Improved dynamic model of electro-hydraulic servo and actuator system for steam turbine in power systems

Ting Zhao; Jizhen Liu; Yuguang Niu

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Improved dynamic model of electro-hydraulic servo and actuator system for steam turbine in power systems

机译：电力系统汽轮机电液伺服致动器系统的改进动力学模型

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摘要

Accuracy system model and its parameters are of great importance in stability and security evaluation or simulation for power systems. The electro-hydraulic servo and actuator is one of the most important components in the system. A mathematical model for the electro-hydraulic servo and actuator system developed on the working principle of each component has model parameters with clear physical meanings that can be obtained from field test data. The model is validated by data from four reheat turbines with different digital electro-hydraulic (DEH) control systems. Simulations show that the model agrees well with the test data when the servo cards are either proportional or proportional integral controllers. The results also show that the IEEE model parameters can be derived by this model.

机译：精度系统模型及其参数在电力系统的稳定性和安全性评估或仿真中非常重要。电动液压伺服和执行器是系统中最重要的组件之一。根据每个组件的工作原理开发的电动液压伺服和执行器系统的数学模型具有可从现场测试数据中获得的具有明确物理含义的模型参数。该模型已通过来自四个具有不同数字电液（DEH）控制系统的再热涡轮的数据进行了验证。仿真表明，当伺服卡为比例或比例积分控制器时，该模型与测试数据吻合良好。结果还表明，该模型可以导出IEEE模型参数。

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来源
《Journal of Computational Methods in Sciences and Engineering》 |2015年第3期|437-446|共10页
作者
Ting Zhao; Jizhen Liu; Yuguang Niu;
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作者单位

State Key Lab of Alternate Electric Power System with Renewable Energy Sources, North China Electric Power University, Beijing 102206, China,North China Electric Power Research Institute, Beijing, China;

State Key Lab of Alternate Electric Power System with Renewable Energy Sources, North China Electric Power University, Beijing, China;

State Key Lab of Alternate Electric Power System with Renewable Energy Sources, North China Electric Power University, Beijing, China;

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原文格式 PDF
正文语种 eng
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关键词
Steam turbine; servo and actuator system; mathematical model; governing system;

机译：汽轮机;伺服和执行器系统;数学模型;治理制度;

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Improved dynamic model of electro-hydraulic servo and actuator system for steam turbine in power systems

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