Add to ORKGTritium retention and removal are critical issues for the success of ITER or any DT fusion reactor. The Tokamak Fusion Test Reactor, TFTR, is the first fusion facility to afford the opportunity to study the tritium retention and removal over an extended period. In TFTR, tritium accumulates on all surfaces with line of sight to the plasma by codeposition of tritium with carbon. Measurements of both deuterium and tritium retention fractions have yielded retention between 0.2 and 0.6 of the injected fuel in the torus. Tritium has been successfully removed from TFTR by glow discharge cleaning and by air purges. The in-vessel inventory was reduced by a factor of 2, facilitating machine maintenance. In TFTR, the amount of dust recovered from the ...
Tritium issues will play a central role in the performance and operation of next-step deuterium-trit...
Tritium retention analysis and tritium concentration measurement have been made during the large Tok...
Future fusion reactors, like ITER, will rely on an active exhaust system to pump tritium (T) in the ...
Tritium retention and removal are critical issues for the success of ITER or any DT fusion reactor. ...
Recent experiments on the Tokamak Fusion Test Reactor (TFTR) have afforded an opportunity to measure...
Tritium management is a key enabling element in fusion technology. Tritium fuel was used in 3.5 year...
The Tokamak Fusion Test Reactor (TFTR) tritium retention experience is reviewed and the data related...
A simple tritium cleanup experiment was carried out in TFTR following the initial high power deuteri...
Tritium removal is a major unsolved development task for next-step devices with carbon plasma-facing...
The International Thermonuclear Experimental Reactor (ITER) is envisioned to be the next major step ...
The Princeton Plasma Physics Laboratory (PPPL) Engineering and Research Staff in collaboration with ...
Mechanisms underlying the retention of fuel species in tokamaks with carbon plasma-facing components...
TFTR Tritium Stack and Area Monitoring Systems have been developed to provide the required level of ...
JET is a unique facility in the preparation of ITER in that it is the largest operating fusion devic...
Tritium and deuterium are expected to be the fuel for the first fusion power reactors. Being radioac...
Tritium issues will play a central role in the performance and operation of next-step deuterium-trit...
Tritium retention analysis and tritium concentration measurement have been made during the large Tok...
Future fusion reactors, like ITER, will rely on an active exhaust system to pump tritium (T) in the ...
Tritium retention and removal are critical issues for the success of ITER or any DT fusion reactor. ...
Recent experiments on the Tokamak Fusion Test Reactor (TFTR) have afforded an opportunity to measure...
Tritium management is a key enabling element in fusion technology. Tritium fuel was used in 3.5 year...
The Tokamak Fusion Test Reactor (TFTR) tritium retention experience is reviewed and the data related...
A simple tritium cleanup experiment was carried out in TFTR following the initial high power deuteri...
Tritium removal is a major unsolved development task for next-step devices with carbon plasma-facing...
The International Thermonuclear Experimental Reactor (ITER) is envisioned to be the next major step ...
The Princeton Plasma Physics Laboratory (PPPL) Engineering and Research Staff in collaboration with ...
Mechanisms underlying the retention of fuel species in tokamaks with carbon plasma-facing components...
TFTR Tritium Stack and Area Monitoring Systems have been developed to provide the required level of ...
JET is a unique facility in the preparation of ITER in that it is the largest operating fusion devic...
Tritium and deuterium are expected to be the fuel for the first fusion power reactors. Being radioac...
Tritium issues will play a central role in the performance and operation of next-step deuterium-trit...
Tritium retention analysis and tritium concentration measurement have been made during the large Tok...
Future fusion reactors, like ITER, will rely on an active exhaust system to pump tritium (T) in the ...