Application of Virtual Simulation Technology in Fusion Engineering

Abstract:

Article Preview

Nuclear fusion is one of the most important ways to resolve human energy issues. The main structure of nuclear fusion device and its functions are introduced in this article. Virtual simulation technology has been used in the process of the conceptual design, detailed design and optimization of the fusion device structure. Electromagnetic analysis of the ITER feeder system show the specific application of virtual simulation technology in nuclear fusion engineering, as well as the thermal analysis of ITER thermal shield. It verifies the importance of virtual simulation technology.

Info:

Periodical:

Advanced Materials Research (Volumes 452-453)

Edited by:

Liu Pei

Pages:

228-232

Citation:

M. Z. Lei et al., "Application of Virtual Simulation Technology in Fusion Engineering", Advanced Materials Research, Vols. 452-453, pp. 228-232, 2012

Online since:

January 2012

Export:

Price:

$41.00

[1] Hamlyn-Harris C, Her N. I, Le Barbier R, et al. System Design Description (DDD) 27 Thermal Shield. France: ITER (2010), 355MXD.

[2] Duck-Hoi Kim, Dong-Keun Oh, Sunil Pak, et al. Fusion Engineer and Design, Vol. 85 (2010), p.1747.

[3] Yu. Krasikov, V. Bykov, G. Dalle Carbonare, et al. Fusion Engineer and Design, Vol. 66–68 (2003), p.1049.

[4] V. Bykov, Yu. Krasikov, S. Grigoriev, et al. Fusion Engineer and Design. Vol. 75–79 (2005), p.155.

[5] Nam. K, Her N. I, Noh C. H. 2010, Detailed Design of Thermal Shield. France: ITER, 34Z6V8.

[6] W. Chung, B.C. Kim, J.W. Sa, et al. Fusion Engineer and Design, Vol. 83 (2008), p.1588.

[7] Her. N. I, Terasawa. A, Yu. J. Load Specification for the ITER Thermal Shields. France: ITER(2010), 33N92A.

[8] Liu S M, Song Y T, Wu S T, et al. Cryogenics and Superconductivity, Vol. 3(2008), P. 8.

[9] Liu S M, Song Y T, Wu S T, et al. Cryogenics and Superconductivity, Vol. 7(2010), P. 20.

[10] P. Bauer, A.K. Sahu, N. Sato. The ITER Magnet Feeder Systems Functional Specification and Interface Document. France: ITER (2010), ITER_D_2EH9YM.