On transitioning from PID to ADRC in thermal power plants
This paper focuses on the recent progress in the adoption of active disturbance rejection control (ADRC) in thermal processes as a viable alternative to proportional–integral–derivative (PID), especially in coal-fired power plants. The profound interpretation of this paradigm shift, with backward co...
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| Published in | Control theory and technology Vol. 19; no. 1; pp. 3 - 18 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Guangzhou
South China University of Technology and Academy of Mathematics and Systems Science, CAS
01.02.2021
Springer Nature B.V School of Electrical Engineering,Zhengzhou University,Zhengzhou 450001,Henan,China%Department of Electrical and Computer Engineering,Cleveland State University,Cleveland,OH 44115,USA%State Key Lab of Power Systems,Department of Energy and Power Engineering,Tsinghua University,Beijing 100084,China%Mechatronics,Embedded Systems and Automation(MESA)Lab,Department of Mechanical Engineering,School of Engineering,University of California,Merced,CA 95343,USA |
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| Online Access | Get full text |
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| Abstract | This paper focuses on the recent progress in the adoption of active disturbance rejection control (ADRC) in thermal processes as a viable alternative to proportional–integral–derivative (PID), especially in coal-fired power plants. The profound interpretation of this paradigm shift, with backward compatibility, is discussed in detail. A few fundamental issues associated with ADRC’s applications in thermal processes are discussed, such as implementation, tuning, and the structural changes. Examples and case studies are presented, encompassing coal-fired power plants, gas turbines and nuclear power plants, as well as highlighting results of field applications. Also discussed are future research opportunities brought by ADRC’s entry as the baseline control technology in thermal processes. |
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| AbstractList | This paper focuses on the recent progress in the adoption of active disturbance rejection control (ADRC) in thermal processes as a viable alternative to proportional–integral–derivative (PID), especially in coal-fired power plants. The profound interpretation of this paradigm shift, with backward compatibility, is discussed in detail. A few fundamental issues associated with ADRC’s applications in thermal processes are discussed, such as implementation, tuning, and the structural changes. Examples and case studies are presented, encompassing coal-fired power plants, gas turbines and nuclear power plants, as well as highlighting results of field applications. Also discussed are future research opportunities brought by ADRC’s entry as the baseline control technology in thermal processes. This paper focuses on the recent progress in the adoption of active disturbance rejection control(ADRC)in thermal pro-cesses as a viable alternative to proportional-integral-derivative(PID),especially in coal-fired power plants.The profound interpretation of this paradigm shift,with backward compatibility,is discussed in detail.A few fundamental issues associated with ADRC's applications in thermal processes are discussed,such as implementation,tuning,and the structural changes.Examples and case studies are presented,encompassing coal-fired power plants,gas turbines and nuclear power plants,as well as highlighting results of field applications.Also discussed are future research opportunities brought by ADRC's entry as the baseline control technology in thermal processes. |
| Author | Liu, Yanhong Wu, Zhenlong Gao, Zhiqiang Li, Donghai Chen, YangQuan |
| AuthorAffiliation | School of Electrical Engineering,Zhengzhou University,Zhengzhou 450001,Henan,China%Department of Electrical and Computer Engineering,Cleveland State University,Cleveland,OH 44115,USA%State Key Lab of Power Systems,Department of Energy and Power Engineering,Tsinghua University,Beijing 100084,China%Mechatronics,Embedded Systems and Automation(MESA)Lab,Department of Mechanical Engineering,School of Engineering,University of California,Merced,CA 95343,USA |
| AuthorAffiliation_xml | – name: School of Electrical Engineering,Zhengzhou University,Zhengzhou 450001,Henan,China%Department of Electrical and Computer Engineering,Cleveland State University,Cleveland,OH 44115,USA%State Key Lab of Power Systems,Department of Energy and Power Engineering,Tsinghua University,Beijing 100084,China%Mechatronics,Embedded Systems and Automation(MESA)Lab,Department of Mechanical Engineering,School of Engineering,University of California,Merced,CA 95343,USA |
| Author_xml | – sequence: 1 givenname: Zhenlong surname: Wu fullname: Wu, Zhenlong organization: School of Electrical Engineering, Zhengzhou University – sequence: 2 givenname: Zhiqiang surname: Gao fullname: Gao, Zhiqiang organization: Department of Electrical and Computer Engineering, Cleveland State University – sequence: 3 givenname: Donghai surname: Li fullname: Li, Donghai email: lidongh@mail.tsinghua.edu.cn organization: State Key Lab of Power Systems, Department of Energy and Power Engineering, Tsinghua University – sequence: 4 givenname: YangQuan surname: Chen fullname: Chen, YangQuan organization: Mechatronics, Embedded Systems and Automation (MESA) Lab, Department of Mechanical Engineering, School of Engineering, University of California – sequence: 5 givenname: Yanhong surname: Liu fullname: Liu, Yanhong organization: School of Electrical Engineering, Zhengzhou University |
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| Copyright | South China University of Technology, Academy of Mathematics and Systems Science, CAS and Springer-Verlag GmbH Germany, part of Springer Nature 2021 South China University of Technology, Academy of Mathematics and Systems Science, CAS and Springer-Verlag GmbH Germany, part of Springer Nature 2021. Copyright © Wanfang Data Co. Ltd. All Rights Reserved. |
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| GrantInformation_xml | – fundername: (This work was supported by the Science&Technology Research Project in Henan Province of China); (the National Key Research and Development Program of China); (and the National Natural Science Foundation of China); Special thanks go to Elsevier,MDPI and American Chemical Society Publications for their permis-sions of the reproduction and reuse Figs.1,4,7 and 8,Figs.5 and 6,and Figs.11 and 12,respectively; Special thanks also go to Dr; Yuqiong Zhang at China Electric Power Research Institute,Dr; Li Sun at South-east University and Dr; Ting He at Jinan University for their support in figure data of the field application results funderid: (This work was supported by the Science&Technology Research Project in Henan Province of China); (the National Key Research and Development Program of China); (and the National Natural Science Foundation of China); Special thanks go to Elsevier,MDPI and American Chemical Society Publications for their permis-sions of the reproduction and reuse Figs.1,4,7 and 8,Figs.5 and 6,and Figs.11 and 12,respectively; Special thanks also go to Dr; Yuqiong Zhang at China Electric Power Research Institute,Dr; Li Sun at South-east University and Dr; Ting He at Jinan University for their support in figure data of the field application results |
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| Keywords | Active disturbance rejection control (ADRC) Coal-fired power plant Thermal processes Proportional–integral–derivative (PID) Field applications Proportional-integral-derivative(PID) Active disturbance rejection control(ADRC) |
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| Snippet | This paper focuses on the recent progress in the adoption of active disturbance rejection control (ADRC) in thermal processes as a viable alternative to... This paper focuses on the recent progress in the adoption of active disturbance rejection control(ADRC)in thermal pro-cesses as a viable alternative to... |
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| SubjectTerms | Active control Coal-fired power plants Complexity Computational Intelligence Control Control and Systems Theory Engineering Gas turbines Mechatronics Nuclear power plants Optimization Proportional integral derivative Research Article Robotics Systems Theory Thermal power plants |
| Title | On transitioning from PID to ADRC in thermal power plants |
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