A new technique for simultaneous water and energy minimisation in process plant

Chemical Engineering Research and Design

Volumn 87, Issue 11, 2009, Pages 1509-1519

  Manan, Zainuddin Abdul ^a   Tea, Swee Yin ^a   Alwi, Sharifah Rafidah Wan ^a  

^a UNIVERSITI TEKNOLOGI MALAYSIA   (Malaysia)

Author keywords

Energy minimisation; Heat surplus diagram; Heuristics; Pinch analysis; Process integration; Water minimisation

Indexed keywords

ENERGY CONSUMPTION; ENERGY DEMANDS; ENERGY MINIMISATION; ENERGY RECOVERY; ENERGY REDUCTION; GRAPHICAL TOOLS; HEAT RECOVERY; HEAT SURPLUS DIAGRAM; IN-PROCESS; ON-STREAM; OVER CURRENT; PAPER MILL; PINCH ANALYSIS; STATE OF THE ART; VISUALISATION; WATER AND WASTEWATER;

COMPUTER SYSTEM RECOVERY; ENERGY MANAGEMENT; HEURISTIC METHODS; HYDRAULICS; MASS TRANSFER; PAPER AND PULP MILLS; WASTE HEAT; WASTEWATER;

WATER ANALYSIS;

EID: 74449090486     PISSN: 02638762     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.cherd.2009.04.013     Document Type: Article

References (27)

1. Bengtsson C., Nordman R., and Berntsson T. Co-ordination pf pinch technology and the MIND method - applied to a Swedish Board Mill. Applied Thermal Engineering 22 (2002) 133-144
2. Bengtsson C., Nordman R., and Berntsson T. Utilization of excess heat in the pulp and paper industry - a case study of technical and economic opportunities. Applied Thermal Engineering 22 (2002) 1069-1081
3. Biegler L.T., Grossman I.E., and Westerberg A.W. Systematic Methods of Chemical Process Design (1997), Prentice Hall Itl.
4. Bogataj M., and Bagajewicz M.J. Synthesis of non-isothermal heat integrated water networks in chemical processes. Computers and Chemical Engineering 32 (2008) 3130-3142
5. De Beer J., Worrel E., and Blok K. Long-term energy-efficiency improvements in the paper and board industry. Energy 23 1 (1998) 21-42
6. Dong H.G., Lin C.Y., and Chang C.T. Simultaneous optimization approach for integrated water-allocation and heat-exchange networks. Chemical Engineering Science 63 (2008) 3664-3678
7. Du J., Meng X., Du H., Yu H., Fan X., and Yao P. Optimal design of water network with energy integration in process industries. Chinese Journal of Chemical Engineering 12 (2004) 247-255
8. El-Halwagi M.M., Gabriel F., and Harrel D. Rigorous graphical targeting for resource conservation via material reuse/recycle networks. Industrial and Engineering Chemistry Research 42 (2003) 4319-4328
9. Feng X., Li Y., and Yu X. Improving energy performance of water allocation networks through appropriate stream merging. Chinese Journal of Chemical Engineering 16 (2008) 480-484
10. Kim J.Y., Kim J.K., Kim J.H., Yoo C.K., and Moon I. A simultaneous optimization approach for the design of wastewater and heat exchange networks based on cost estimation. Journal of Cleaner Production 17 (2009) 162-171
11. Leewongtanawit B., and Kim J.K. Synthesis and optimisation of heat-integrated multiple-contaminant water systems. Chemical Engineering and Processing 27 (2008) 670-694
12. Liao Z., Wu J., Jiang B., Wang J., and Yang Y. Design energy efficient utilization systems allowing operation split. Chinese Journal of Chemical Engineering 1 (2008) 16-20
13. Manan Z.A., Foo C.Y., and Tan Y.L. Targeting the minimum water and wastewater flowrate using the new water cascade analysis technique. AIChe Journal 50 12 (2004) 3169-3183
14. Manan Z.A., Tan Y.L., Foo C.Y., and Tea S.Y. Application of water cascade analysis technique for water minimisation in a Paper Mill Plant. International Journal of Environment and Pollution 29 1-3 (2007) 2007
15. Manninen J., Puumalainen T., and Talja R. Energy aspects in paper mills utilizing future technology. Applied Thermal Engineering 22 (2002) 929-937
16. Parthasarathy G., and Krishnagopalan G. Systematic reallocation of aqueous resources using mass integration in a typical pulp mill. Advances in Environmental Research 5 (2001) 61-79
17. Prakash R., and Shenoy U.V. Targeting and design of water networks for fixed flowrate and fixed contaminant load operations. Chemical Engineering Science 60 1 (2005) 255-268
18. Savelski M.J., and Bagejewicz M.J. Design and retrofit of water utilisation systems in refineries and process plants. AIChe Annual Meeting. Los Angeles, 188 (1997)
19. Savulescu, L.E. and Smith, R., 1998, Simultaneous Energy and Water Minimisation. AIChe Annual Meeting, November 15-20, Miami Beach, Florida, Unpublished.
20. Savulescu L., Sorin M., and Smith R. Direct and indirect heat transfer in water network systems. Applied Thermal Engineering 22 (2002) 981-988
21. Savulescu L., Kim J.K., and Smith R. Studies on simultaneous energy and water minimisation-part 1: systems with no water re-use. Chemical Engineering Science 60 (2005) 3279-3290
22. Savulescu L., Kim J.K., and Smith R. Studies on simultaneous energy and water minimisation-part 2: systems with maximum re-use of water. Chemical Engineering Science 60 (2005) 3291-3308
23. Thompson G., Swain J., and Kay M. The Treatment of Pulp and Paper Mill Effluent; A Review. Bioresource Technology 77 (2001) 275-286
24. Tripathi P. Mass exchange integration maximizes water recycling at a paper mill. Chemical Engineering 103 11 (1996) 87-90
25. Wan Alwi S.R., and Manan Z.A. Generic graphical technique for simultaneous targeting and design of water networks. Industrial & Engineering Chemistry Research 47 8 (2008) 2762-2777
26. Xiao Feng, X., Li, Y. and Shen, R., in press, A new approach to design energy efficient water allocation networks. Applied Thermal Engineering.
27. Zheng X.S., Feng X., and Cao D.L. Design water allocation network with minimum freshwater and energy consumption. Computer Aided Chemical Engineering 15 (2003) 388-393