KEYWORDS: Control systems, Process control, Device simulation, Microfluidics, Fuzzy logic, Detection and tracking algorithms, Atmospheric modeling, Computer simulations, Chemical elements, Adaptive control
The temperature control of heat exchanger is characterized by complex, nonlinear and hysteresis. In order to improve the temperature control effect of outlet working medium, a temperature control method based on improved sparrow search algorithm was proposed to analyze the internal dynamic heat transfer process by establishing the distributed parameter model of heat exchanger. The parameters of PID controller are adjusted in real time by using the good searching performance of improved Sparrow algorithm to achieve the purpose of adaptive control. The temperature control system is simulated under different working conditions and compared with traditional PID control. The results show that the algorithm can reduce the outlet temperature regulation time, small overshoot, high control precision and strong anti-interference ability.
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