Reactor Temperature Control Based on Improved Fractional Order Self-Anti-Disturbance

Tang, Xiaowei; Xu, Bing; Xu, Zichen

doi:10.3390/pr11041125

Cited by 4 publications

(1 citation statement)

References 26 publications

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“…The control of the temperature field in the furnace has the distributed parameter characteristic. Model-based temperature control for thermal processing systems has been studied [14][15][16][17]. By constraining the heat fluxes to a piecewise linear function, a discretetime state-space system is obtained.…”

Section: Introductionmentioning

confidence: 99%

Multi-Zone Integrated Iterative-Decoupling Control of Temperature Field of Large-Scale Vertical Quenching Furnaces Based on ESRNN

Shen

Chen

2023

Processes

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Temperature uniformity within a large vertical quenching furnace is the key factor to determine the properties of aluminum workpieces. The existing temperature control method for quenching furnaces cannot overcome the influence of multi-zone coupling issues, which lead to unstable product performance and a lack of key performance. Based on a workpiece temperature field model, a spatial-temporal dimensional extrapolation method is proposed to realize fast and accurate solving of the temperature model. In view of the over-burning and under-burning problems during the temperature rising period, a self-incentive nonparametric adaptive iterative control algorithm is presented, which realizes consistent temperature rising of multiple heating zones. Aiming at the strong coupling problem of the multi-zone heating manner during the temperature holding period, the decoupling problem of multiple control loops is converted into a multi-loop integrated control optimization problem. An eigenvector self-update recurrent neural network (ESRNN) is constructed to determine the Jacobian information and tune the control parameters of each loop controller in real time, thereby realizing the integrated intelligent decoupling control of multiple heating loops. Simulation and industrial results verify the superiority of the proposed method, which can realize high-precision and high-uniformity control of a large-scale temperature field and effectively improve the quality and performance of aluminum alloy workpieces.

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Section: Introductionmentioning

confidence: 99%

Multi-Zone Integrated Iterative-Decoupling Control of Temperature Field of Large-Scale Vertical Quenching Furnaces Based on ESRNN

Shen

Chen

2023

Processes

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Design and FPGA realization of incremental fuzzy controller for stirred tank heater

Fetene,

Ayenew

2023

Soft Comput

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In this paper, Field programmable gate array (FPGA) realization of fuzzy PI controller for Stirred Tank Heater system is presented. The commonly used PI controller in industry though it is simple for implementation lacks reliability when the dynamics of a system changes with time. Replacing PI controllers with AI systems can lead an effective control of a system even in the presence of model uncertainties. The digital implementation of AI systems in DSP or Microcontrollers have limitations of low computational accuracy and slow processing speed. Now adays, FPGAs are being largely used for digital implementation of algorithms because of their higher computational speed and accuracy. In this paper, fast and novel design approach for rapid prototyping of Fuzzy PI controller for Stirred Tank Heater is presented thoroughly. System Generator SIMULINK add on from VIVADO is used to generate Very High-Speed Integrated Circuit Hardware Description Language (VHDL) directly from MATLAB. The developed controller for stirred tank system is verified in Fixed point arithmetic using Xilinx Simulink blocks. The VHDL code is then generated, synthesized, implemented and made ready for physical implementation on Kintex-7 evaluation board.

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Reactor Temperature Compound Control Strategy Based on Disturbance Observer

Tang,

2023

IEEE Access

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Reactor Temperature Control Based on Improved Fractional Order Self-Anti-Disturbance

Cited by 4 publications

References 26 publications

Multi-Zone Integrated Iterative-Decoupling Control of Temperature Field of Large-Scale Vertical Quenching Furnaces Based on ESRNN

Multi-Zone Integrated Iterative-Decoupling Control of Temperature Field of Large-Scale Vertical Quenching Furnaces Based on ESRNN

Design and FPGA realization of incremental fuzzy controller for stirred tank heater

Reactor Temperature Compound Control Strategy Based on Disturbance Observer

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