An area method for visualizing heat-transfer imperfection of a heat exchanger network in terms of temperature–heat-flow-rate diagrams  被引量:2

An area method for visualizing heat-transfer imperfection of a heat exchanger network in terms of temperature–heat-flow-rate diagrams

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作  者:WU Jing YANG XianPei 

机构地区:[1]School of Energy and Power Engineering, Huazhong University of Science and Technology

出  处:《Science China(Technological Sciences)》2016年第10期1517-1523,共7页中国科学(技术科学英文版)

基  金:supported by the National Natural Science Foundation of China(Grant Nos.51206079,51356001)

摘  要:The identification of the imperfection originating from finite-temperature-difference heat transfer is an indispensable step for both the performance analysis and the better design of a heat exchanger network (HEN) with the aim of energy saving. This study develops a convenient area method for visualizing the heat-transfer imperfection of a HEN in terms of temperature-heat flow diagrams ( T-Q diagrams) by combining the composite curves that have already been used in pinch analysis and the re- cently developed entransy analysis. It is shown that the area between the hot and cold composite curves and the hot and cold utility lines on a T-Q diagram is just equal to the total entransy dissipation rate during the multi-stream heat transfer process occurred in a HEN, and this area can be used to graphically represent the total heat-transfer imperfection of the HEN. The increase in heat recovery or decrease in energy requirements with decreasing the minimum temperature difference, ATmin, of a HEN can then be attributed to a lower entransy dissipation rate, quantitatively represented by the decrease of the area between the composite curves and the utility lines. In addition, the differences between the T-Q diagram and the pre-existing energy level-enthalpy flow diagram (12-H diagram) in the roles of visualizing process imperfection and designing HENs are dis- cussed.

关 键 词:heat exchanger network entransy pinch analysis EXERGY property diagram 

分 类 号:TK124[动力工程及工程热物理—工程热物理]

 

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