SU601553A1 - Vertical shell-and-tube heat exchanger - Google Patents

Description

The invention relates to refrigeration and can be used in liquid cooling systems.

The following are known: Shell-and-tube vertical heat-exchangers, mainly for liquid-cooling systems containing a casing with flat pipes, n: the growth between which is filled with the working fluid, imbibed its aggregative state .1.

With such heat exchangers, the volume of the working fluid is limited and confined, which leads to the possibility of overheating of the system fluid, as a result of which the operational reliability and heat exchange intensity are reduced.

The purpose of the invention is to intensify heat exchange and increase the reliability of the heat exchanger in operation.

This goal is achieved by removing the removable cassettes and the working fluid between the pipes into these networks adjoining one side of the pipe; M, and fitted with a counter spring, contacting respectively with each other and with the walls of the casing. Each cassette has a compensator of temperature expansions of the working body. In this case, the springs are made in the form of combs with teeth and flat bases, attached to the corresponding surfaces of the M cassettes, and the compressor is made in the form of

caps of porous material installed with a gap relative to the level of the working fluid.

Such a device eliminates deformation of the cassettes during internal temperature expansions of the working substance.

On fpg. 1 shows the proposed. Tube-tube vertical heat exchanger, longitudinal section; in fig. 2 - the same, top view, partial cross section; in fig. 3- replaceable cassette tvploobmenka; in fig. 4 - the same, left view; in fig. 5 is a section A-A of FIG. 3

The heat exchanger contains a dry / flat pipe 2, between which) the removable bulkheads 3, filled with operating 4, which changes its state of aggregation, are located. The cassettes 3 adjoin one side to the pipes 2, and on the opposite side they are provided with springs 5 which contact the NLP with each other with the walls of the casing. The springs are made in the form of combs with vertical teeth 6 and flat bases 7, attached to corresponding surfaces.

Claims (3)

Each cassette has a compensator 8 for temperature expansions of the working fluid, made in the form of a cap 9 of porous material, installed with a gap relative to the level of the working fluid. The heat exchanger is as follows. The cooled liquid flows into the casing 1 through flat pipes 2 and transfers heat through the steppes of the pipes and cassettes 3 to the working fluid 4. The latter takes heat from the cooled liquid due to the phase transformation from a solid to a liquid state. The springs 5, pressing the cassette 3 to the tube m 2, ensure reliable contact on the heat transfer surfaces. When heated, the working fluid expands due to an empty part of the volume of the cassette. The displaced gas (air) through the cap 9 is removed to the atmosphere. In order to maintain the temperature of the liquid in the cooling system below. The maximum allowable heated cassettes 3 are replaced with cooled ones. The proposed heat exchanger quickly removes heat from the cooled liquid, sleeps a large amount of heat and is simple in design. Claim 1. Shell and tube Vertical heat exchanger, mainly for cooling systems LIQUID.TFP, containing a casing with flat tubes, the space between which is filled with a working fluid, changing its state of aggregation, characterized in that, in order to intensify heat exchange and increase its reliability removable cassettes are located between the pipes and the working medium is placed in these cartridges adjoining the pipes to one side and fitted with springs on the opposite side; these springs are in contact with respectively between themselves and with the walls of the housing, and each cassette has a working temperature compensator body extensions. 2. A heat exchanger according to claim 1, characterized in that the springs are made in the form of combs with vertical teeth and flat bases attached to the respective surface of the cassettes. 3. Heat exchanger according to claim 1, characterized in that the compensator is made in the form of a plug made of a porous material installed with a gap relative to the level of the working fluid. The source of information taken into account in the examination. 1. Spacecraft thermal control systems. Review of the head department of scientific and technical information, AO 4, 1973, p. . F vj 7 /