SENSITIVITY STUDY FOR TRITIUM PERMEATION IN HELIUM-COOLED LEAD-LITHIUM DEMO BLANKET WITH THE FUS-TPC CODE

F. Franza; A. Ciampichetti; I. Ricapito; M. Zucchetti

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SENSITIVITY STUDY FOR TRITIUM PERMEATION IN HELIUM-COOLED LEAD-LITHIUM DEMO BLANKET WITH THE FUS-TPC CODE

机译：用FUS-TPC编码研究氦冷铅-锂演示毯中的RIT渗透敏感性

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Hydrogen dissolves in and permeates through most materials, thus it is important to understand the permeation, diffusion and dissolution phenomena of hydrogen and its isotopes in materials. We address the problem of tritium transport in Helium Cooled Lead-Lithium (HCLL) DEMO blanket from lead-lithium breeder through different heat transfer surfaces to the environment by developing a computational code (FUS-TPC). The main features of the code are briefly described and a parametric study is performed in order to identify the most influencing parameters in terms of tritium releases into the environment and of tritium inventories. The results showed that the results are strongly affected by the tritium Sievert's constant in Lead-Lithium and the efficiency of permeation barriers.

机译：氢溶解并渗透到大多数材料中，因此了解氢及其同位素在材料中的渗透，扩散和溶解现象很重要。通过开发计算代码（FUS-TPC），我们解决了lead从铅锂育种师通过不同的热传递表面到环境的氦冷却铅锂（HCLL）DEMO覆盖层中transport的运输问题。简要描述了该代码的主要功能，并进行了参数研究，以便根据in向环境的排放量和tri的清单确定最具影响力的参数。结果表明，铅-锂中的SSievert常数和渗透屏障的效率对结果有很大的影响。

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来源
《Fusion Science and Technology》 |2013年第3期|631-635|共5页
作者
F. Franza; A. Ciampichetti; I. Ricapito; M. Zucchetti;
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作者单位

Karlsruhe Institute of Technology, Eggenstein-Leopoldshafen, 76344, Germany;

ENEA C.R. Brasimone, Camugnano, I-40032, Boulogne, Italy;

Fusion for Energy (F4E), Barcelona, Spain;

Politecnico di Torino, Turin, 10129, Italy;

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正文语种 eng
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关键词
tritium; blanket; hcll; demo;

机译：氚;毯;hcll;演示;

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1. Tritium transport analysis in HCPB DEMO blanket with the FUS-TPC code [J] . F. Franza, L.V. Boccaccini, A.Ciampichetti, Fusion Engineering and Design . 2013,第9a10期

机译：使用FUS-TPC代码在HCPB DEMO毯子中进行transport迁移分析
2. An example pathway to a fusion power plant system based on lead-lithium breeder: Comparison of the dual-coolant lead-lithium (DCLL) blanket with the helium-cooled lead-lithium (HCLL) concept as initial step [J] . S. Malang, A.R. Raffray, N.B. Morley Fusion Engineering and Design . 2009,第12期

机译：基于铅锂育种师的聚变电站系统的示例路径：比较双冷却剂铅锂（DCLL）覆盖层和氦冷却铅锂（HCLL）概念作为初始步骤
3. Tritium Extraction from Lithium-Lead in the EU DEMO Blanket Using Permeator Against Vacuum [J] . DAuria V., Dulla S., Ravetto P., Fusion Science and Technology . 2017,第4期

机译：使用抗真空渗透器从欧盟DEMO毯中的锂铅中提取Extract
4. Tritium permeation issues for helium-cooled breeding blankets [C] . Franza F., Boccaccini L.V., Demange D., Symposium on Fusion Engineering . 2013

机译：氦气冷却毯的渗透问题
5. Modeling and Analysis of Tritium Transport in Multi-Region Lead-Lithium Liquid Metal Blankets. [D] . Zhang, Hongjie. 2014

机译：多区域铅锂液态金属毯中Transport迁移的建模与分析。
6. Sensitivity and specificity of breast cancer ICD-9-CM codes in three Italian administrative healthcare databases: a diagnostic accuracy study [O] . Iosief Abraha, Diego Serraino, Alessandro Montedori, 2018

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7. Thermal-Hydraulic Analysis of the EU DEMO Helium-Cooled Pebble Bed Breeding Blanket Using the GETTHEM Code [O] . Froio, Antonio, Cismondi, Fabio, Savoldi, Laura, 2018

机译：使用GETTHEM代码对EU DEMO氦冷却卵石床繁殖毯进行热工液压分析
8. Evaluation of US demo helium-cooled blanket options [R] . Wong, C. P. C. , McQuillan, B. W. , Schleicher, R. W. 1995

机译：评估美国演示氦冷却毯选项

SENSITIVITY STUDY FOR TRITIUM PERMEATION IN HELIUM-COOLED LEAD-LITHIUM DEMO BLANKET WITH THE FUS-TPC CODE

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