针对锅炉过热汽温的特点,设计串级过热汽温控制系统。
Based on the characteristics of superheated steam temperature of a boiler, a new cascade control system is designed.
该控制策略为同类超超临界机组过热汽温控制系统设计提供了参考。
The strategy offers good reference to similar superheated steam temperature control systems in ultra supercritical power units.
目前,大多数火电厂的过热汽温控制仍然普遍采用传统的PID串级控制方法。
Currently, the superheated steam temperature control system in most power plants still adopts the conventional PID cascade control scheme.
本文提出一种新型的过热汽温控制方案,力图集智能控制与传统控制的优点于一身。
A new superheated steam temperature control system design scheme is proposed in this paper, which tries to combine the advantages of both intelligent control and conventional control.
将该控制决策应用在锅炉过热汽温控制中,仿真表明该控制的有效性、快速性和鲁棒性。
The controller is applied to the overheat steam temperature system of drum boiler. The validity, the high-speed and the robustness of the control system are demonstrated by simulation results.
仿真结果表明,用本文方法设计的过热汽温控制系统比常规的PID控制具有较好的鲁棒性能。
The simulation results show that the control sy stem which uses the robust PID controllers has better robust performance than th at of the conventional PID control system.
通过将动态矩阵比例积分控制算法与串级控制相结合,提出了一种新的火电厂锅炉过热汽温控制方案。
A new superheated steam temperature control system is derived by combining the dynamic matrix proportion integration control arithmetic with the cascade control structure.
提出一种新型的过热汽温控制方案,主控制器基于自适应神经网络模糊推理系统(ANFIS)进行设计。
A new superheated steam temperature control system design scheme is proposed, the main controller design is based on Adaptive Network-based Fuzzy Inference system (ANFIS).
研究能克服传统过热汽温控制系统的缺点的新型控制方法,对于电站运行的安全性和经济性有十分重要的意义。
For the security and economic of power plant, research the new control method which can overcome the disadvantages of traditional superheat steam temperature control system has important meaning.
将其应用于火电机组过热汽温控制进行仿真研究,结果表明所提出的预测控制算法具有优良的控制性能和很好的鲁棒性。
An application study for superheated steam temperature control system is carried out. The simulation results show the proposed predictive control algorithm is valid.
仿真结果表明,较之传统的过热汽温串级调节系统,采用该模型预测控制策略的过热汽温控制系统的控制性能有很大的提高。
The simulative results show that the control performance of the model predictive control system is superior to that of the traditional cascade control system.
针对火电厂过热汽温控制系统的大滞后、大惯性以及动态特性随工况变化的不确定性等特点,本文提出了ADRC过热汽温控制方案。
In light of the large delay, strong inertia, and uncertainty characteristics of superheated steam temperature process, an active disturbance rejection control (ADRC) scheme is presented.
在对火电厂过热汽温控制对象特点分析基础上,保留串级控制抗内扰的性能,结合模糊控制动态特性好的特点,提出了一种复合模糊串级控制设计。
For the inverted pendulum system with multi-variable and nonlinear characteristic, a double closed-loop cascade fuzzy control approach was put forward based on Takagi-Sugeno fuzzy model.
在对火电厂过热汽温控制对象特点分析基础上,保留串级控制抗内扰的性能,结合模糊控制动态特性好的特点,提出了一种复合模糊串级控制设计。
For the inverted pendulum system with multi-variable and nonlinear characteristic, a double closed-loop cascade fuzzy control approach was put forward based on Takagi-Sugeno fuzzy model.
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