SU769280A1 - Contact heat-exchanger - Google Patents

Description

the deflector 5, and at the upper ends of the shells of the deflector can be installed conically. e, tapering upward visors 10.

The device works as follows.

Circulating cooling water through the nozzle 3 nostunat in the lower channels of the distributor 6. In the same distributor 6 through the nozzle 4 flows clean cold water. The fluid coming out of the slotted channels of the distributor 6 is formed by the disks 7 into film curtains overlapping the cross section of the deflector 5. The vapor-gas mixture enters from the housing 1 through the pizhny open end of the deflector 5 and when upward it contacts first with the film curtain from the circulating water and then - from pure cold water.

Since the film curtains have a separating effect and press the vapor-gas phase to the periphery, the visors 10 are used to direct this phase to the center of the film curtains and better contact.

In the deflector 5, the steam is completely condensed, and the non-condensable gases, cooled to a temperature close to the temperature of pure cold water, are sucked out from the deflector 5 by means of a vacuum pump through the pipe 9.

When contacted with a pars-gas mixture, liquid film curtains are crushed by it at the deflector 5 into drops, which through the upper end of concentric shells, equipped with a visor 10, flow down into the annular space between the shells, creating a liquid column there, at least 130 mm high. Under the action of this column, the liquid flows through the slotted channels of the deflector 5, forming reflective disks 7 into new film curtains overlapping the flow areas of housing 1.

Condensate mixed with coolant through the pipe 11 is withdrawn from the housing 1, and the vapor-gas mixture enters the internal space of the deflector 5, where it contacts the cold liquid flowing from the distributor 6.

To create the necessary head and form stable film curtains, the slotted channels of the outer reflective disks 8 should have gaps smaller, h, the gaps of the reflective disks 7. For this purpose, you can direct the liquid from two or more reflective disks 7 into one slot channel formed by the disk 8. In the latter case, the visor 10, in addition to directing the vapor-gas flow to the center, improves the entry of fluid into the annular space between the shells of the deflector 5. If necessary, additional cooling fluid can be constantly or periodically fed into one or more annular spaces of the shells, for example, through a pipe 9. Liquid in the distributor 6 can be fed from above, as shown in FIG. 1, below, as shown in fng. 2, or both above and below. The number of sets of concentric shells, their number in the set, the angles of inclination of the working surfaces of the disks 7 and 8 and their number may vary depending on the properties of the condensed vapor and the cooled liquid, the content and properties of non-condensing gases, the required performance, etc.

Claims (4)

1. A contact heat exchanger, preferably a condenser, containing a vertical case with steam and liquid supply nozzles, coaxially housed in the Cornus deflector and a central, multiple liquid distributor in the form of coaxial cylindrical shells forming slotted channels, the outlet openings of which are provided with guide discs characterized by that, in order to intensify heat exchange and reduce the size, the deflector is made of coaxial shells installed by Rus, which form annular channels with reinforced ennymi output guide wheels, a pipe for supplying steam connected to the cavity formed Defla .ektorom and the housing. 2. A contact heat exchanger according to claim 1, characterized in that a nozzle for supplying a liquid is installed in the lower part of the housing. 3. A contact heat exchanger according to claim 1, characterized in that in the upper part of the housing there are additional pipes for supplying fluid, which are in communication with the liquid distributor and the deflector channels. 4. Contact heat exchanger according to claim 1, characterized in that conical, tapering visors are installed at the upper ends of the shells of the deflector. Information sources, taken into account in the examination 1. USSR author's certificate No. 492721, cl. F 28 C 3/06, 1973.