SU1137292A1 - Heat exchanger - Google Patents

Description

2. The heat exchanger according to claim 1, characterized by that of 1, o t - a partition is placed an additional top cross-surface of the condensation zone .. 1137292

The invention relates to heat exchange, in particular to solar collectors in the form of heat pipes. A heat exchanger is known, which contains a thermosiphon heat source on a pipe with an evaporative zone in the form of an absorber / solar energy with inclined baffles installed along its height, Y,. The disadvantage of this heat exchanger is the limited surface area of the evaporation and condensation zones. Also known is a heat exchanger containing a thermosiphon heat pipe, one of the opposite side walls of the case of which has sloping partitions installed along the height of the case with the formation of an evaporation zone, and the other adjoins the channel for the cooling medium and has inclined guides forming the partitions JY with partitions The disadvantage is that the heat sink 1 is relatively low in efficiency and reliability, especially when using a heat exchanger as a solar collector, since the heat carrier spruce heat pipe during its operation can. | Unevenly distributed over the surface of the evaporation zone, and the movement of coolant vapors from the bottom up may not be sufficiently intense. leads to local overheating. The purpose of the invention is to increase the efficiency and reliability when operating the heat exchanger as a solar collector. This goal is achieved by the fact that in a heat exchanger containing a thermosiphon heat pipe, one of the opposite walls of the body of which has inclined partitions installed along the height of the case to form an evaporation zone 5 and the other is adjacent to the coolant channel and has i, inclined guides that form inclined slots with partitions, guideways are made in the form of horizontal ones, corrugations on the side wall, the channel for the cooling medium is formed by -dumps of corrugations, and their crests are provided communicated with depressions along pepper pockets, and the entrance and exit of the channel are located respectively in the upper and lower parts of the housing. An additional surface of the condensation zone can be placed above the upper partition. Fig, 1 shows a heat exchanger, longitudinal section; FIG. 2 is a sectional view of FIG. 1; in fig. 3 shows a section B-B in FIG. 1J in FIG. 4 is a view of B a of FIG. 1 in FIG. 5 - heat exchanger with an additional surface of the condensation zone. The heat exchanger contains a thermosion heat pipe, the first of the opposite side walls 1 and 2 of the housing 3 has a slope of the partition 4, installed along the height of the housing 3 with the formation of an evaporation zone 5, and the second is adjacent to the channel 6 for the cooling medium and has inclined direction The corrugations 7 are in the form of corrugations 7, the sloping slits 8 are partitioned with partitions 4. Channel 6 is formed by depressions 9 corrugations 7, their crests 10. are provided with communicating slots 9 with ridges 9, transverse notches 11 ,. and the inlet and outlet nozzles 12 and 13 of channel 6 are located respectively in the upper and lower parts of the housing 3. Above the upper partition 4 there is an additional surface 14 of the condensation zone 15, on the wall 1 outside of the photoelectric terminals 16. The space bounded by the partitions 4 and wall 1, is filled with working fluid 17. The heat exchanger operates as follows. When solar energy is supplied to the plasma splinter 5 16 in soire 5 evaporation 3 of the heat pipe, the working fluid 17 of the vapor evaporates and condenses in condensation zone 15 on the surface of the horizontal corrugations, giving out the latent heat. The vaporization of the cooling medium. For example, the air washing the outer surface of the corrugations 7 and used for heating buildings can be used as a cooling medium. Due to the fact that the corrugations 7 form inclined slots 8. with inclined partitions 4, the condensate of the working fluid 17 drains from the surface of the corrugations 7 to the downstream inclined partitions 4, and the evaporation cycle is condensed. The heat exchange surface of the condensation zone 15 can be increased by placing 3 additional surfaces in the upper part of the building, which can be with longitudinal or transverse corrugations (not shown) Cooling medium is supplied through the inlet 12 (in Fig. 4 the direction of movement of the cooling medium is shown by arrows ), Prod on the trough 9 of the upper corrugations 7, the cooling medium along the cross section 11 is fed to the trough 9 of the below arranged corrugations 7. The heating of the cooling medium (water, air) is discharged through the output patr killer 13. Thus, the greatest temperature difference between the cooling medium and the working medium vapors of the carrier will be in the upper part of the core, pus 3, the heat flux supplied over the height of the evaporation zone 5 is constant and, accordingly, the amount of the working coolant vapors in the evaporation zone 5, also along the height of the housing 3. constantly. Therefore, in the upper part of the housing 3 an excess amount of working fluid 17 condenses. As a result, during the operation of the heat exchanger, a part of the working fluid The hinges 17 are in the form of a film on the lower sides of the inclined partitions 4 and are not covered by the working fluid 17, sections of the inner surface of the wall 1. In the heat exchanger shown in FIG. 5, the intensification of the condensation process in the upper part of the housing 3 is also achieved by increasing the surface of the heat exchange zone-15 condensation in this part. Thus, the intensification of the condensation process in the upper part of the housing allows both to uniformly distribute the coolant over the surface of the housing wall from the side of the evaporation zone, and to intensify the convection of working fluid vapors. This makes it possible to increase the efficiency and reliability of the heat exchanger, especially as a solar receiver. Additionally, the efficiency is increased by increasing the heat exchange surface in the condensation zone. n, H iz "YHYY nlshm an. 7- b

Claims (1)

which body has a slope. different partitions installed along the height of the casing with the formation of an evaporation zone, and the other is adjacent to the channel for the cooling medium and has inclined guides forming inclined slots with the partitions, characterized in that, in order to increase efficiency and reliability when working as a solar collector, the guides made in the form of horizontal corrugations on the side wall, the channel for the cooling medium is formed by the corrugations of the corrugations, their ridges are provided with transverse recesses communicated with the cavities, and the channel inlet and outlet are respectively venno the upper and lower housing parts.