RU63042U1 - HEAT EXCHANGE DEVICE - Google Patents

Abstract

The utility model relates to heat exchangers, mainly with a horizontal tube bundle, designed for heat exchange, cooling and condensation of gaseous, vaporous and liquid media in the petrochemical, oil refining and other related industries. The essence of the utility model is that the heat exchanger contains a horizontally located cylindrical body with nozzles for input and output of heat exchange flows, a lattice in the openings of which are fixed tubes that form a tube bundle, transversely located partitions, a distribution chamber with cooling inlet and outlet nozzles flow, a fitting installed in the upper part of the housing, a baffle plate located between the fitting and the tube bundle with the possibility of overlapping the projection of the fitting in plan, while m, the upper end of the baffle plate is fixed to the housing, and its lower end is installed at a distance relative to the lower generatrix of the housing. The utility model improves heat transfer efficiency by preventing the occurrence of gaseous plugs, making better use of the heat transfer surface, and reducing resistance. 1 p. Fs

Description

The utility model relates to heat exchangers, mainly with a horizontal tube bundle, designed for cooling and condensation of gaseous, vaporous and liquid media in the petrochemical, oil refining and other related industries.

Known heat exchanger containing a housing with covers, inlet and outlet pipes of the heat exchange flow, a tube bundle, transverse partitions separating the annulus (see, for example, E. Sudakov, “Calculations of the main processes and apparatuses of oil refining”, M., “Chemistry ", 1979, pp. 431-432).

A disadvantage of the known heat exchanger is that non-condensable gases enter the apparatus together with condensing vapors, which move together with the vapors and condensate, forming gas plugs, which significantly increase resistance and reduce heat transfer efficiency.

The closest in technical essence is the heat exchanger selected by the applicant for the prototype, comprising a housing with inlets for input and output of heat exchange flows, a distribution chamber, a grill, in the openings of which are fixed horizontal tubes, transversely arranged partitions (see, for example, patent R .F. No. 29578, F28D 1/00, 2003)

In the known heat exchanger, the non-condensed part of the gas-vapor stream is discharged together with the condensate, which increases the pressure drop and reduces the heat transfer efficiency.

The technical problem to which the utility model is directed is to increase the heat transfer efficiency by preventing the occurrence of gas plugs and reducing the resistance.

The solution to this problem is achieved by the fact that the heat exchanger containing a horizontally located cylindrical body with nozzles for input and output of heat exchange flows, a distribution chamber, a grill, in the openings of which are fixed tubes, transversely located partitions, according to a utility model, it is equipped with a fitting installed in the upper part of the body, with a baffle plate located between the nozzle and the tube bundle with the possibility of overlapping the projection of the nozzle in plan, while the upper end of the baffle plate pins are fixed to the housing, and its lower end is installed at a distance relative to the lower generatrix of the housing.

The drawing shows a longitudinal section of a heat exchanger. The heat exchanger contains a horizontally arranged cylindrical body 1 with nozzles 2, 3 for input and output of heat exchange flows, a lattice 4, in the openings of which are fixed horizontal tubes forming a tube bundle 5, transversely arranged partitions 6, a nozzle 7 installed in the upper part of the body, a baffle plate 8 located between the nozzle 7 and the tube bundle 5 with the possibility of overlapping the projection of the nozzle in plan, while the upper end 9 of the baffle plate 8 is fixed to the housing, and its lower end 10 is set to Charm “h” relative to the lower generatrix of the housing. The apparatus includes a distribution chamber 11 with nozzles 12, 13, respectively, the input and output of the cooling stream.

The heat exchanger operates as follows:

A mixture of condensing and non-condensing gases enters the apparatus from above through the inlet pipe 2 into the annular space formed by the housing 1 and the outer surface of the tube bundle 5 tubes, flowing around the tube bundle 5. The refrigerant enters through the inlet tube 12 into the distribution chamber 11, passes through the tube bundle 5 and is discharged through the pipe 13.

Non-condensable gases hit the baffle plate 8, fall down, pass through the gap formed by the lower end 10 of the baffle plate 8 and the lower generatrix of the housing 1, bend around the baffle plate 8 and exit through the nozzle 7. Due to the inertial centrifugal forces, liquid droplets are separated from the gas during rotation that are discharged through pipe 3.

The presence of the nozzle 7, the baffle plate 8, their location, the installation of the baffle plate with overlapping projection of the nozzle in plan and at a distance relative to the lower generatrix of the housing increases the heat transfer efficiency by preventing the occurrence of gas plugs, more complete use of the heat transfer surface and lowering the resistance.

Claims (1)

A heat exchanger comprising a horizontally arranged cylindrical body with inlet and outlet nozzles for heat exchange flows, a grate, in the openings of which are fixed tubes that form a tube bundle, transversely arranged partitions, a distribution chamber with inlets and outlets for a cooling stream, characterized in that it is equipped with a fitting, installed in the upper part of the body, a baffle plate located between the nozzle and the tube bundle with the possibility of overlapping the projection of the nozzle in plan, while the upper the end of the baffle plate is fixed to the housing, and its lower end is installed at a distance relative to the lower generatrix of the housing.