Design of Genetic Algorithm Based Internal Model Controller for a Heat Exchanger

机译：基于遗传算法的换热器内模控制器设计

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Heat exchangers are widely used in chemical industries and temperature control is mainly focused. Generally shell and tube heat exchangers are more popular and it is used in this work, which produces nonlinear characteristics. Initially system model is identified using Sundaresan-Krishnaswamy (SK) method by splitting the nonlinear zone into multiple linear operating zone and various controller is designed for each region. In this work PID controller, GA based PID controller, GA based IMC controller is designed for controlling the temperature of heat exchanger by manipulating the inlet flowrate and performance measures have been studied to identify the suitable controller. From the performance measures the best controller have been chosen for temperature control in shell and tube heat exchanger.

机译：热交换器在化学工业中被广泛使用，并且温度控制主要集中在热交换器上。通常，管壳式热交换器更受欢迎，并且在这项工作中使用它会产生非线性特性。最初，使用Sundaresan-Krishnaswamy（SK）方法识别系统模型，方法是将非线性区域划分为多个线性工作区域，并为每个区域设计各种控制器。在这项工作中，PID控制器，基于GA的PID控制器，基于GA的IMC控制器被设计为通过控制入口流量来控制热交换器的温度，并研究了性能措施来确定合适的控制器。从性能指标中选择了最佳的控制器，用于管壳式换热器的温度控制。

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《International Conference on Computation of Power, Energy, Information and Communication》|2018年|489-495|共7页
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R Valarmathi; P.R Theerthagiri; S Rakeshkumar; V Gomathi;
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Heating systems; Mathematical model; Electron tubes; Tuning; Transfer functions; Industries;

机译：加热系统;数学模型;电子管;调谐;传递函数;行业;

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专利

1. An Improved PID controller Design based on Model Predictive Control for a Shell and Tube Heat Exchanger [J] . Sarkar Humayun Kabir, Obiyathulla Ismath Bacha, Mansur Masih Australian Journal of Basic and Applied Sciences . 2013,第2013期

机译：基于模型预测控制的壳管式热交换器的改进PID控制器设计
2. Wiener Model based Controller Design for a Physical Heat Exchanger [J] . A. Srinivasan, P. Lakhshmi Modelling, measurement & control . 2008,第5a6期

机译：基于维纳模型的物理换热器控制器设计
3. GMDH-type neural network modeling and genetic algorithm-based multi-objective optimization of thermal and friction characteristics in heat exchanger tubes with wire-rod bundles [J] . Masoud Rahimi, Reza Beigzadeh, Mehdi Parvizi, Heat and mass transfer . 2016,第8期

机译：GMDH型神经网络建模和基于遗传算法的线束热交换管热摩擦特性多目标优化
4. Design of Genetic Algorithm Based Internal Model Controller for a Heat Exchanger [C] . R Valarmathi, P.R Theerthagiri, S Rakeshkumar, International Conference on Computation of Power, Energy, Information and Communication . 2018

机译：基于遗传算法的热交换器遗传算法设计
5. A simulation and analysis toolbox for power systems and genetic algorithm-based damping controller design. [D] . Hasanovic, Amer. 2001

机译：电力系统和基于遗传算法的阻尼控制器设计的仿真和分析工具箱。
6. An alternative design approach for Fractional Order Internal Model Controllers for time delay systems [O] . C.I. Muresan, I. Birs, R. De Keyser 2021

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7. SECOND LAW BASED OPTIMISATION OF CROSSFLOW PLATE-FIN HEAT EXCHANGER DESIGN USING GENETIC ALGORITHM [O] . Manish Mishra, P. K. Das, Sunil Sarangi 2015

机译：基于遗传算法的第二法律优化交叉流板式翅片换热器设计

Design of Genetic Algorithm Based Internal Model Controller for a Heat Exchanger

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