Title :
Experimental study of buoyancy driven exchange flow from breaches under LOVA condition
Author :
Takase, K. ; Kunugi, T. ; Ogawa, M. ; Seki, Y.
Author_Institution :
JAERI, Ibaraki, Japan
fDate :
30 Sep-5 Oct 1995
Abstract :
Using a preliminary LOVA apparatus which simulated a vacuum vessel of the fusion reactor with a small-scaled model, the buoyancy-driven exchange flow behavior through breaches between the inside (filled with helium gas) and the outside (air)of the vacuum vessel was investigated quantitatively under atmospheric temperature condition. The present experimental results clarified that the exchange flow rate was independent of the breach locations in the vacuum vessel and depended on strongly the magnitude of the potential energy from the ground level. In a single breach case, the exchange flow receives the effect of a counter-current flow through the breach. On the other hand, in a double breach case, since a one-through now path between two breaches is produced, the exchange flow rate is much larger than that of the single breach case
Keywords :
Rayleigh-Benard instability; Tokamak devices; fusion reactor safety; natural convection; ITER; LOVA condition; atmospheric temperature condition; breaches; buoyancy driven exchange flow; counter-current flow; potential energy; vacuum vessel; Atmospheric modeling; Elementary particle vacuum; Fusion reactor design; Fusion reactors; Helium; Land surface temperature; Plasma temperature; Potential energy; Safety; Tokamaks;
Conference_Titel :
Fusion Engineering, 1995. SOFE '95. Seeking a New Energy Era., 16th IEEE/NPSS Symposium
Conference_Location :
Champaign, IL
Print_ISBN :
0-7803-2969-4
DOI :
10.1109/FUSION.1995.534231
