Abstract
TSTA is operated under the US-Japan collaboration program for the study of fusion fuel cycle technology. A plasma exhaust processing subsystem, JAERI Fuel Cleanup (JFCU) was fabricated in Japan, and installed at the TSTA as a major subsystem of the TSTA loop under the agreement. This process is based on some Japanese developed components, and designed to meet TSTA requirements by both parties. This document describes all the technical and safety features in accordance with the LANL QA format. The process has a capability to process simulated plasma exhaust at the flow rate of 15 mol/h, that is 1/5 for ITER. (author).
Konishi, Satoshi;
Hayashi, Takumi;
Naruse, Yuji;
Okuno, Kenji;
[1]
Carlson, R V;
Anderson, J L
- Japan Atomic Energy Research Inst., Naka, Ibaraki (Japan). Naka Fusion Research Establishment
Citation Formats
Konishi, Satoshi, Hayashi, Takumi, Naruse, Yuji, Okuno, Kenji, Carlson, R V, and Anderson, J L.
Design of the JAERI Fuel Cleanup System for the Tritium Systems Test Assembly. System design description of the JAERI fuel cleanup system.
Japan: N. p.,
1993.
Web.
Konishi, Satoshi, Hayashi, Takumi, Naruse, Yuji, Okuno, Kenji, Carlson, R V, & Anderson, J L.
Design of the JAERI Fuel Cleanup System for the Tritium Systems Test Assembly. System design description of the JAERI fuel cleanup system.
Japan.
Konishi, Satoshi, Hayashi, Takumi, Naruse, Yuji, Okuno, Kenji, Carlson, R V, and Anderson, J L.
1993.
"Design of the JAERI Fuel Cleanup System for the Tritium Systems Test Assembly. System design description of the JAERI fuel cleanup system."
Japan.
@misc{etde_10120770,
title = {Design of the JAERI Fuel Cleanup System for the Tritium Systems Test Assembly. System design description of the JAERI fuel cleanup system}
author = {Konishi, Satoshi, Hayashi, Takumi, Naruse, Yuji, Okuno, Kenji, Carlson, R V, and Anderson, J L}
abstractNote = {TSTA is operated under the US-Japan collaboration program for the study of fusion fuel cycle technology. A plasma exhaust processing subsystem, JAERI Fuel Cleanup (JFCU) was fabricated in Japan, and installed at the TSTA as a major subsystem of the TSTA loop under the agreement. This process is based on some Japanese developed components, and designed to meet TSTA requirements by both parties. This document describes all the technical and safety features in accordance with the LANL QA format. The process has a capability to process simulated plasma exhaust at the flow rate of 15 mol/h, that is 1/5 for ITER. (author).}
place = {Japan}
year = {1993}
month = {Mar}
}
title = {Design of the JAERI Fuel Cleanup System for the Tritium Systems Test Assembly. System design description of the JAERI fuel cleanup system}
author = {Konishi, Satoshi, Hayashi, Takumi, Naruse, Yuji, Okuno, Kenji, Carlson, R V, and Anderson, J L}
abstractNote = {TSTA is operated under the US-Japan collaboration program for the study of fusion fuel cycle technology. A plasma exhaust processing subsystem, JAERI Fuel Cleanup (JFCU) was fabricated in Japan, and installed at the TSTA as a major subsystem of the TSTA loop under the agreement. This process is based on some Japanese developed components, and designed to meet TSTA requirements by both parties. This document describes all the technical and safety features in accordance with the LANL QA format. The process has a capability to process simulated plasma exhaust at the flow rate of 15 mol/h, that is 1/5 for ITER. (author).}
place = {Japan}
year = {1993}
month = {Mar}
}