SU1049731A1 - Thermosyphon - Google Patents

Abstract

A THERMOSIFON containing a hermetic case with condensation and evaporation zones and coaxially installed in the case along its entire length with the formation of an annular gap is a cylindrical insert with holes in the condensation zone, characterized in that, in order to increase efficiency when using a thermo siphon as the heater, the housing in the evaporation zone is provided with a housing made of electrically conductive material, spaced (ring-mounted electrical insulators tightly connected to the housing, tightly connected at one end to the end the housing and the other end connected together with the opposite section of the housing to the current source to form an electrical resistance heater, and in the section (L of the insert located in the evaporation zone, holes are made. NU; 0 00 Figure 1

Description

The invention relates to a heating technique and can be applied for effective autonomous heating of air, as well as for heating any gases in various types of technological installations.

Devices are known in which air is heated by contact with air from a heat exchange surface formed by silver pipes through which coolant flows. The latter is heated by gas burners Cl.

The disadvantage of such devices is the need to use torch burners that do not give sufficient heating uniformity of the heat exchange surface and, as a result, low heat transfer coefficients, as well as significant heat to the surrounding environment.

Also known are devices that use electrical heating of the coolant C2.

The disadvantage of such devices is the low reliability of the resistance, its q} waveforms {O have a small service life and high cost.

A thermosyphon is known that contains a sealed enclosure with condensation, evaporation zones and coaxially installed in the enclosure along its entire length with the formation of an annular gap cylindrical insert with holes in the condensation zone C3.

The disadvantage of such a thermosyphon is its low efficiency when used as a heater.

The aim of the invention is to increase the efficiency of the device when used in a KI quality heater.

The goal is achieved by the fact that in a thermo-siphon containing airtight with zones, condensation and evaporation and coaxially installed in the housing along its entire length with the formation of an annular gap cylindrical insert with holes in the condensation zone, the housing in the evaporation zone is equipped with a casing of electrically conductive material distascated relative to the body with additional annular electrically insulated shtfzmi, tightly connected at one end to the end of the case and connected to the other end together with opposite part STKOM housing to form a current source dp epektronagrevatel resistance, and insertion site, located in the vaporizing zone vypovsheiy openings.

FIG. L depicts a thermosyphon, general appearance; in fig. 2 - A-A in FIG. one.

T mosiphon sealed enclosure I with co-condensation zones 2 and Hcna, j rhenium 3 and coaxially mounted in the enclosure 1 along its entire length to form an annular gap cylindrical insert 4 with openings 5 in the enclosure zone II 2. The enclosure 1 in the evaporation zone 3 is equipped with a casing 6 of electrically conductive material, spaced {by additional ring-mounted electrical resistance devices 7 relative to body 1, tightly connected at one end to the torus ". The body of the housing 1, and the other end connected together with the opposite portion of the housing 1 to the current source, to form an electrical resistance heater, and in the region of the insert 4 located in the evaporation zone 3, holes 8 are made.

Thermosiphon works as follows.

The heat entered from the electrical resistance heater is transferred to the intermediate coolant filling the internal cavity of the housing 1.

In case I, condensation occurs in a wake-up vapor-liquid stream moving in an annular gap e formed by insert 4 and case 1. Condensate accumulating in the upper part of the condensation zone enters through openings 5 of insert 4 | flows down and enters through the orifices of 8 streams into the evaporation zone.

The holes 8 of the insert 4 are placed along the entire length of the evaporation zone and are directed to its upper heated part, thereby ensuring efficient heat removal.

With winter time, the heat from the resistance electric heater can be transferred to the intermediate heat carrier, in which the thermosyphon is loaded.

Such a structure provides effective heat transfer due to the organization of two-sided removal of heat from the walls of the thermosyphon housing.

Claims (1)

THERMOSIPHONE containing a sealed housing with condensation and evaporation zones and coaxially mounted in the housing along its entire length to form an annular gap, a cylindrical insert with holes in the condensation zone, characterized in that, in order to increase efficiency when using a thermosiphon as a heater, the housing The evaporation area is equipped with a casing made of electrically conductive material, spaced apart from the casing by ring electrical insulators, tightly connected at one end to the casing end and the its other end together with the opposite portion of the housing to the current source to form an electric resistance heater, and holes are made in the insertion portion located in the evaporation aeon. > / 1