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IIR document
Lessons learned in design phase of cernavoda tritium removal facility based on LPCE and cryogenic distillation.
Materials and components in cryogenic distillation.
The analysis of binary fluid ejector assisted solar desalination system.
Kryogenes Design der Tritiumquelle im Experiment KATRIN.
Cryogenic design of the tritium source in the KATRIN experiment.
Mathematical models concerning the design of column for isotopic exchange process in the pilot plant for tritium and deuterium separation.
Cryogenic technologies developed at National Institute for Cryogenics and isotope Technologies RM. Valcea: future perspectives.
The cryogenic system of the Karlsruhe Tritium Neutrino KATRIN experiment.
Thermophysical properties of hydrogen and deuterium at all ortho-para compositions.
Helium safety relief system for DPS2-F cryostat of the Karlsruhe Tritium Neutrino experiment.
Tieftemperaturmessung mit Pt500-Temperaturfühlern und Dampfdruckthermometern.
Cryogenic temperature measurement with Pt500 temperature sensors and vapour pressure thermometers.
Cryogenic distillation column behaviour at the variation of an external factor.
Precise temperature measurement at 30 K in the KATRIN source cryostat.
Refrigeration sector monitoring
1 result
How to cool the nuclear reactors of the future?
Researchers at the Tokyo Institute of Technology are paving the way for cooling fusion reactors, following a historic breakthrough in nuclear fusion.
IIR news
Activities of the IIR’s Commission A2 on Liquefaction and Separation of Gases
The problems related to thermodynamic optimization and new technologies in liquefaction and separation of gases are actual and critical for many branches of modern industry, power generation and medicine.