- Author
-
Pope, R. B.
|
Garting, D. K.
|
Schimmel, W. P., Jr.
|
Larson, D. W.
- Title
- Problems of Heat Transfer Within the Containing Vessel of High Performance LMFBR Spent Fuel Shipping Casks.
- Coporate
- Sandia Labs., Albuquerque, NM
- Sponsor
- Energy Research and Development Administration, Washington, DC
- Report
-
SAND76-5390,
1976,
24 p.
- Distribution
- Available from National Technical Information Service
- Keywords
-
heat transfer
|
dowtherm (tradename)
- Abstract
- A preliminary assessment of heat transfer problems internal to an LMFBR spent fuel shipping cask is reported. The assessment is based upon previous results obtained in full-scale, electrically heated mock-ups of an LMFBR assembly located in a containing pipe, and also upon analytical and empirical studies presented in this paper. It is shown that a liquid coolant will be required to adequately distribute the decay heat of short-cooled assemblies from the fuel region to the containing cask structure. Liquid sodium apparently provides the best heat transfer, and sufficient data are available to adequately model the heat transfer processes involved. Dowtherm A is the most efficient organic evaluated to date and presented in the open literature. Since the organic materials have high Prandtl and usually high Rayleigh numbers, natural convection is the predominant mode of heat transfer. It is shown that a more comprehensive understanding of the convective processes will be required before heat transfer with an organic coolant can be adequately modeled. However, in view of systems considerations. Dowtherm a should be further considered as an alternative to sodium for use as a LMFBR spent fuel shiping cask coolant.