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Bypass Selection for Control of Heat Exchanger Network 被引量:2

Bypass Selection for Control of Heat Exchanger Network
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摘要 Considering the flexibility and controllability of heat exchanger networks (HENs), bypasses are widely used for effective control of process stream target temperatures. However, the optimal location for the bypass is generally difficult to design with the trade-off between controllability and capital investments. In this paper, based on the steady-state model of heat exchanger networks the optimal bypass location was firstly selected by iteratively calculating the non-square Relative Gain Array (ns-RGA). To simplify the calculation process, rules of bypass selection were also proposed. In order to evaluate this method, then, the structural controllability of heat exchanger networks was analyzed. With both the consideration of the controllability and capital investments, the bypasses locations were finally selected. A case study on the HEN in Crude Distillation Unit was presented in which the ns-RGA and structural controllability were used to select bypasses and also to evaluate the results. Considering the flexibility and controllability of heat exchanger networks (HENs), bypasses are widely used for effective control of process stream target temperatures. However, the optimal location for the bypass is generally difficult to design with the trade-off between controllability and capital investments. In this paper, based on the steady-state model of heat exchanger networks the optimal bypass location was firstly selected by iteratively calculating the non-square Relative Gain Array (ns-RGA). To simplify the calculation process, rules of bypass se- lection were also proposed. In order to evaluate this method, then, the structural controllability of heat exchanger networks was analyzed. With both the consideration of the controllability and capital investments, the bypasses lo- cations were finally selected. A case study on the HEN in Crude Distillation Unit was presented in which the ns-RGA and structural controllability were used to select bypasses and also to evaluate the results.
出处 《Chinese Journal of Chemical Engineering》 SCIE EI CAS CSCD 2013年第3期276-284,共9页 中国化学工程学报(英文版)
基金 Supported by the National Natural Science Foundation of China (21006127), the National Basic Research Program of China (2012CB720500) and the Science Foundation of China University of Petroleum, Beijing (YJRC-2011-11).
关键词 heat exchanger networks BYPASS process control non-square Relative Gain Array structural control- lability 换热网络 控制过程 旁路 相对增益阵列 原油蒸馏装置 最佳位置 资本投资 计算过程
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  • 1杜设亮,张伟根,傅建中,陈子辰.可控度/可观度在智能结构热压电致动器/传感器配置中的应用[J].中国机械工程,2001,12(z1):187-189. 被引量:3
  • 2肖云汉,朱明善,王补宣.换热网络设计方法的研究进展[J].化工进展,1994,13(1):1-8. 被引量:17
  • 3Hernandez S, Balcazar-Lopez L, Sanchez-Marquez J A, Gonzalez-Garela G. Controllability and operability analysis of heat exchanger networks including bypasses [J]. Chem. Biochem. Eng. Q, 2010, 24 (1): 23-28.
  • 4Veerayut Lersbamrungsuk, Thongchai Srinophakun. Control structure design for operation of heat exchanger networks [J]. AIChE J, 2008, $4 (1): 150-162.
  • 5Glemmestad B, Mathisen K W, Gundersen T. Optimal operation of heat exchanger networks based on structural information [J]. Computers and Chemical Engineering, 1996, 20 (2), 823-828.
  • 6Boukhobza T, Hamelin F, State and input observability recovering by additional sensor implementation: a graph-theoretic approach [J]. Automatica, 2009, 45: 1737-1742.
  • 7Varga E I, Hangos K M, Szigeti F. Controllability and observability of heat exchanger networks in the time-varying parameter case [J]. Control Eng., 1995, 3 (10): 1409- 1419.
  • 8Truong Nguyen Luan Vu, Moonyong Lee. Independent design of multi-loop PI/PID controllers for interacting multivariable processes [J]. Journal of Process Control, 2010, 20:922-933.
  • 9Rodolfo Tellez, William Y Svrcek, Brent R Young. Controllability of heat exchanger networks [J]. Heat Transfer Engineering, 2006, 27 (6) : 38-49.
  • 10Wolff E A, Mathisen K W, Skogestad S-Dynamics and controllability of heat exchanger networks//Puigjaner L, Eapuna A. Proc. Computer Oriented Process Engineering (COPE-91)[C]. 1991:117-122.

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