SU568808A1 - Heat exchanger - Google Patents

Description

The invention relates to the field of power engineering, in particular to heat exchangers for cooling media in a confined space.

Installations are known that contain convection and radiation heat exchangers with heat pipes whose condensation-like areas are in contact with the radioaddition surface, and evaporation areas with pipes representing the intermediate liquid circuit of the convective heat exchanger to which the cooled medium 1 is fed. the installation of the intermediate circuit leads to an increase in their weight and a decrease in the efficiency of heat transfer from the convective heat exchanger to radiation.

Heat exchangers are also known that contain a pipeline for supplying a cooled gaseous medium connected by heat pipes to a cooled closed shell 2. However, in such heat exchangers is not enough, the gas cooling process is effective.

The aim of the invention is to increase the efficiency of gas cooling. This is achieved by the fact that radial pipes communicated with its flow part are installed in the pipeline of the proposed heat exchanger, and in the latter the evaporative sections of the pipes are moved, the condensation sections of which are located on the shell evenly around the circumference and displaced in adjacent rows one relative to the other by half a step. .

In addition, on the side between the condensation sections there are located closed isothermalizing heat pipes and “end stamps” in which heat pipes are placed.

FIG. 1 shows an oil heat exchanger, a longitudinal section; in fig. 2 shows a section A-L in FIG. one; in fig. 3 is a section along BB in FIG. 2

The heat exchanger contains a pipeline / supplying a cooled gaseous medium, heat pipes 2 connected on one side to pipeline 1, and on the other to a cooled closed shell 3, and radial nozzles 4 located in the pipeline / and communicated with its flow part. In the pipe 4. There are evaporating sections 5 of the pipe 2, the condensation sections 6 of which are located on the sidewall 3 evenly circumferentially and displaced in adjacent rows one relative to the other by the FLOOR of the pitch. On the shell 3 between the condensation sections 6, closed isothermalizing heat pipes 7 are installed. In addition, ring 3 are installed on the shell 3: M1 and a, in which the heat pipes i2 are flush.

When the heat exchanger operates, the cooled gas enters the pipeline / pipe into radially located pipes 4, where it washes the heat exchange surfaces of the evaporator sections 5 of the heat pipes 2. The heat energy of the gas is leaked through the wall of the heating section 5 of the heat carrier. The heat transferred from the gas goes to the evaporation of the coolant in the Islamic region of 5 heat pipes 2. O. The vapor to be extracted enters the channel of the heat pipe 2 into the condensation part of the latter, where it condenses. The released heat of internal condensation energy is removed by induction. And discharged into the environment (ay. Medium. The condensate returns to the evaporating section 5 of the heat pipes 2 through capillary forces, and the process is repetitive |

The closed isothermalizing heat pipes 7 fixed on the shell 3 are similar in principle to those of the 1M pipes 2, and the heat from the hotter parts of the radiation detector is more cold to the colder ones due to the internal energy of the Ioparine and condensation, and the heat pipes 7 are izote, they rotate the shell 3 both in the circumferential direction and in the axial direction.

The arrangement of the condensation sections 6 of the heat pipes 2 with an offset, and between them the isothermalizing heat pipes 7, makes it possible to maintain the isothermal nature of the heat pipes and thereby ensure the same conditions of operation of the heat pipes 2.

The fastening of the condensation sections b of the heat pipes 2 and the isothermalizing heat pipes 7 in the stamps and flush with the shell 5, on the one hand, increases the efficiency of the conductive heat sink, and on the other hand, the particle pipes themselves are a radiation surface.

Claims (3)

1. A heat exchanger containing a pipeline for driving a cooled pelvic medium, connected by heat pipes to a cooled closed water pump, is also connected to the fact that, in order to increase the efficiency of gas cooling, 1 its central part is the radial nozzles, and in the latter the evaporating sections of the pipes are placed, the condensation sections of which are located on the sidewall uniformly around the circumference and displaced in adjacent rows one relative to the other by half the border. 2. The heat exchanger according to claim 1, is distinguished by the fact that with the fact that there are closed isothermals located on the side of the shell between the condensation sections. 3. Heat exchanger by. 1 and 2, that is, the fact that “on the shell; you have ensembled ring heads, in which heat pipes lie flush. Sources of information taken into account in the examination: 1. US Patent No. 3880230, cl. 165-105, 1975. 2.I. Ronhes and oths Gth Thermophisics Conference AI AA, Pape 71-410, 197J. At -n. Gas inlet I