Improved Smith Predictive Decoupling Control Based on Disturbance Observer for Compression Refrigeration System

被引：0

作者：

Li D. ^{[1
]}

Gao F. ^{[1
]}

机构：

[1] School of Electrical and Information Engineering, Tianjin University, Tianjin

来源：

Shanghai Jiaotong Daxue Xuebao/Journal of Shanghai Jiaotong University | 2019年 / 53卷 / 05期

关键词：

Compression refrigeration system; Decoupling; Disturbance observer (DOB); Robustness; Smith predictive control; Time delay;

D O I：

10.16183/j.cnki.jsjtu.2019.05.012

中图分类号：

学科分类号：

摘要：

Since compression refrigeration system has problems of delay, coupling and external disturbance, an improved Smith predictive decoupling control based on disturbance observer has been proposed. First, the disturbance observer is used to observe overall disturbances of the system in the conventional Smith predictive control structure. The time-delay element is linearized by first-order Pade model. Then a diagonal matrix is applied to decouple the compression refrigeration system. Finally, the tuning of the controller parameter is realized based on the minimization of ITAE criterion, and the robust stability of the whole control system is discussed. Through the simulation, the proposed method can provide a better decoupling, better robustness and immunity for the compression refrigeration system. Moreover, it saves about 0.6% energy. © 2019, Shanghai Jiao Tong University Press. All right reserved.

引用

页码：593 / 599

页数：6

共 15 条

[1] Radhakishnan N., Su Y., Su R., Et al., Token based scheduling for energy management in building HVAC systems, Applied Energy, 173, pp. 67-79, (2016)
[2] Li Z., Wu A., He Y., Et al., Improved Smith predictive compensation and decoupling in refrigeration system, Control Theory & Applications, 30, 1, pp. 111-117, (2013)
[3] Chen W., Chen Z., Zhu R., Et al., Experimental investigation of a minimum stable superheat control system of an evaporator, International Journal of Refrigeration, 25, 8, pp. 1137-1142, (2002)
[4] Chen Y., Treado S., Development of a simulation platform based on dynamic models for HVAC control analysis, Energy and Buildings, 68, pp. 376-386, (2014)
[5] Ping W., Control design of the cold intermediary flow with the electronic expansion value, The Japanese Freezing Academic Paper Collection, pp. 4-11, (1989)
[6] Schurt L.C., Hermes C.J.L., Neto A.T., Assessment of the controlling envelope of a model-based multivariable controller for vapor compression refrigeration systems, Applied Thermal Engineering, 30, 13, pp. 1538-1546, (2010)
[7] Xue H., Wu A., Dong N., Active disturbance rejection decoupling control for refrigeration systems, Journal of Xi'an Jiaotong University, 50, 9, pp. 85-90, (2016)
[8] Yin X., Li S., Energy efficient predictive control for vapor compression refrigeration cycle systems, IEEE/CAA Journal of Automatica Sinica, 5, 5, pp. 953-960, (2018)
[9] Zhao D., Zou T., Wang Z., Progress in study of Smith-predictor controller, Chemical Industry and Engineering Progress, 29, 8, pp. 1406-1410, (2010)
[10] Zhai W., Wu A., You Y., Et al., Dynamic modeling of vapor-compression refrigeration system with a high pressure receiver, Refrigeration, 40, 2, pp. 28-33, (2012)

← 1 2 →