蒙特卡罗粒子输运计算自动建模程序MCAM在ITER核分析建模中的应用

曾勤; 卢磊; 李莹; 丁爱平; 郑善良; 吴宜灿

doi:10.11804/NuclPhysRev.23.02.138

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蒙特卡罗粒子输运计算自动建模程序MCAM在ITER核分析建模中的应用

曾勤, 卢磊, 李莹, 丁爱平, 郑善良, 吴宜灿

文章导航 > 原子核物理评论 > 2006 > 23(2): 138-141

曾勤, 卢磊, 李莹, 丁爱平, 郑善良, 吴宜灿. 蒙特卡罗粒子输运计算自动建模程序MCAM在ITER核分析建模中的应用[J]. 原子核物理评论, 2006, 23(2): 138-141. doi: 10.11804/NuclPhysRev.23.02.138

引用本文:

ZENG Qin, LU Lei, LI Ying, DING Ai-ping, ZHENG Shan-liang, WU Yi-can. Application of Automatic Modeling Code for Monte Carlo Particle Transport for ITER Nuclear Analysis[J]. Nuclear Physics Review, 2006, 23(2): 138-141. doi: 10.11804/NuclPhysRev.23.02.138

Citation:

ZENG Qin, LU Lei, LI Ying, DING Ai-ping, ZHENG Shan-liang, WU Yi-can. Application of Automatic Modeling Code for Monte Carlo Particle Transport for ITER Nuclear Analysis[J]. Nuclear Physics Review, 2006, 23(2): 138-141. doi: 10.11804/NuclPhysRev.23.02.138

蒙特卡罗粒子输运计算自动建模程序MCAM在ITER核分析建模中的应用

doi: 10.11804/NuclPhysRev.23.02.138

中国科学院等离子体物理研究所,安徽合肥230031

Application of Automatic Modeling Code for Monte Carlo Particle Transport for ITER Nuclear Analysis

Institute of Plasma Physics, Chinese Academy of Sciences, Hefei 230031, China

摘要: 国际热核试验堆（ITER）核分析的主要计算工具是三维蒙特卡罗输运程序MCNP。MCAM（MCNP Auto-Modeling system）作为MCNP自动建模与可视化软件，其主要功能是CAD模型与MCNP计算模型之间的数据交互。一方面MCAM可将通用格式的CAD模型转换成MCNP计算模型，另一方面作为一个可视化工具，它可以以CAD模型的方式显示MCNP计算模型中几何及材料等相关信息。主要介绍利用MCAM对ITER三维MCNP模型的改进，主要包括：包层模块的重建和内包层几何细化；模型环向角度从20°到40°的扩展。In order to conduct nuclear analyses on neutronics issues for ITER （International Thermonuclear Experimental Reactor）, a standard three-dimensional model of the ITER reactor is being developed. The complex nuclear
analyses are conducted by MCNP/4C in three dimensions. MCAM （MCNP Auto-Modeling system） , as an implementation of the interface code between modern CAD system and MCNP, is a modeling and visualization tool which can convert a CAD model to neutronics model for MCNP and vice versa. This paper presents the application of MCAM to modify ITER 3-D neutronics model, which include blanket segmentation update, incorporation of fine structures of inboard blanket and the model extension from 20° to 40° in toroidal direction
- 自动建模 /
- MCAM /
- ITER核分析
Abstract: In order to conduct nuclear analyses on neutronics issues for ITER （International Thermonuclear Experimental Reactor）, a standard three-dimensional model of the ITER reactor is being developed. The complex nuclear
analyses are conducted by MCNP/4C in three dimensions. MCAM （MCNP Auto-Modeling system） , as an implementation of the interface code between modern CAD system and MCNP, is a modeling and visualization tool which can convert a CAD model to neutronics model for MCNP and vice versa. This paper presents the application of MCAM to modify ITER 3-D neutronics model, which include blanket segmentation update, incorporation of fine structures of inboard blanket and the model extension from 20° to 40° in toroidal direction
- （automatic modeling /
- MCAM /
- ITER

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蒙特卡罗粒子输运计算自动建模程序MCAM在ITER核分析建模中的应用

doi: 10.11804/NuclPhysRev.23.02.138

中国科学院等离子体物理研究所,安徽合肥230031

收稿日期: 1900-01-01
修回日期: 1900-01-01
刊出日期: 2006-06-20

关键词:

自动建模 /

MCAM /

ITER核分析

摘要: 国际热核试验堆（ITER）核分析的主要计算工具是三维蒙特卡罗输运程序MCNP。MCAM（MCNP Auto-Modeling system）作为MCNP自动建模与可视化软件，其主要功能是CAD模型与MCNP计算模型之间的数据交互。一方面MCAM可将通用格式的CAD模型转换成MCNP计算模型，另一方面作为一个可视化工具，它可以以CAD模型的方式显示MCNP计算模型中几何及材料等相关信息。主要介绍利用MCAM对ITER三维MCNP模型的改进，主要包括：包层模块的重建和内包层几何细化；模型环向角度从20°到40°的扩展。In order to conduct nuclear analyses on neutronics issues for ITER （International Thermonuclear Experimental Reactor）, a standard three-dimensional model of the ITER reactor is being developed. The complex nuclear
analyses are conducted by MCNP/4C in three dimensions. MCAM （MCNP Auto-Modeling system） , as an implementation of the interface code between modern CAD system and MCNP, is a modeling and visualization tool which can convert a CAD model to neutronics model for MCNP and vice versa. This paper presents the application of MCAM to modify ITER 3-D neutronics model, which include blanket segmentation update, incorporation of fine structures of inboard blanket and the model extension from 20° to 40° in toroidal direction