Nuclear-thermal-coupled. optimization code for the fusion breeding blanket conceptual design

doi:10.1016/j.fusengdes.2016.10.004

CORC > 合肥物质科学研究院 > 中国科学院合肥物质科学研究院 > 中科院等离子体物理研究所

	Nuclear-thermal-coupled. optimization code for the fusion breeding blanket conceptual design
	Li, Jia 1; Jiang, Kecheng 2; Zhang, Xiaokang 2; Nie, Xingchen 1; Zhu, Qinjun 2; Liu, Songlin 2
刊名	FUSION ENGINEERING AND DESIGN
	2016-12-01
卷号	113 期号:无页码:37-42
关键词	Blanket Nuclear-thermal Coupling Radial Build Optimization
DOI	10.1016/j.fusengdes.2016.10.004
文献子类	Article
英文摘要	Fusion breeding blanket as one of the key in-vessel components performs the functions of breeding the tritium, removing the nuclear heat and heat flux from plasma chamber as well as acting as part of shielding system. The radial build design which determines the arrangement of function zones and material properties on the radial direction is the basis of the detailed design of fusion breeding blanket. For facilitating the radial build design, this study aims for developing a pre-design code to optimize the radial build of blanket with considering the performance of nuclear and thermal-hydraulic simultaneously. Two main features of this code are: (1) Coupling of the neutronics analysis with the thermal-hydraulic analysis to speed up the analysis progress; (2) preliminary optimization algorithm using one or multiple specified objectives subject to the design criteria in the form of constrains imposed on design variables and performance parameters within the possible engineering ranges. This pre-design code has been applied to the conceptual design of water-cooled ceramic breeding blanket in project of China fusion engineering testing reactor (CFETR). (C) 2016 Elsevier B.V. All rights reserved.
WOS关键词	CFETR
WOS研究方向	Nuclear Science & Technology
语种	英语
WOS记录号	WOS:000390733200006
资助机构	National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; National special project for magnetic confined nuclear fusion energy(2013GB108004 ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002) ; 2015GB108002)
内容类型	期刊论文
源URL	[http://ir.hfcas.ac.cn:8080/handle/334002/21849]
专题	合肥物质科学研究院_中科院等离子体物理研究所
作者单位	1.Univ Sci & Technol China, Sch Nucl Sci & Technol, Hefei 230027, Anhui, Peoples R China 2.Chinese Acad Sci, Inst Plasma Phys, Hefei 230031, Anhui, Peoples R China
推荐引用方式 GB/T 7714	Li, Jia,Jiang, Kecheng,Zhang, Xiaokang,et al. Nuclear-thermal-coupled. optimization code for the fusion breeding blanket conceptual design[J]. FUSION ENGINEERING AND DESIGN,2016,113(无):37-42.
APA	Li, Jia,Jiang, Kecheng,Zhang, Xiaokang,Nie, Xingchen,Zhu, Qinjun,&Liu, Songlin.(2016).Nuclear-thermal-coupled. optimization code for the fusion breeding blanket conceptual design.FUSION ENGINEERING AND DESIGN,113(无),37-42.
MLA	Li, Jia,et al."Nuclear-thermal-coupled. optimization code for the fusion breeding blanket conceptual design".FUSION ENGINEERING AND DESIGN 113.无(2016):37-42.