References
- ITER Design Requirements and Guidelines, Level 2, Chapter 10 (Tritium Plant and Detritiation), ITER Document G A0 GDRD 3 00-10-26 W0.1.
- M. GLUGLA et al, “Revovery of Tritium from different Sources by the ITER Tokamak Exhaust Processing System”, Fusion Eng. Des, 61-62, 569 (2002).
- M. GLUGLA et al “Design of a Catalytic Exhaust Clean-up Unit for ITER”, Fusion Eng. Des., 39-40, 893 (1998).
- M. GLUGLA, R.-D. PENZHORN, “Development of Fusion Fuel Cycle Technology at the Tritium Laboratory Karlsruhe: The Experiment CAPRICE”, Fusion Eng. Des, 28, 348 (1995).
- M. GLUGLA et al., “Development of Specific Catalysts for Detritiation of Gases by Counter Current Isotopic Swamping”, Fusion Sci. Technol., 41, 969 (2002).
- M. GLUGLA et al, “A PERMCAT Reactor for Impurity Processing in the JET Active Gas Handling System”, Fusion Eng. Des. 49-50, 817 (2000).
- B. BORNSCHEIN et al, “Tritium Tests with a Technical PERMCAT for Final Clean-up of ITER Exhaust Gases”, Fusion Eng. Des, 68, 51 (2003).
- M. GLUGLA, et al, “Results form Tritium Operation of the Clean-up Faciltiy CAPRICE”, Fusion Technology, 1996, 1197.
- M. GLUGLA et al., “Experience gained during the Modification of the CAPRICE system to CAPER”, Fusion Eng. Des. 49-50, 811 (2000).
- C. WEINHEIMER, “Measuring Neutrino Properties with Tritium”, Proc. of 7th Int. Conf. of Tritium Science and Technology, Baden-Baden, 2004, to be published