Design of HTS Magnetically Controlled Saturable Reactor

Hong Da Dong

doi:10.4028/www.scientific.net/AMM.380-384.2982

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 380-384Design of HTS Magnetically Controlled Saturable...

Design of HTS Magnetically Controlled Saturable Reactor

Abstract:

There are many problems for traditional reactive power compensation devices to be applied in the grid, such as discontinuous adjustment, small capacity, complex control and harmonics. This paper aims to study a high temperature superconducting magnetically controlled saturable reactor (HTS MCSR), which has a wide range of stepless adjustment. It has a good application prospect in large scale reactive power compensation devices. Based on research of theory and core structure, a shaped-cylinder core is proposed. By means of calculation of saturable reactor and analysis of algebraic and magnetic circuit model, design of 220V HTS MCSR is finished. Results of normal conductive reactor prototype and simulations verify that the range of inductance adjustment is very wide. Furthermore, conceptual design of 35kV HTS MCSR confirms its reactive power capacity is so large, therefore, it is suitable for high voltage power system.

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Periodical:

Applied Mechanics and Materials (Volumes 380-384)

Pages:

2982-2985

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.380-384.2982

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Online since:

August 2013

Authors:

Hong Da Dong

Keywords:

Core Structure, Design of HTS MCSR, Reactive Power Capacity

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References

[1] Tian Mingxing, Li Qingfu, Wang Shuhong. An equivalent physical model and a mathematical model of the controlled saturable rreactor [J]. Transactions of China Electrotechnical Society. 2002 (17) 18-21.

Google Scholar

[2] Liu Dichen, Chen Bochao, Tian Cuihua, et al. Application and type selection analysis of new type controlled reactor in power system [J]. Power System Technology. 1999 (23) 52-58.

Google Scholar

[3] Mu Xianmin, Wang Jianze, Wei Xiaoxia, et al. Novel ferrite orthogonal core controllable reactor [J]. Proceeding of the CSEE. 2008 (28) 57-62.

Google Scholar

[4] Wang Ziqiang, Yin Zhidong, Zhou Lixia, et al. Magnetic structure of controllable reactor and loss analysis based on ansys [J]. Power System Technology. 2010 (34) 168-172.

Google Scholar

[5] Tian Mingxing, Li Qingfu. Magnetic saturation type and transformer type controllable shunt reactor [J]. High Voltage Engineering. 2003 (29) 26-27.

Google Scholar

[6] Tian Mingxing, Li Qingfu. An equivalent circuit and simulation analysis of magnetically saturated controllable reactors [J]. Transactions of China Electrotechnical Society. 2003 (18) 64-67.

Google Scholar