Design and Implementation of Safety Protection System for Water-Cooled Magnet of Steady High Magnetic Field Facility

Yun Fei Li; Zhong Cheng Wu; Fei Shen; Hai Feng Wu; Chun Shan Shen

doi:10.4028/www.scientific.net/AMR.403-408.2708

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 403-408Design and Implementation of Safety Protection...

Design and Implementation of Safety Protection System for Water-Cooled Magnet of Steady High Magnetic Field Facility

Abstract:

Steady high magnetic field facility(SHMFF) provides the experimental environment of stable high magnetic field for scientific research. The core of SHMFF is a water-cooled magnet (WM) whose working condition is very rigorous. A kind of safety protection system (SPS) is needed to make sure that the WM could automatically enter safe state when working abnormally. This paper puts forward the strategy of protection for WM of SHMFF based on the way of detecting the resistance of WM’s coil, and explains the design and realization of SPS based on LabVIEW. Test results show that the SPS realized has good performance.

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Periodical:

Advanced Materials Research (Volumes 403-408)

Pages:

2708-2712

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.403-408.2708

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Online since:

November 2011

Authors:

Yun Fei Li, Zhong Cheng Wu, Fei Shen, Hai Feng Wu, Chun Shan Shen

Keywords:

LabVIEW, Safety Protection System, Steady High Magnetic Field Facility, Water-Cooled Magnet

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References

[1] J.A.A.J. Perenboom, S.A.J. Wiegers, P.C.M. Christianen, U. Zeitler, and J.C. Maan. Research in High Magnetic Fields: The Installation at the University of Nijmegen. Journal of Low Temperature Physics, Vol . 133, Nos. 1/2, October (2003).

DOI: 10.1023/a:1025693319046

Google Scholar

[2] D. Bruce Montgomery. Solenoid magnet design: The magnetic and mechnical aspects of resistive and superconducting system.

Google Scholar

[3] M. D. Bird, S. Bole, Y. M. Eyssa, B. -J. Gao, and H. -J. Schneider-Muntau. The World's First 27 T and 30 T Resistive Magnets. IEEE TRANSACTIONS ON MAGNETICS, VOL. 32, NO. 4, JULY 1996, 2444-2449.

DOI: 10.1109/20.511367

Google Scholar

[4] Masaru Tezuka, Tetsuya Kojo, Masaji Naito, Eiji Toyoda, and Satoshi Hanai. Power Supply and Control System for 40T Class Hybrid Magnet System. IEEE TRANSACTIONS ON MAGNETICS, VOL. 32, NO. 4, JULY 1996, 2490-2494.

DOI: 10.1109/20.511378

Google Scholar

[5] G. Landwehr. Problem Connected with the Generation of Continous Magnetic Fields above 15 Tesla. IEEE TRANSACTIONS ON MAGNETICS, VOL. MAG-17, NO. 5, SEPTEMBER (1981).

DOI: 10.1109/tmag.1981.1061321

Google Scholar

[6] Y. Nakagawa, G. Kido, S. Miura, K. Noto, A. Hoshi, M. Kudo, K. Sai and Y. Ishikawa. MONITORING OF A WATER-COOLED COIL OF A HYBRID MAGNET BY MEANS OF PRECISE MEASUREMENTS OF FIELD AND RESISTANCE. IIEEE TRANSACTIONS ON MAGNETICS, VOL. 24, NO. 2 , MARCH 1988, 1387-1389.

DOI: 10.1109/20.11499

Google Scholar

[7] B. J. Gao, M. D. Bird, Y. M. Eyssa, andH. J. Schneider-Muntau. Material and Cooling Requirements for Poly-Bitter Resistive Magnets and Hybrid Inserts Generating Continuous Fields up to 50 T. IEEE TRANSACTIONS ON MAGNETICS, VOL. 30, NO. 4, JULY 1994, 2196-2199.

DOI: 10.1109/20.305708

Google Scholar

[8] High Magnetic Field Laboratory of Grenoble. Control-Monitoring System of the 20 MW Installation.

Google Scholar

[9] X. N. Du, G. Z. Sun. Higher Mathematics. Auhui University Press.

Google Scholar

[10] Information on http: /www. ni. com/compactrio.

Google Scholar