SU817469A1 - Vertical heat exchanger - Google Patents

Description

one

The invention relates to heat exchangers that can be used in a power system as liquid coolers or condensers in natural gas processing plants.

Heat exchangers with double tube sheets are known, two grids are installed in KOTojaJX in order to prevent overflow of the medium with high pressure into the medium with lower pressure, for example, through leaks in the fixing points of the tubes C.

In these devices, although their reliability is ensured due to the firmly tight connection of pipes and tube sheets, however, the pressure is not evenly distributed between the tube sheets.

Vertical heat exchangers are known that contain a casing with tubes inside that are fixed in tube grids located in the upper and lower parts of the shell equidistantly with cavities, in one of which are perforated cups for supplying coolant c.

annular space connected to inlet 12}. ,

The disadvantage of the heat exchanger is that it does not provide for even distribution of the coolant in the annular space, so it is impossible to use a heat exchange surface made of coil pipes. In addition, there is no even load distribution from the pressure of a meglock over two tube sheets.

The purpose of the invention is a uniform distribution of the coolant in the interpipe space during coil pipes.

The goal is achieved in that the glasses in the cavity are located between each pair of adjacent pipes, and the inlet pipe is between the tube sheets.

FIG. 1 shows the proposed heat exchanger, longitudinal section; in fig. 2 shows the node A in FIG.

The heat exchanger contains a casing 1,. tubes 2, tube sheets 3 and 4, forming a cavity 5, tube plates 6 and 7, forming a cavity 8 in which glasses 9 with perforations 10 are located, connected to inlet pipe 11 located

between tube sheets, a pipe 12 for draining the coolant from the annular space, a pipe 13 for supplying the coolant to the pipes, a pipe 14 for removing it.

The heat exchanger works as follows, o

The coolant flow (heated. Liquid) flows through the nozzle 11 into the cavity 8, from where through the perforated glasses into the annular spaces, evenly distributed over the entire cross section of the latter. In the pipe through the pipe 13 enters the heating coolant.

In the annular space, due to the heat removed from the pipe flow, the liquid evaporates and the vapor formed is discharged through the nozzle 12 located above the grate 4.

In the proposed heat exchanger, it is possible to ensure uniform distribution of the coolant over the entire cross section of the annular space, which is especially important in the case of heat exchange with a cooled or condensing hydrocarbon mixture, which can be supplied to the tubes of the apparatus, and with a mixed refrigerant evaporating in the annular space, i.e. when the process of heat exchange along the entire length of the heat exchanging surface is necessary, in order to save electricity, it should be carried out with a small temperature difference between the working media.

Claims (2)

1. US Patent 3670810, cl. 165-70, published. 1972. 2. Authors certificate of the USSR 574593, cl. F 28 f 9/02/1975. TSHT 7 / 12 -Shch