 59: 101-110.
[24]
Jiang Aipeng (江爱朋), Cheng Wen (程文), Wang Jian (王剑), Xing Changxin (邢长新), Ding Qiang (丁强), Jiang Zhoushu (姜周曙). Operational optimization of full flowsheet spiral-wound seawater reverse osmosis system [J]. CIESC Journal (化工学报), 2014, 65 (4): 1333-1343.
[25]
See H J, Vassiliadis V S, Wilson D I. Optimisation of membrane regeneration scheduling in reverse osmosis networks for seawater desalination [J]. Desalination, 1999, 125 (1-3): 37-54.
[26]
Biegler L T. Nonlinear Programming: Concepts, Algorithms and Applications to Chemical Processes [M]. Pittsburgh: Society for Industrial and Applied Mathematics (Cambridge University Press), 2010.
[27]
Jiang A P, Wang J,Cheng W, Xing C X, Jiang Z S. A dynamic optimization strategy for the operation of large scale seawater reverses osmosis system [J]. Mathematical Problems in Engineering, 2014,2014: 1-12.
[28]
Biegler L T, Zavala V M. Large-scale nonlinear programming using IPOPT: an integrating framework for enterprise-wide dynamic optimization [J]. Computers & Chemical Engineering, 2009, 33 (3): 575-582.
[29]
Zhu M J, El-Halwagi M M, Al-Ahmad M. Optimal design and scheduling of flexible reverse osmosis networks [J]. Journal of Membrane Science, 1997, 129 (2): 161-174.ing C. X., and Jiangzhou S., A dynamic optimization strategy for the operation of large scale seawater reverses osmosis system [J]. Mathematical Problems in Engineering, 2014, 2014:1-12
[30]
Biegler L. T., Zavala V. M., Large-scale nonlinear programming using IPOPT: an integrating framework for enterprise-wide dynamic optimization [J]. Computers & Chemical Engineering, 2009, 33(3): 575-582
[31]
Zhu M. J., El-Halwagi M. M., Al-Ahmad M., Optimal design and scheduling of flexible reverse osmosis networks [J]. Journal of Membrane Science, 1997, 129(2): 161-174 ?
