基于Smith-模糊PID解耦的固井水泥漿密度大滯后控制研究

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中圖分類(lèi)號(hào)：TE256文獻(xiàn)標(biāo)識(shí)碼：ADOI：10.12473/CPM.202406064

Long Time-delay Control ofCementSlurryDensityBased on Smith-fuzzy PID Decoupling

LiYong1Fan Heng2JiYu2Cheng Sida'Meng Jiansheng2 （1.CNPCEngineeringTechnologyR&DCompanyLimited;2.ColegeofElectronicEngineeing，Xi’anShiyouUniesity）

Abstract：The cement slurry mixing system has the characteristics of nonlinearity，time variation and long time-delay，which make it imposible to achieve stable and accurate control of automatic cementing devices by traditional techniques.This paper presents an advanced strategy of control based on Smith predictive compensation and fuzzy PID decoupling（Smith-fuzzy PID decoupling）.Firstly，through the mathematical modeling and coupling analysis of the cement slurry mixing system，the feedforward compensator was used to compensate for the possible disturbances in the system inadvance，which effectively reduces the coupling effct.Then，the Smithfuzzy PID decoupling controler was designed，and the PID parameters were adjusted through fuzzy logic to adapt to the nonlinear and time-varying characteristics of the system，so as to achieve accurate control of density. Finally，simulation experiments and anti-interference analysis were caried out on the Matlab/Simulink platform.

The results show that compared with Smith predictive compensation and fuzzy PID control，the proposed control based on Smith-fuzzy PID decoupling is significantly superior in dynamic performance，steady-state performance and anti-interference ability，and has a strong robustness.This control strategy can efectivelyreduce the overshoot，speed up the system adjustment，and improve the system stability.It provides areliable solution to the accuratecontrol ofcement slurry density，and will playatheoretical guiding role in the intellgent developmentof cement slurry mixing system.

Keywords：cement slurry；Smith predictive control；density control； long time-delay；fuzzy control PI decoupling

0 引言

隨著石油勘探開(kāi)發(fā)領(lǐng)域的不斷拓展，大直徑井、深井及超深井的應(yīng)用日趨廣泛，這無(wú)疑對(duì)固井技術(shù)的智能化水平提出了更高的要求[1-2]。（剩余14965字）