SU1099209A2 - Heat exchanging device - Google Patents

Abstract

TESH100BMENIC DEVICE according to auth. No. 561864, which is the root of the fact that, in order to expand the field of application, in the steam channel of each control heat pipe there is additionally installed a confusion-diffuser insert in contact with a capillary-porous material - not relevant to the corresponding section of the axial channel after its branching by means of naponpoBOjDia, which has a nozzle at the end, inserted into the insert cavity from the end of the tube. S

Description

The invention relates to heat engineering, in particular to control heat pipes. According to the main auth. No. 561864, a heat exchanger device is known, with a sealed body with a partially filled coolant holding an internal insert having an axial channel with a nozzle in the middle part, the channel after the nozzle is branched into two sections and in the junction zone is connected to control nozzles located on out of their vapor channels, and the liner before branching and the inner walls of the tubes are covered with a capillary-porous material 1 J. The disadvantage of this device is a relatively narrow field of application, which is due to the lack of operation of the device with automatic generation of thermal pulses. The purpose of the invention is to expand the field of application of the heat exchange device. The goal is achieved by the fact that, in the heat-exchange device, in the steam channel of each heat control tube, an additional confusion-diffuser insert is installed in contact with the tubular-porous material, the insertion cavity is connected to the corresponding section of the axial channel after its branching the end of the nozzle inserted into the cavity of the insert from the end of the tube. The drawing schematically shows a heat exchange device, a longitudinal pa pg3. The device is a housing 1 with an inner liner 2, having an axial channel 3 with a nozzle 4 in the middle part, the channel 3 being branched into sections 5 and 6 and connected in the branching area to ports 7 and 8 of the control heat pipes 9 and 10 respectively, placed at the exit from the vapor channels 11 and 12. The inner walls of the tubes 9 and 10 and the liner 2 are covered with capillary-porous material 13. In the vapor channels 11 and 12 of the control tubes 9 and 10 there are confused and diffusive inserts 14 and 15, respectively, whose cavities are connected to sections of the axial channel 3 by steam lines 16 and 17, having nozzles 18 and 19 inserted into the cavities of the inserts 14 and 15, respectively. Supply and removal of heat flow is shown by arrows. The heat exchanger works in the following way. Let at the dacha moment the flow of steam coolant is directed to the section 6 of the axial channel 3, while a part of the steam flow branches into the steam line 17 and then through the nozzle 19 and the insert 15 acts on the main steam flow, deviating it to the section 5 of the axial channel 3, whereupon the steam line 16 and the insert 14 are activated in the same way, and the steam flow is again diverted to section 6 of channel 3. Then the whole cycle repeats. Thus, the proposed heat exchange device can operate in the mode of automatic generation of heat pulses, which expands its scope.

Claims (1)

/ HEAT EXCHANGE on avt.sv. No. 561864, distinguished by the fact that, in order to expand the scope of application, an additional confuser-diffuser insert in contact with capillary-porous material is additionally installed in the steam channel of each control heat pipe, the cavity of the insert being connected to the corresponding section of the axial channel after its branching by means of a steam pipe having at its .. end a nozzle _g inserted into the insertion cavity from the side of the tube end.