Abstract
The results of neutron transport calculations of the hydrogen formation based on the JENDL gas-production cross section file are discussed for some metals and alloys, namely {sup 51}V, Cr, Fe, Ni, Mo, austenitic stainless steel (Ti modified 316SS:PCA), ferritic steel (Fe-8Cr-2W:F82H) and the vanadium-base alloy (V-5Cr-5Ti). Impact of the steel fraction in steel/water homogeneous blanket/shield compositions on the hydrogen formation rate in above-mentioned metals and alloys is discussed both for the hydrogen formation in the first wall and the blanket/shield components. The results obtained for the first wall are compared with those for the helium formation obtained at JAERI by the same calculational conditions. Hydrogen formation rates at the first wall having {sup 51}V, Cr, Fe, Ni and Mo are larger than those of helium by 3-8 times. (author).
Zimin, S;
Takatsu, Hideyuki;
Mori, Seiji
[1]
- Japan Atomic Energy Research Inst., Naka, Ibaraki (Japan). Naka Fusion Research Establishment
Citation Formats
Zimin, S, Takatsu, Hideyuki, and Mori, Seiji.
Hydrogen formation in metals and alloys during fusion reactor operation.
Japan: N. p.,
1994.
Web.
Zimin, S, Takatsu, Hideyuki, & Mori, Seiji.
Hydrogen formation in metals and alloys during fusion reactor operation.
Japan.
Zimin, S, Takatsu, Hideyuki, and Mori, Seiji.
1994.
"Hydrogen formation in metals and alloys during fusion reactor operation."
Japan.
@misc{etde_10109275,
title = {Hydrogen formation in metals and alloys during fusion reactor operation}
author = {Zimin, S, Takatsu, Hideyuki, and Mori, Seiji}
abstractNote = {The results of neutron transport calculations of the hydrogen formation based on the JENDL gas-production cross section file are discussed for some metals and alloys, namely {sup 51}V, Cr, Fe, Ni, Mo, austenitic stainless steel (Ti modified 316SS:PCA), ferritic steel (Fe-8Cr-2W:F82H) and the vanadium-base alloy (V-5Cr-5Ti). Impact of the steel fraction in steel/water homogeneous blanket/shield compositions on the hydrogen formation rate in above-mentioned metals and alloys is discussed both for the hydrogen formation in the first wall and the blanket/shield components. The results obtained for the first wall are compared with those for the helium formation obtained at JAERI by the same calculational conditions. Hydrogen formation rates at the first wall having {sup 51}V, Cr, Fe, Ni and Mo are larger than those of helium by 3-8 times. (author).}
place = {Japan}
year = {1994}
month = {Aug}
}
title = {Hydrogen formation in metals and alloys during fusion reactor operation}
author = {Zimin, S, Takatsu, Hideyuki, and Mori, Seiji}
abstractNote = {The results of neutron transport calculations of the hydrogen formation based on the JENDL gas-production cross section file are discussed for some metals and alloys, namely {sup 51}V, Cr, Fe, Ni, Mo, austenitic stainless steel (Ti modified 316SS:PCA), ferritic steel (Fe-8Cr-2W:F82H) and the vanadium-base alloy (V-5Cr-5Ti). Impact of the steel fraction in steel/water homogeneous blanket/shield compositions on the hydrogen formation rate in above-mentioned metals and alloys is discussed both for the hydrogen formation in the first wall and the blanket/shield components. The results obtained for the first wall are compared with those for the helium formation obtained at JAERI by the same calculational conditions. Hydrogen formation rates at the first wall having {sup 51}V, Cr, Fe, Ni and Mo are larger than those of helium by 3-8 times. (author).}
place = {Japan}
year = {1994}
month = {Aug}
}