Thermal-performance study of liquid metal fast breeder reactor insulation

Thermal-performance study of liquid metal fast breeder reactor insulation [electronic resource]

Three types of metallic thermal insulation were investigated analytically and experimentally: multilayer reflective plates, multilayer honeycomb composite, and multilayer screens. Each type was subjected to evacuated and nonevacuated conditions, where thermal measurements were made to determine ther...

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Bibliographic Details
Online Access: Online Access
Main Author: Shiu, Kelvin K. (Author)
Corporate Author: Argonne National Laboratory (Researcher)
Format: Government Document Electronic eBook
Language:English
Published: Washington, D.C. : Oak Ridge, Tenn. : United States. Department of Energy. ; distributed by the Office of Scientific and Technical Information, U.S. Department of Energy, 1980.
Subjects:
Lmfbr Type Reactors.
Thermal Insulation.
Stainless Steels.
Emissivity.
Performance.
Composite Materials.
Layers.
Plates.
Sodium.
Sodium Oxides.
Temperature Distribution.
Thermal Conductivity.
Alkali Metal Compounds.
Alkali Metals.
Alloys.
Breeder Reactors.
Chalcogenides.
Chromium Alloys.
Corrosion Resistant Alloys.
Elements.
Epithermal Reactors.
Fast Reactors.
Fbr Type Reactors.
Iron Alloys.
Iron Base Alloys.
Liquid Metal Cooled Reactors.
Materials.
Metals.
Optical Properties.
Oxides.
Oxygen Compounds.
Physical Properties.
Reactors.
Sodium Compounds.
Steels.
Surface Properties.
Thermodynamic Properties.
Specific Nuclear Reactors And Associated Plants.
Description
Summary:Three types of metallic thermal insulation were investigated analytically and experimentally: multilayer reflective plates, multilayer honeycomb composite, and multilayer screens. Each type was subjected to evacuated and nonevacuated conditions, where thermal measurements were made to determine thermal-physical characteristics. A variation of the separation distance between adjacent reflective plates of multilayer reflective plates and multilayer screen insulation was also experimentally studied to reveal its significance. One configuration of the multilayer screen insulation was further selected to be examined in sodium and sodium oxide environments. The emissivity of Type 304 stainless steel used in comprising the insulation was measured by employing infrared technology. A comprehensive model was developed to describe the different proposed types of thermal insulation. Various modes of heat transfer inherent in each type of insulation were addressed and their relative importance compared. Provision was also made in the model to allow accurate simulation of possible sodium and sodium oxide contamination of the insulation. The thermal-radiation contribution to heat transfer in the temperature range of interest for LMFBR's was found to be moderate, and the suppression of natural convection within the insulation was vital in preserving its insulating properties. Experimental data were compared with the model and other published results. Moreover, the three proposed test samples were assessed and compared under various conditions as viable LMFBR thermal insulations.
Item Description:Published through SciTech Connect.
09/01/1980.
"anl-80-97"
Shiu, Kelvin K.
Physical Description:Pages: 155 : digital, PDF file.

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