核能数值反应堆国内外研究现状及进展
Current Research Status and Progress of Nuclear Energy Virtual Reactor in China and Abroad

DOI: 10.12677/NST.2015.32007, PP. 41-47

Keywords: 数值反应堆，CASL，NEAMS，NURESIM，数字化电厂
Nuclear Virtual Reactor, CASL, NEAMS, NURESIM, Digital Plant

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Abstract:

本文介绍了核能先进仿真建模领域的最新进展及数值反应堆的概念，对美国及欧洲针对核能数值反应堆的相关研发项目如CASL、NEAMS、NURESIM等进行了详细的调研，对项目的研究内容、研究方法等进行了阐述，结合国内外的发展情况，总结了核能数值反应堆发展的关键技术和挑战，可为我国开展核能数值反应堆研究提供技术支持。
The latest progress in the field of nuclear energy advanced modeling & simulation is introduced in this paper, in which the meaning of the nuclear virtual reactor or numerical nuclear reactor is re-viewed. A detailed research and introduction about nuclear virtual reactor programs in the United State and Europe, such as CASL, NEAMS and NURESIM are addressed. Based on the research, the key technology and challenge of developing a nuclear virtual reactor are summarized, which can give the support to the further study of the nuclear virtual reactor.

References

[1]	Turinsky, P.J. (2012) Advances in multi-physics and high performance computing in support of nuclear reactor power system modeling and simulation. Nuclear Engineering and Technology, 44, 103.
[2]	Weber, D.P., Sofu, T., Pfeiffer, P.A., Yang, W.S., et al. (2004) The numerical nuclear reactor for high fidelity integrated simulation of neutronic, ther-mal-hydraulic and thermo mechanical phenomena-project overview. The Physics of Fuel Cycles and Advanced Nuclear Systems: Global Development, Chicago, 25-29 April 2004, 13-20.
[3]	Energy innovation hub for modeling and simulation (2011). http://www.casl.gov-/docs/Energy_Innovation_Hub_for_Modeling_and_Simulation.pdf
[4]	Lewis, A.A. and Weigand, G.G. (2011) Virtual Office, Community, and Computing (VOCC): Designing an energy science hub colla-boration system. Lecture Notes in Computer Science, 6776, 425-434.
[5]	CASL (2011) CASL project summary. http://web.ornl.gov/sci/nsed/docs/CASL_Project_Summary.pdf
[6]	CASL. Virtual environment for reactor application. http://www.casl.gov/docs/CASL-U-2013-042-001.pdf
[7]	CASL. Advanced modeling applications. http://www.casl.gov/AMA.shtml
[8]	CASL. Physics integration (PHI). http://www.casl.gov/PHI.shtml
[9]	CASL. Radiation transport methods (RTM). http://www.casl.gov/RTM.shtml
[10]	CASL. Thermal hydraulics methods (THM). http://www.casl.gov/THM.shtml
[11]	CASL. Materials performance and optimization (MPO). http://www.casl.gov/MPO.shtml
[12]	Rashid, J.Y.R., Yagnik, S.K. and Montgomery, R.O. (2011) Light water reactor fuel performance modeling and multi-dimensional simulation. JOM, 63, 81-88.
[13]	CASL. Validation and uncertainty quantification (VUQ). http://www.casl.gov/VUQ.shtml
[14]	NEAMS executive program plan. http://energy.gov/ne/downloads/nuclear-energy-advanced-modeling-and-simulation-neams-program-plan
[15]	Advanced modeling & simulation. http://energy.gov/ne/nuclear-reactor-technologies
[16]	Predictive simulation. http://energy.gov/ne/advanced-modeling-simulation/predictive-simulation
[17]	Advanced nuclear reactors. http://energy.gov/ne/advanced-modeling-simulation/advanced-nuclear-reactors
[18]	NEAMS quarterly report for Oc-tober-December 2013. http://energy.gov/ne/downloads/neams-quarterly-report-october-december-2013
[19]	Nuclear-fuels. http://energy.gov/ne/advanced-modeling-simulation/nuclear-fuels
[20]	NURESIM final activity report (FAR). http://www.nuresim.com/www/nurisp/index.-php?art=31
[21]	SOLOME. The open source integration platform for numerical simulation. http://www.salomeplatform.org/
[22]	NURISP overview. http://www.nuresim.com/-www/nurisp/index.php?art=31
[23]	NURESAFE_D1_11_Project_Presentation_v1_2. http://www.nuresafe.eu/index.php?-art=31

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