SU1177647A1 - Electrohydrodynamic heat tube - Google Patents

Abstract

ELECTRO-HYDRODYNAMIC HEAT PIPE, comprising a housing with evaporation and condensation zones and a vapor channel, an ionizer in the form of a nozzle and an electrical charge collector in the channel, a condensate collector placed in the condensation zone and connected by means of a tube with a nozzle, that, in order to expand the field of application by increasing the electrical power, a tubular insert is additionally installed in the housing along its axis, and the nozzle and collector of electric charges are placed one above the other in its upper the second part, wherein the steam passage in the area between the condensing zone and the tubular insert p-.zdelen transverse pere1 orodkoy into sections, the top of which communicates with the cavity 3 of the tubular insert below the collector electric charges by means of remote pipeline. O) 4

Description

The invention relates to heat engineering, namely to heat pipes that generate electrical energy.

The purpose of the invention is to expand the scope by increasing the electrical power of the pipe.

The drawing schematically shows an electrohydrodynamic heat pipe, a longitudinal section.

The electrohydrodynamic heat pipe includes a housing 1 with evaporation zones 2 and condensation 3, a steam channel 4 in which an ionizer in the form of a nozzle 5 is installed, and a collector 6 of electric charges. The condensate collector 7 is placed in the condensation zone 3 and connected via pipes 8 to the nozzle 5. A tubular insert 9 is installed along the axis of the housing 1, the nozzle 5 and the electric charge collector 6 are placed in its upper part, in the steam channel in the area between the condensation zone 3 and insert 9 additionally installed transverse 776472

town 10, and the cavity insert 9 the bottom of the collector 6 is connected with a section of the steam channel above the partition remote pipelines 11.

5 Electrohydrodynamic heat pipe operates as follows.

When heat is supplied and removed in the evaporation zones 2 and condensation 3, heat and mass 0 respectively compete with the change in the aggregate state of the coolant, while all of the condensate (and not part of the condensate, as in the known device) enters from condensate collector 7 through tube 8 in the nozzle 5, where the dispersion of the condensate into the smallest droplets. The drop is charged both by dispersion and by friction against the material.

0 nozzles 5. Charged condensate droplets are transferred by the steam flow to the collector 6, where they give off their charge. Thus, heat is converted into electrostatic energy.

Claims (1)

USSR copyright certificate No. 909545, cl. F 28 D. nozzle, characterized in that, in order to expand the scope by increasing electric power, a tubular insert is additionally installed in the housing along its axis, and the nozzle and collector of electric charges are placed one above the other in its vein the upper part, moreover, the steam channel in the section between the condensation zone and the tubular insert is divided by a transverse partition into sections, the upper of which is connected to g with a cavity of the tubular insert below the collector of electric charges by means of a remote pipeline.