Abstract
A first integrated loop test between the JAERI-Fuel Cleanup System (J-FCU) and the Isotope Separation System (ISS) was performed successfully with 80 grams of tritium on Oct., 1991. One of the major purposes of this test was to study interactions between the J-FCU amd the ISS with single column. Another was to investigate dynamics of ISS column I using Laser Raman spectroscopy. Almost no problems occurred during interconnection between the J-FCU and the ISS systems and no major difficulties were encountered during this run, though Ceramic electrolysis cell of the J-FCU was not used for its R and D subject. The loop flow of 2 {approx} 10 SLPM was demonstrated. On-line gas analysis by Laser Raman spectroscopy was worked effectively to study the steady-state and dynamic performances of the ISS. This report describes this test plan and its detail results. (author).
Hayashi, Takumi;
Nakamura, Hirofumi;
Konishi, Satoshi
[1]
- Japan Atomic Energy Research Inst., Naka, Ibaraki (Japan). Naka Fusion Research Establishment; and others
Citation Formats
Hayashi, Takumi, Nakamura, Hirofumi, and Konishi, Satoshi.
Joint operation of the TSTA with the J-FCU under the collaboration between JAERI and U.S.-DOE. A first integrated tritium test between J-FCU and ISS on Oct. 1991.
Japan: N. p.,
1993.
Web.
Hayashi, Takumi, Nakamura, Hirofumi, & Konishi, Satoshi.
Joint operation of the TSTA with the J-FCU under the collaboration between JAERI and U.S.-DOE. A first integrated tritium test between J-FCU and ISS on Oct. 1991.
Japan.
Hayashi, Takumi, Nakamura, Hirofumi, and Konishi, Satoshi.
1993.
"Joint operation of the TSTA with the J-FCU under the collaboration between JAERI and U.S.-DOE. A first integrated tritium test between J-FCU and ISS on Oct. 1991."
Japan.
@misc{etde_10110020,
title = {Joint operation of the TSTA with the J-FCU under the collaboration between JAERI and U.S.-DOE. A first integrated tritium test between J-FCU and ISS on Oct. 1991}
author = {Hayashi, Takumi, Nakamura, Hirofumi, and Konishi, Satoshi}
abstractNote = {A first integrated loop test between the JAERI-Fuel Cleanup System (J-FCU) and the Isotope Separation System (ISS) was performed successfully with 80 grams of tritium on Oct., 1991. One of the major purposes of this test was to study interactions between the J-FCU amd the ISS with single column. Another was to investigate dynamics of ISS column I using Laser Raman spectroscopy. Almost no problems occurred during interconnection between the J-FCU and the ISS systems and no major difficulties were encountered during this run, though Ceramic electrolysis cell of the J-FCU was not used for its R and D subject. The loop flow of 2 {approx} 10 SLPM was demonstrated. On-line gas analysis by Laser Raman spectroscopy was worked effectively to study the steady-state and dynamic performances of the ISS. This report describes this test plan and its detail results. (author).}
place = {Japan}
year = {1993}
month = {Mar}
}
title = {Joint operation of the TSTA with the J-FCU under the collaboration between JAERI and U.S.-DOE. A first integrated tritium test between J-FCU and ISS on Oct. 1991}
author = {Hayashi, Takumi, Nakamura, Hirofumi, and Konishi, Satoshi}
abstractNote = {A first integrated loop test between the JAERI-Fuel Cleanup System (J-FCU) and the Isotope Separation System (ISS) was performed successfully with 80 grams of tritium on Oct., 1991. One of the major purposes of this test was to study interactions between the J-FCU amd the ISS with single column. Another was to investigate dynamics of ISS column I using Laser Raman spectroscopy. Almost no problems occurred during interconnection between the J-FCU and the ISS systems and no major difficulties were encountered during this run, though Ceramic electrolysis cell of the J-FCU was not used for its R and D subject. The loop flow of 2 {approx} 10 SLPM was demonstrated. On-line gas analysis by Laser Raman spectroscopy was worked effectively to study the steady-state and dynamic performances of the ISS. This report describes this test plan and its detail results. (author).}
place = {Japan}
year = {1993}
month = {Mar}
}