论文信息 - Design and evaluation of gaseous tritium recovery system using commercially available membrane type dehumidifier

Design and evaluation of gaseous tritium recovery system using commercially available membrane type dehumidifier

In order to realize the planned deuterium plasma experiments using the Large Helical Device, the National Institute for Fusion Science (NIFS) is planning to install a system for tritium recovery from exhaust gas. While adopting typical tritium recovery systems, NIFS has also made plans for the development of a compact reduced-waste recovery system by applying a membrane type dehumidifier. A commercially available membrane dehumidifier was evaluated experimentally for this purpose with the results indicating that such a membrane is feasible for practical application. A small-scale test apparatus having a capacity 1/10 (30 m3(NTP)/h) that of the actual tritium recovery system with the same flow control system was evaluated under actual operating conditions, and the necessary performance for design and operation of the actual system was elucidated.

[1] Masahiro Tanaka,et al. Application of Proton-conducting Ceramics and Polymer Permeable Membranes for Gaseous Tritium Recovery , 2004 .

[2] T. Uda,et al. Application of Membrane Dehumidifier for Gaseous Tritium Recovery in LHD , 2008 .

[3] T. Kakuta,et al. Experimental and analytical study on membrane detritiation process , 1995 .

[4] M. Nishi,et al. A Steady-state Simulation Model of Gas Separation System by Hollow-filament Type Membrane Module , 1999 .

[5] S. Takami,et al. Application of Membrane Dehumidifier for Gaseous Trituim Recovery in the LHD , 2008 .

[6] H. Ito,et al. Separation of tritium using polyimide membrane , 1992 .

[7] P. Perriat,et al. Glovebox atmosphere detritiation process using gas separation membranes , 2003 .

[8] Takumi Suzuki,et al. Gas Separation Performance of a Hollow-Filament Type Polyimide Membrane Module for a Compact Tritium Removal System , 1995 .

[9] Masahiro Tanaka,et al. Application of New Technologies for Gaseous Tritium Recovery and Monitoring , 2005 .

[10] T. Suzuki,et al. Effective tritium processing using polyimide films , 1998 .

[11] Masahiro Tanaka,et al. Design of Gaseous Tritium Recovery System Applying Commercially Available Membrane-Type Dehumidifier , 2009 .