SU802766A2 - Air-evaporation heat exchanging element - Google Patents

Description

(54) HEAT EXCHANGE ELEMENT OF AIR-STEAM HEAT EXCHANGER

The invention relates to apparatuses serving for carrying out processes of evaporative cooling of air in a film mode of evaporative liquid flow.

According to the main author. St. No. 552495 is known a heat exchange element of an air-evaporative heat exchanger containing a pipe, one end of which is provided with a screw insert with an axial channel and connected to the cavity of a double tube sheet filled with liquid, and the opposite end is extended beyond the limits of a single tube plate the board is curved and bent 1, inside the pipe, and the end of the insert directed towards it has a tapered cut, and in the pipe there is a cylindrical shell concentrically with it chopping heat contact and forming a tapered insertion cut and bent-pipe end annular gaps ij.

The disadvantage of such a heat-exchange element is the deterioration of separation and liquid entrainment with increasing fluid supply through the screw insert, as well as with air supply.

The purpose of the invention is the intensification of heat exchange by phase separation.

The goal is achieved by the fact that in the annular gap between the insert and the shell there is a separating ring fixed on the inside

0 to the wall of the pipe and forming an annular nozzle with a tapered cut of the insert, which communicates with the cavity of the double pipe cut.

The drawing shows descriptively

5 a heat exchange element in longitudinal section.

The heat exchange element contains a pipe 1 ,, one end of which is provided with a screw insert 2 with an axial

0 by channel 3 and connected to the cavity 4 of a double tube sheet 5 filled with liquid. The other curvilinear end of pipe 1 is extended beyond the limits of a single tube plate 6.

5 A cylindrical shell 7 having a thermal contact in the form of a corrugated tape 8 with a pipe 1 is placed concentrically in the pipe 1. In the gap between the end face of the insert 2 and the shell 7 there is a separating

a ring 9 fixed on the inner wall of the pipe. and forming an annular nozzle with a tapered cut of the insert 2, communicating with a cavity of a double pipe grid 5. The nozzles are directed in the direction of air flow. Inside the cylindrical shell 7 below the curvilinear end of the pipe 1 can be installed static spinner gas-liquid flow 10, for example of the blade type.

The telco-element operates in the following way.

The hot coolant washes outside pipe 1. This heat is transferred through corrugated tape 8 to shell 7, cooled by gas-liquid flow in film flow of liquid along the inner surface of shell 7. A fluid film is separated from the heat exchanger element at the exit of the gap between the obachika 7 and the upper pipe end 1 This part of the air flow also falls into this gap. The separated liquid, together with the air, rushes down and, reaching the separating ring 9 and being ejected by the main air flow, goes through the gap into the shell 7. Liquid

Q

from cavity 4 enters the cylindrical shell through the channels of the screw insert 2 and the gap between the separating ring 9 and the end face of the insert 2.

The use of the described element in heat exchangers of evaporative-air cooling will allow to intensify the heat exchange of the separation of phases in a wide range of loads for gas and liquid.

Claims (1)

1. USSR author's certificate W 552495, cl. F 28 D 5/02, 1975. ff W