大型PHWR容错空间控制系统的设计方法

Proceedings of IEEE International Conference on Industrial Technology 2000 (IEEE Cat. No.00TH8482) Pub Date : 2000-01-19 DOI:10.1109/ICIT.2000.854263

A. Tiwari, B. Bandyopadhyay

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引用次数: 4

摘要

提出了一种大型重水堆空间控制系统的设计方法，该控制系统在一个输出传感器失效时闭环系统仍保持稳定。根据反应器的正常运行状态和不同失效模式，建立了相应的线性状态模型。发现每个模型都具有两个时间尺度性质。采用标准奇异摄动方法对快速变化模态进行解耦，以消除刚度。从而得到反应器各工作模式的简化模型。采用凸规划的方法寻找一个同时稳定所有简化模型的输出注入增益。该输出注入增益在所有工作模式下由基于周期性输出反馈的控制器同时实现。

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An approach to the design of fault-tolerant spatial control system for a large PHWR

The paper presents the design of spatial control system of a large pressurized heavy water reactor (PHWR) with the constraint that the closed loop system be stable even if one output sensor has failed. Linear state models are obtained corresponding to the normal operating condition and different failure modes of the reactor. Each model is found to possess two time scale property. Application of a standard singular perturbation approach decouples the fast varying modes which are ignored to eliminate the stiffness. Thus a reduced model is obtained for each operating mode of the reactor. Convex programming is used to search for an output injection gain which stabilizes all reduced models simultaneously. This output injection gain is then realized simultaneously in all operating modes by a controller based on periodic output feedback.

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Proceedings of IEEE International Conference on Industrial Technology 2000 (IEEE Cat. No.00TH8482)

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