• 全国中文核心期刊
  • 中国科技核心期刊
  • 美国工程索引(EI)收录期刊

DU Jian, LI Ying, MENG Xiao-qiong, FAN Xi-shan, YAO Ping-jing. Synthetic research on water allocation network[J]. Advances in Water Science, 2003, 14(3): 285-289.
Citation: DU Jian, LI Ying, MENG Xiao-qiong, FAN Xi-shan, YAO Ping-jing. Synthetic research on water allocation network[J]. Advances in Water Science, 2003, 14(3): 285-289.

Synthetic research on water allocation network

  • Received Date: 2002-01-17
  • Rev Recd Date: 2002-04-30
  • Publish Date: 2003-05-25
  • The water allocation network(WAN)is a special mass exchange network(MEN). This paper reviews the concerned study and research in literature and introduces the researching methodologies,i. e. targeting approach and mathematical programming method. It predicates that the further study of WAN should focus on the application of the mass integration,as well as holistic process integration combining energy and water allocation network,in order to realize clean production and sustainable development.
  • [1] Bagajewicz M. A review of recent design procedures for water networks in and process plants[J]. Computers and chemical engineering, 2000,24:2093-2113.
    [2] El-Halwagi M M, Manousiouthakis V. Synthesis of mass exchange networks[J].AIChE Journal, 1989, 35(18):1233-1244.
    [3] El-Halwagi M M, Hamad A A, Garrison G W. Synthesis of waste interception and allocation networks[J]. AI ChE Journal, 1996, 42(11):3 087-3101.
    [4] Bagajewicz M, Manousiouthakis V. Mass-heat exchange network representation of distillation network[J]. AIChE Journal, 1992, 38(11): 1769-1800.
    [5] Bagajewicz M, Pham R, Manousiouthakis V. On the state space approach to mass/heat exchanger network design[J]. Chemical engineering science, 1998, 23(14): 2595-2621.
    [6] Papalexaddri K P,Pistikopoulos E N. A multi-period MINLP model for the synthesis of Flexible heat and mass exchange network[J]. Computers and Chemical Engineering, 1994, 18(11-12):1125-1139.
    [7] Lee S, Park S. Synthesis of mass exchange network using process graph theory[J]. Computers and chemical engineering, 1996, 20(suppl):201-205.
    [8] Takama N, Kuriyama T, Shiroko K, et al. Optimal water allocation in a petroleum refinery[J]. Computers and chemical engineering, 1980,4:251-258.
    [9] El-Halwagi M M, Manouiouthakis V. Synthesis of mass exchange networks[J]. AIChE Journal, 1989,35 (18):12331244.
    [10] Linnhoff B, Hindmarsh E. The pinch design method of heat exchanger networks[J]. Chemical engineering science, 1983, 38:745-763.
    [11] Wang Y P, Smith R. Wasterwater minimisation[J]. Chemical Engineering Science, 1994, 49 (7):981-1006.
    [12] Dhole V R, Ramchanclani N, Tainsh R A, et al. Make your process water pay for itself[J]. Chemical Engineering, 1996, 103(1): 100-103.
    [13] Olesen S G, Polley S G. A simple methodology for the design of water network handing single contaminants[J]. Transactions of the Institution of Chemical Engineers, Part A, 1997,75:420426.
    [14] Alva-Argaez A, Vallianatos A, Kokossis A. A multi-contaminant transshipment model for mass exchange networks and wastewater minimization problem[J]. Computers and Chemical Engineering, 1999, 23:1493-1453.
    [15] Yang Y H, Lou H H, Huang Y L.Synthesis of an optimal wastewater reuse network[J]. Water Management, 2000, 20:311-319.
    [16] Savelski M, Bagajewicz M. On the optimality conditions of water utilization systems in process plants with single contaminants[J].Chemical Engineering Science, 2000, 55: 5 035-5 048.
    [17] Savelski M, Bagajewicz M. A new algorithmic design procedure for the design of water utilization systems in refineries and process plants[A].proceedings of PRESS 99 meeting[C].Budapest, 1999.
    [18] Savelski M, Bagajewicz M J. Design of water utilization systems in process plants with a single contaminants[J]. Waste Management, 2000,20(8): 659-664.
    [19] Mariano J, Savelski M, Bagajewicz. Agorithmic procedure to design water utilization systems featuring a single contamint in process plants[J].Chemical Engineering Science, 2001, 56:1 987-1 911.
    [20] Bagajewicz M, Rivas M, Savelski M.A robust method to obtain optimal and sub-optimal design and retrofit solutions of water utilization systems with multiple contaminants in process plants[J]. Computers and Chemical Engineering, 2000, 24(27): 1461-1466.
    [21] Bagajewicz M, Rivas M, Savelski M. A new approach to the design of water utilization systems with multiple contaminants in process plants[J]. Computers and Chemical Engineering, 2000, 24:2 093-2113.
    [22] Savelski M, Rivas M, Bagajewicz M. A new approach to the design of water utilization systems with multiple contaminants in process plants[A]. Annual American Institute of Chemical Engineering Meeting[C]. Dalla, Tx, 1999.
    [23] Wang Y P, Smith R. Design of distributed effluent treatment systems[J].Chemical Engineering Science, 1994, 49 (18):3 127-3145.
    [24] Kuo W C J, Smith R. Effluent treatment system design[J]. Chemical Engineering Science, 1997,52(23): 4273-4290.
    [25] Galan B, Grossmann I E. Optimal design of distributed wastewater treatment networks[J]. Ind Eng Chem Res, 1998, 37:4036-4048.
    [26] Kuo W C J, Smith R.Design for the interactions between water-use and effluent treatment[J].Transactions of the Institution of Chemical Engineers Part A, 1998,76: 287-301.
    [27] Alva-Argaez A, Kokossi A C, Smith R. Wastewater minimization of industrial systems using an integrated approach[J]. Computers and Chemical Engineering, 1998, 22(suppl): 5741-5744.
    [28] Huang C-H, Chang C-T, Ling H-C, et al. A mathematical programming model for water usage and treatment network design[J]. Ind Eng Chem Res, 1999,38:2666-2679.
    [29] Savulescu L E, Smith R. Simultaneous energy and water minimization[A]. AIChE Annual Meeting[C]. Miama,FL, 1998.
    [30] Bagajewicz M, Rodera H, Savelski M. Energy efficient water utilization systems in process plant[J]. Computers and Chemical Engineering,2002,26(1):5979.
  • 加载中
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索

Article Metrics

Article views(58) PDF downloads(495) Cited by()

Proportional views
Related

Synthetic research on water allocation network

Abstract: The water allocation network(WAN)is a special mass exchange network(MEN). This paper reviews the concerned study and research in literature and introduces the researching methodologies,i. e. targeting approach and mathematical programming method. It predicates that the further study of WAN should focus on the application of the mass integration,as well as holistic process integration combining energy and water allocation network,in order to realize clean production and sustainable development.

DU Jian, LI Ying, MENG Xiao-qiong, FAN Xi-shan, YAO Ping-jing. Synthetic research on water allocation network[J]. Advances in Water Science, 2003, 14(3): 285-289.
Citation: DU Jian, LI Ying, MENG Xiao-qiong, FAN Xi-shan, YAO Ping-jing. Synthetic research on water allocation network[J]. Advances in Water Science, 2003, 14(3): 285-289.
Reference (30)

Catalog

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return