Superheater steam temperature control for a 300MW boiler unit with Inverse Dynamic Process Models

IEEE PES General Meeting Pub Date : 2010-07-25 DOI:10.1109/PES.2010.5589600

Liangyu Ma, Yongjun Lin, Kwang Y. Lee

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引用次数: 14

Abstract

An Inverse Dynamic Neuro-Controller (IDNC) is developed to improve the superheater steam temperature control of a 300MW boiler unit. A recurrent neural network was used for building the Inverse Dynamic Process Models (IDPMs) for the superheater system. Two inverse dynamic neural network (NN) models referring to the first-stage and the second-stage water-spray attemperators are constructed separately. To achieve highly accurate approximation of the superheater system, the NN models are trained with sufficient historical data in a wide operating range, which consists of both different steady-state conditions and dynamic transients. Then the IDNCs are designed based on the well-trained IDPMs and applied to superheater steam temperature control. In order to eliminate the steady-state control error arisen by the model error, a simple feedback PID compensator is added to an inverse controller. Detailed control tests are carried out on a full-scope simulator for a 300MW coal-fired power generating unit. It is shown that the temperature control is greatly improved with the IDNCs compared to the original cascaded PID control scheme.

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用逆动态过程模型控制300MW锅炉过热器蒸汽温度

为改善300MW机组过热器蒸汽温度的控制，研制了一种逆动态神经控制器(IDNC)。利用递归神经网络建立了过热器系统的逆动态过程模型。分别建立了一级和二级水喷雾减温器的动态神经网络模型。为了实现对过热器系统的高精度逼近，在广泛的工作范围(包括不同的稳态条件和动态瞬态)中使用足够的历史数据来训练神经网络模型。然后在训练好的idpm的基础上设计idnc，并将其应用于过热器蒸汽温度控制。为了消除模型误差引起的稳态控制误差，在逆控制器中加入了简单的反馈PID补偿器。在300MW燃煤发电机组全范围模拟机上进行了详细的控制试验。结果表明，与原来的级联PID控制方案相比，采用idnc的温度控制效果有很大改善。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE PES General Meeting

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