Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System

Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System

碩士 === 國立中正大學 === 機械工程系研究所 === 106 === There have been continual efforts by the academic and industrial communities to improve the reliability and performance of turbomachinery, such as compressors, as new technologies become available. Active magnetic bearing (AMB) is one such enhancing technology...

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Main Authors: YANG, JIE-REN, 楊介仁
Other Authors: Chen, Shyh-Leh
Format: Others
Language:zh-TW
Published: 2018
Online Access:http://ndltd.ncl.edu.tw/handle/49dze7
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spelling ndltd-TW-106CCU004890142019-05-16T00:07:48Z http://ndltd.ncl.edu.tw/handle/49dze7 Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System 5自由度三極磁浮軸承系統之實驗驗證 YANG, JIE-REN 楊介仁 碩士 國立中正大學 機械工程系研究所 106 There have been continual efforts by the academic and industrial communities to improve the reliability and performance of turbomachinery, such as compressors, as new technologies become available. Active magnetic bearing (AMB) is one such enhancing technology that has been gaining strong momentum in recent years. However, the overall cost of AMB is high since position sensors and power amplifiers are expensive. This paper proposes a 5-DOF AMB system using just six power amplifiers. In this study, the relationships between the magnetic force, coil current, and air gap will be identified experimentally. The system model and controller will be modified accordingly. Numerical simulation results show that the rotor can be theoretically stabilized at the equilibrium position. Experiment show that using a two stage decoupling control method with view of effective mass can also stabilize the rotor. Chen, Shyh-Leh 陳世樂 2018 學位論文 ; thesis 77 zh-TW
collection NDLTD
language zh-TW
format Others
sources NDLTD
description 碩士 === 國立中正大學 === 機械工程系研究所 === 106 === There have been continual efforts by the academic and industrial communities to improve the reliability and performance of turbomachinery, such as compressors, as new technologies become available. Active magnetic bearing (AMB) is one such enhancing technology that has been gaining strong momentum in recent years. However, the overall cost of AMB is high since position sensors and power amplifiers are expensive. This paper proposes a 5-DOF AMB system using just six power amplifiers. In this study, the relationships between the magnetic force, coil current, and air gap will be identified experimentally. The system model and controller will be modified accordingly. Numerical simulation results show that the rotor can be theoretically stabilized at the equilibrium position. Experiment show that using a two stage decoupling control method with view of effective mass can also stabilize the rotor.
author2 Chen, Shyh-Leh
author_facet Chen, Shyh-Leh
YANG, JIE-REN
楊介仁
author YANG, JIE-REN
楊介仁
spellingShingle YANG, JIE-REN
楊介仁
Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
author_sort YANG, JIE-REN
title Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
title_short Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
title_full Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
title_fullStr Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
title_full_unstemmed Experimental Validation of a 5-DOF Three-pole Active Magnetic Bearing System
title_sort experimental validation of a 5-dof three-pole active magnetic bearing system
publishDate 2018
url http://ndltd.ncl.edu.tw/handle/49dze7
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