SU769291A1 - Heating pipe evaporator - Google Patents

Description

The invention relates to heat exchange devices with an intermediate heat carrier and can be used in heat engineering.

Known heat exchange device containing a gas-tight heated heat transfer wall coated on the cooled side with a porous heat-conducting nozzle having channels for draining the cooling medium adjacent to the heat transfer wall [1].

The disadvantage of this device is that it can only be used in stationary installations, since it requires bulky auxiliary equipment to supply a liquid coolant to the cooled surface of the heat transfer wall under a pressure exceeding the hydraulic resistance of the porous heat-conducting nozzle and the vapor pressure generated during the evaporation of the liquid coolant.

Known heat pipes having an evaporator containing a housing with a capillary-porous nozzle inside, equipped with longitudinal radial grooves and adjacent one of the ends to the steam pipe, and the other to the condensate pipe and the thrust surface of the body, made in the form of a truncated cone [2].

Takne heat pipes are characterized by low reliability, since in the evaporator to the capillary-porous nozzle is attached the end of the flexible wick, which has a reliable connection, with the nozzle, and also because the end of the flexible wick, freely lowered into the condensation zone ⁷ , during operation the pipes will be in a constant complex oscillatory motion, leading to its twisting, change in the cross section, partial breaks and clogging of the channels, which will inevitably lead to pulsating rough operation and even to an accident. In addition, the liquid coolant will be continuously squeezed out of the flexible wick 15 by the pressure of steam coming from the evaporation zone, as well as dried under the influence of temperature. Consequently, the flexible wick in this device ensures the transfer of the liquid coolant from the condensation zone to the evaporation zone only in the absence of steam flow from the evaporator, i.e., when the pipe is not working.

The aim of the invention is to increase the reliability of the heat pipe.

This is achieved by the fact that the end face of the nozzle adjacent to the persistent surface of the evaporator body is conical, and its tip is placed in the condensate30 wire, the nozzle being rigidly connected from the conical surface 3 of the housing 1 and the surface of the cone 9 of the nozzle 5, sealed, for example , by sintering, provides reliable waterproofing of the condensate line 8 from the evaporator, heat pipe, i.e. from the zone of high pressure. As a result, the possibility of mixing steam with condensate with a liquid heat carrier, as well as an increase in the temperature of the heat carrier and the heat pipe as a whole, is eliminated.

The presence of a cone 9 located in the condensate conduit 8 allows 5 to increase the active surface of the nozzle 5, increases its ability to absorb liquid coolant and move a larger amount of coolant to the cooled surface of the housing 1 per unit time, i.e., it increases the thermophysical properties of the heat pipe.

In addition, the presence of a cone 9, made as a continuation of the continuous material of the nozzle 5, ensures its strength along its entire length without auxiliary fastening elements.

Claims (1)

Claim A heat pipe evaporator comprising a body with a capillary-porous nozzle inside, provided with longitudinal radial grooves and adjacent one of the ends to the steam line, and the other to the condensate line and the thrust surface of the body, made in the form of a truncated cone, characterized in that, in order to increase reliability, the end face of the nozzle adjacent to the truncated cone is also made conical and its apex is placed in the condensate pipe, and the nozzle is rigidly attached to the body mainly by sintering.