SU737773A1 - Heat pipe - Google Patents

Description

„(54) HEAT PIPE

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The invention relates to the field of heat engineering, in particular to heat pipes.

Electrohydrodynamic heat pipes are known, which contain a grounded body with evaporation, transport and condensation zones, and a high-voltage electrode 1 located along the body axis.

The lack of known electrohydrodynamic heat pipes in the need to use a high voltage source.

The purpose of the present invention is to intensify heat exchange by creating a potential difference.

This is achieved by the fact that the tube additionally contains a fluidized bed heat exchanger of dielectric particles with a grounded casing, into which a condensation zone is inserted, having transverse ribs, and the housing is grounded only in evaporation and transport zones separated from the condensation zone by means of a dielectric plate condensation and transport is electrically insulated.

The drawing schematically depicts the heatable tube heatable.

The heat pipe contains an evaporation zone 1, a transport zone 2 and a condensation zone 3 placed in a fluidized bed of dielectric particles 4 placed in a heat exchanger 5. The heat pipe body with a capillary-porous structure is equipped with fins 6 and is installed on dielectric plates 7. A high-voltage electrode 8 with insulation 9 is located on the axis of the heat pipe. The fluidized bed heat exchanger has a 10 C grid with a cell size that minimizes particles of a dispersed material. The pipe is partially filled with dielectric fluid.

During the friction of dielectric particles 4, the grounded body of the heat exchanger 5 and the fins 6 of the heat pipe condensation zone is charged with static electricity. With

Claims (1)

15 this zone 1 of evaporation and transport 2 is grounded. The electrode 8 has a metal contact with the condensation zone case and is isolated from the evaporator. The oppositely charged body of the condensation zone 3 and the electrostatic genus 8 are discharged through the dielectric working substance of the heat pipe by means of electroconvective movement of the latter to the evaporation zone and to the ground. Thus, elektricheskad ep,. where the energy source is the double fluidization of the fluidizing coolant gas, it closes. The proposed heat pipe design significantly increases the heat transfer coefficient from the cooling fins to the induced air flow, and the static voltage generated by the fluidized bed of dielectric particles is used to improve the heat transfer characteristics of the heat pipe. A thermal tube comprising a grounded housing with evaporation zones, a transport 8 and a condensation, and a high-voltage electrode located along the housing axis, characterized in that, in order to intensify heat exchange by creating a potential difference, the tube further comprises a heat exchanger of a boiling layer of dielectric particles with a grounded casing, into which a condensation zone is inserted, having transverse ribs, the casing being grounded only in evaporation and transport zones separated from the condensation zone by dielectric plate, and the electrode in the zones of condensation and transport is equipped with electrical insulation. Sources of information taken into account in the examination of the USSR Copyright Certificate № 568809. Cl. F 28 D 15/00, 1976. о о о о о о ° о о о о ° о