Preliminary design and neutronics analysis of CFETR WCCB experimental mock-up

doi:10.16568/j.0254-6086.201701016

NUCLEAR FUSION AND PLASMA PHYSICS ›› 2017, Vol. 37 ›› Issue (1): 87-93.DOI: 10.16568/j.0254-6086.201701016

• Nuclear Fusion Engineering and Technology • Previous Articles Next Articles

Preliminary design and neutronics analysis of CFETR WCCB experimental mock-up

GAO Fang-fang1, 2, ZHANG Xiao-kang2, ZHU Qing-jun2, HUANG Kai2, LIU Song-lin2

(1. School of Nuclear Science and Technology, University of Science and Technology of China, Hefei 230027; 2. Institute of Plasma Physics, Chinese Academy of Sciences, Hefei 230031)

Received:2015-11-13 Revised:2016-08-03 Online:2017-03-15 Published:2017-03-15

CFETR水冷陶瓷包层中子学试验模块初步设计与分析

高芳芳1, 2，张小康2，祝庆军2*，黄凯2，刘松林2

(1. 中国科学技术大学核科学技术学院，合肥 230027；2. 中国科学院合肥物质研究院等离子体物理研究所，合肥 230031)

作者简介:高芳芳(1991-)，女，福建平潭人，硕士研究生，核科学与技术专业。
基金资助:
国家磁约束核聚变能研究专项(2015GB108002，2013GB108004)；国家自然科学基金(11175207)

Abstract

Abstract:

Based on the water cooled ceramic breeding blanket (WCCB) basic scheme for CFETR, preliminary design and neutronics analysis for experimental mock-up was performed. The experimental mock-up consists of three tritium breeder zones, two neutron multiplying zones and three cooling plates, first wall, tungsten armor and back plate. In the design, the local tritium production rates (TPR) from 6Li and 7Li in breeder zones were measured with Li2CO3 pellet. The neutronics analysis of experimental mock-up was evaluated by MCNP code with the IAEA Fusion Evaluated Nuclear Data Library FENDL2.1, the neutron energy spectra and TPR values of each region were obtained. The distribution of neutron flux and the neutron spectra in each region indicated the edge effect of the experimental mock-up is important, and the neutron spectrum in the central region is the most representative of the neutron energy spectrum of the original blanket. The reflector can elevate the TPR value. By considering the energy spectrum, TPR and the economic factors, the reflector with steel is a better candidate.

Key words: Neutronics, Experimental mock-up, TPR

摘要：

针对中国聚变工程实验堆(CFETR)水冷陶瓷增殖剂包层(WCCB)基本方案，进行了中子学试验模块初步设计与分析。试验模块由3个氚增殖区、2个中子倍增区、3个冷却板以及第一壁、钨保护层、背板组成，并在试验模块中放置碳酸锂探测器进行氚测量。通过MCNP输运程序和IAEA发布的聚变评价核数据库FENDEL-2.1对试验模块中子学性能进行评估，获得了试验模块各区域的中子能谱以及氚产生率(TPR)值；各个区域中子径向通量以及由中子能谱所得到的边缘效应，表明内部区域能谱最能代表原包层的中子能谱；加反射层能提高试验模块的TPR值，综合考虑能谱，TPR以及经济等因素，加钢反射层是较好的选择。

关键词: 中子学, 试验模块, TPR

CLC Number:

TL62+6

GAO Fang-fang1, 2, ZHANG Xiao-kang2, ZHU Qing-jun2, HUANG Kai2, LIU Song-lin2. Preliminary design and neutronics analysis of CFETR WCCB experimental mock-up[J]. NUCLEAR FUSION AND PLASMA PHYSICS, 2017, 37(1): 87-93.

高芳芳1, 2，张小康2，祝庆军2*，黄凯2，刘松林2. CFETR水冷陶瓷包层中子学试验模块初步设计与分析[J]. 核聚变与等离子体物理, 2017, 37(1): 87-93.

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Preliminary design and neutronics analysis of CFETR WCCB experimental mock-up

CFETR水冷陶瓷包层中子学试验模块初步设计与分析

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