SU901801A1 - Heat exchanger for corrosive or reactive media - Google Patents

Description

(54) HEAT EXCHANGER FOR AGGRESSIVE OR RESPONSEABLE The invention relates to heat exchange equipment and can be used in industrial power engineering for cooling (heating) corrosive or reactive media. A heat exchanger for corrosive or reactive media is known, containing pressurized channels for working media and besfatilny heat pipes, the evaporation and condensation zones of which are located inside the respective canals, and the transport zones are divided into condensate and steam branches 1. A disadvantage of the known heat exchanger is the design complexity because the withdrawal of the transport zones of thermosyphons from the channels with exchanging media is carried out at the top and bottom of the channels and each channel requires almost two tube plates, which Misleading a heat exchanger construction and assembly work. In addition, a large number of pipes are required to form transport zones, which, in turn, increase the storage capacity and size of the heat exchanger and make it difficult to access it. The purpose of the invention is the design of the design, reduction of metal consumption.

MEDIUM and reduction of dimensions of the heat exchanger. This goal is achieved by the fact that the evaporation and condensation zones of heat pipes are made in the form of a single or multiple spiral coil; in the vapor and condensate branches of the transport zones, they are partially inserted inside the channels. In addition, parts of the steam and condensate branches located inside the channels are thermally insulated, and the evaporation and condensation zones of the heat pipes are attached to the channel walls by means of double flanges. In this case, when the channels are located one below another, the parts of the condensate and steam branches of the transport zones outside these channels are made spiral. FIG. 1 shows a heat exchanger with channels for working media arranged one below the other in FIG. 2 - the same, offset from each other. The heat exchanger consists of pressurized channels 1 and 2 for working media, drainless heat pipes with evaporation zones 3 and 4 condensations inside channels 1 and 2, steam 5 and condensate 6 branches of the prefabrication zone, connecting in series evaporation zones 3 and 4 condensations, flanges 7 and 8 for attaching heat pipes to channels 1 and 2. Heat pipes are partially filled with an intermediate heat carrier, such as water.

The evaporation zones 3 and 4 condensations of heat pipes are made in the form of single or Multiple spiral coils, with the coils having the same or different diameters.

On the parts of steam 5 and condensate b of the branches of the transport zone located in channels 1 and 2, heat insulation 9 is made, and their sections 10 and 11, located between flanges 7 and 8, are made as parts of coils to compensate for differences in temperature elongations and manufacturing inaccuracies with the location of channel 2 above channel 1

When placing channels 1 and 2 in different vertical planes (Fig. 2), sections 10 and 11 are straight.

The heat exchanger operates as follows.

Heat from the hot medium in channel 1 is transferred to the intermediate coolant in the evaporation zone 3 of the heat pipe, which boils. The steam rises upward in a spiral, passes into the steam branch 5 and 10 of the transport zone through which it passes into the channel 2 to the zone 4 of the heat pipe condensation. Here, steam condensate; heat returns to the cooling medium flowing in channel 2, and the condensate flows down and through the condensate branch b and 11 of the transport zone again enters the evaporation zone 3 of the heat pipe located in canoe 1, and the process goes on continuously.

Thus, the implementation of zones of evaporation and condensation of heat pipes in the form of single or multiple spiral coils and their arrangement in the heat exchanger simplifies the design, reduces the metal consumption and (reduces the dimensions. Thermal insulation of parts of the steam and condensate branches located inside the channels improves circulation intermediate heat carrier, and double flanges provide reliable separation of working environments.

Claims (4)

1. Heat exchanger for corrosive or reactive media, containing pressurized media channels and besfatilny heat pipes, evaporation and condensation zones of which are located inside the respective channels, and transport zones are separated. the condensate and steam branches, differing in that, L in order to simplify the design, reduce metal consumption and reduce dimensions, evaporation and condensation zones of the heat pipes are made in the form of single or multiple spiral coils, and some steam and condensate branches of the transport zones introduced into the channels. 2. Heat exchanger according to p. 1, characterized in that the parts of the steam and condensate branches located inside the channels are heat insulated. 3. Heat exchanger according to claim 1, about T. This is because the evaporation and condensation zones of the heat pipe are attached to the walls of the channels by means of double flanges. 4. Heat exchanger on PP. 1 and 3, characterized in that the arrangement of the channels, one below the other, of the condensate and steam branches of the transport zones outside these channels is made spiral. Sources of information taken into account in the examination 1. USSR author's certificate No. 653498, cl. F 28 D 15/00, 1977.