Relevance of Tritium Breeder Irradiation Testing in a Fusion Prototypic Neutron Source

Chase N. Taylor; Matthew D. Eklund; Thomas F. Fuerst; Masashi Shimada; Paul W. Humrickhouse; Tim Bohm

doi:10.1080/15361055.2022.2156205

Relevance of Tritium Breeder Irradiation Testing in a Fusion Prototypic Neutron Source

Chase N. Taylor
, Matthew D. Eklund
, Thomas F. Fuerst
, Masashi Shimada
, Paul W. Humrickhouse
, Tim Bohm

Blanket and Fuel Cycle

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

A fusion prototypic neutron source (FPNS) will play a fundamental role in testing and developing fusion materials that can withstand the harsh fusion environment. A thorough assessment is conducted to determine whether blanket materials would benefit from FPNS testing. Because of the cross sections for the various blanket materials, lithium-containing materials can generally be tested adequately using existing fission irradiation capabilities instead of waiting for or relying solely on future FPNS experiments. However, non-lithium blanket materials, such as beryllium multipliers and flow channel inserts, should be tested under a fusion neutron spectrum.

Original language	English
Pages (from-to)	941-951
Number of pages	11
Journal	Fusion Science and Technology
Volume	79
Issue number	8
DOIs	https://doi.org/10.1080/15361055.2022.2156205
State	Published - 2023

Funding

This work was prepared for the U.S. Department of Energy (DOE), Office of Fusion Energy Sciences, under the DOE Idaho Field Office contract number DE-AC07-05ID14517.

Keywords

Neutron source
breeding blanket
helium
tritium

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10.1080/15361055.2022.2156205

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title = "Relevance of Tritium Breeder Irradiation Testing in a Fusion Prototypic Neutron Source",

abstract = "A fusion prototypic neutron source (FPNS) will play a fundamental role in testing and developing fusion materials that can withstand the harsh fusion environment. A thorough assessment is conducted to determine whether blanket materials would benefit from FPNS testing. Because of the cross sections for the various blanket materials, lithium-containing materials can generally be tested adequately using existing fission irradiation capabilities instead of waiting for or relying solely on future FPNS experiments. However, non-lithium blanket materials, such as beryllium multipliers and flow channel inserts, should be tested under a fusion neutron spectrum.",

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AU - Shimada, Masashi

AU - Humrickhouse, Paul W.

AU - Bohm, Tim

PY - 2023

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AB - A fusion prototypic neutron source (FPNS) will play a fundamental role in testing and developing fusion materials that can withstand the harsh fusion environment. A thorough assessment is conducted to determine whether blanket materials would benefit from FPNS testing. Because of the cross sections for the various blanket materials, lithium-containing materials can generally be tested adequately using existing fission irradiation capabilities instead of waiting for or relying solely on future FPNS experiments. However, non-lithium blanket materials, such as beryllium multipliers and flow channel inserts, should be tested under a fusion neutron spectrum.

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KW - helium

KW - tritium

UR - https://www.scopus.com/pages/publications/85147802697

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ER -

Relevance of Tritium Breeder Irradiation Testing in a Fusion Prototypic Neutron Source

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