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Nonlinear intelligent predictive control technology-based super critical unit reheating steam temperature optimal control system

A supercritical unit, intelligent prediction technology, applied in general control system, control/regulation system, adaptive control and other directions, can solve the problems of inability to guarantee high quality of supercritical unit, limited control effect, unrealizable application, etc.

Active Publication Date: 2016-10-12
SOUTHEAST UNIV
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Problems solved by technology

The controlled object of reheat steam temperature has a large hysteresis and inertia (more than 15min), and the reheat steam temperature is affected by various factors on the flue gas side and steam side, and the reheat temperature is closely related to the efficiency and safety of the unit Related, simple adjustments cannot guarantee the high quality of the supercritical unit during operation. It is difficult for the conventional PID control system to effectively suppress the large-scale change of the reheating steam temperature. Only the optimal control strategy based on the large-delay control theory can be integrated. Use auxiliary means such as adjusting the opening of the flue gas baffle and accidental water spraying to effectively control the temperature of the reheated steam
[0003] From the perspective of control principle, the nonlinear predictive control method is an effective method to solve the related problems in the reheating steam temperature adjustment process, but the traditional nonlinear predictive control algorithm is very complicated, and its control function (the opening of the flue gas baffle) It is often limited, which makes the solution problem of nonlinear predictive control algorithm more complicated, and its application in practical engineering is almost impossible

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  • Nonlinear intelligent predictive control technology-based super critical unit reheating steam temperature optimal control system

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[0032] In the following, the present invention will be further clarified with reference to specific examples. It should be understood that these examples are only used to illustrate the present invention and not to limit the scope of the present invention. After reading the present invention, those skilled in the art will understand the various equivalent forms of the present invention. All modifications fall within the scope defined by the appended claims of this application.

[0033] Such as figure 1 Shown is a supercritical unit reheat steam temperature optimization control system based on nonlinear intelligent predictive control technology. The control system consists of a flue gas damper control loop 10 and an accident water injection control loop 20. The flue gas damper The control loop 10 includes a first feedback loop 11 and a first feedforward loop 12, and the emergency water spray control loop 20 includes a second feedback loop 21 and a second feedforward loop 22;

[003...

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Abstract

The invention discloses a nonlinear intelligent predictive control technology-based super critical unit reheating steam temperature optimal control system. The control system is composed of a flue gas baffle control loop and an accident water-spraying control loop; each of the flue gas baffle control loop and the accident water-spraying control loop includes a feedback loop and a feedforward loop; according to the feedback loop of each of the two control loops, a nonlinear intelligent predictive controller is adopted as a main controller; each of the feedforward loops includes a fuzzy intelligent feedforwarder; and the input variables of the fuzzy intelligent feedforwarder include a deviation variable e and deviation change rate de / dt. According to the control system of the invention, nonlinear intelligent predictive control is adopted, so that a constrained optimization problem can be processed conveniently. The calculation process of the control system is very clear and simple. When the control system is applied to engineering application, programming is very easy to implement, and the control effect of the control system is better than that of traditional PID; and the feedforward variable is additionally adopted, so that fast adjustment of the opening degree of a flue gas baffle can be realized, the overtemperature of the metal wall of a reheater can be prevented, a control effect enabling effective control on reheating steam temperature can be realized, and the economical efficiency and security of the operation of a boiler can be ensured.

Description

Technical field [0001] The invention relates to a novel reheat steam temperature optimization control system of a supercritical unit based on a nonlinear intelligent predictive control technology, which belongs to the field of thermal energy power engineering and automatic control. Background technique [0002] The reheated steam temperature of the supercritical unit is mainly controlled by adjusting the reheating flue gas damper, and the accidental water injection is used as an auxiliary adjustment method. The controlled object of reheated steam temperature has great lag and inertia (above 15min), and the reheated steam temperature is affected by various factors on the flue gas side and steam side, and the reheated temperature is closely related to the efficiency and safety of the unit Related, simple adjustments cannot guarantee the high quality of supercritical units during operation. Conventional PID control systems are difficult to effectively suppress large-scale changes in...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
CPCG05B13/042
Inventor 吕剑虹陈雨亭秦文炜崔晓波于冲于吉
Owner SOUTHEAST UNIV
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