SU1339388A1 - Heat exchanger - Google Patents

Abstract

Invention m. B. used in Stanionarny and transport installations. The image allows intensification (} to initiate contact heat transfer and reduce I aO aa rites. In the RING channels between the pipes I and 2 there is a mixing chamber. Each inner pipe (W) is equipped with conical (K) nozzles 7 facing more; | mi downward and installed with a gap on the fire to the external pipe (NT). The VT 1 is made ner (|) O1. The perforations of the pipes in this case can be arranged in a checkerboard pattern and have petals bent outward. b. are made up of separate sections, each section being composed of and From the end To sections and the central perforated area, the perforations are made as slots inclined to the tube, and the sections are interconnected along the To surfaces of the end sections. The output collector 5 BT I is equipped with a condensate chamber 13 and a sump 14 communicated with the atmosphere | e | 1OI through the hole 15, and the output collector 6 NT. Water flows along the inner surface of the NT 2 into the collector) 6. Air enters the BT I and through the openings in them into the gap between the BT I and NT 2. water is cooled as in the final process KTA it with air and by heat exchange through the wall 2. Also HT air enters I KaMej) y 13 where condensation occurs n1 1x water vapor. The enclosed air through the hole 15 goes into the atmosphere. four . Ii. f-ly, 4 and. 1. yu (L 00 with co with 00 oo

Description

The invention relates to heat exchangers and can be used in various industries in both stationary and transport installations.

The aim of the invention is to intensify contact heat exchange and reduce size.

FIG. 1 shows a heat exchanger., General view; in fig. 2 shows an embodiment of the inner tube; in fig. 3 - performance of the perforated inner pipe; in fig. 4 - performance of the inner pipe composite.

The heat exchanger contains a knob of concentrically installed inside one another the inner and outer tubes 1 and 2, which form annular channels, connected to autonomous inputs 3 and 4 and output 5 and 6 collectors for heat exchange media. In the annular channels between pipes 1 and 2 there is a medium mixing chamber. Each inner tube 1 is provided with conical nozzles 7, facing down with large bases and installed with a clearance relative to the outer tube. The inner tubes 1 are perforated. Perforation of pipes at this time can be located in the njax order and have petals bent outwards. Inner pipes can be extended, or they can also be made up of separate sections. In this case, each section consists of end conical sections 9 and 10 and centrally of the perforated section 11, the perforations being made in the form of grooves 12 inclined towards the tube forming, and the sections are interconnected along the conical surfaces of the end sections. The outlet manifold 5 of the inner tubes 1 is provided with a condensate chamber 13, settling tank 14, which is connected with the atmosphere through the opening 15, and the outlet header 6 of the outer tubes. Outside) The first pipes 2 are provided with fins 16, increasing the heat exchange area. The lower ends of the inner pipes 1 are provided with distribution nipples 17, and the upper ends are freely centered in the guide pipes 18 of the output collector 5.

The heat exchanger operates as follows.

In the inlet manifold 4 of the outer pipes 2 water is supplied, which through the annular gaps between the pipes flows down along the inner surface of the wall of the pipes 2 into the outlet collector 6. Air from the inlet manifold 3 flows into the inner pipes 1, then through the holes in the walls of the pipes between the pipes and is removed through the outlet manifold 5. In this case, water is cooled as in the process of its contact

with air and by contactless heat exchange through the wall of the outer tubes 2. The air goes further into the condenser chamber 13, where the condensation of water vapor takes place. Drained air through the hole 15 enters the atmosphere, and the condensate from the sump 14 enters the output manifold of the outer tubes.

The use of the invention makes it possible to intensify the heat exchange between heat exchanging media and to increase the tech 15

no economic indicators of the heat exchanger.

Claims (5)

1. A heat exchanger containing bundle 0 concentrically mounted one inside the other tubes forming annular channels connected to autonomous inlet and outlet collectors for heat exchanging media, and the displacement chamber of the latter, characterized in that, in order to intensify contact heat exchange and downsizing, the mixing chamber is located in annular channels between the pipes, each of which is equipped with a conical nozzle, facing .. large base down and installed with a gap relative to the outer tube. 2. A heat exchanger according to claim 1, characterized in that the inner tube is perforated and provided with additional conical nozzles, similar to the first. 3. Heat exchanger according to claim 2, characterized in that the perforations of the inner tubes are arranged in a checkerboard pattern and have petals bent outward. 0 4. The heat exchanger on the PP. 1 and 2. characterized in that each inner pipe is made up of a composite of a section 1) of its sections, each of which consists of end conical and central perforated cylindrical sections, 5, the perforations are hollowed out in the form of grooves inclined towards the tube, and the sections are interconnected along the conical surfaces of the end sections. 5. A heat exchanger according to claim 1, characterized in that the outlet c. Inner tube collector is provided with a condensate chamber and a sump communicated with the atmosphere and the output collector of the outer tubes. 18 FIG. 2 ig. five Fy