SU1666904A1 - Contact heat exchanger - Google Patents

Abstract

The invention relates to power and chemical engineering and can be used in heat and mass transfer apparatus. The aim of the invention is to intensify heat and mass transfer. The plate 2 is made in the form of a truncated cone with a central shell 3 and an overflow hole 7 in which a spiraling portion of the water supply pipe 9 is installed with gaps between the turns of the helix. This allows the gas flow to be divided into two parts, one of which is directed to the shell 3 with the swirler 4, and the other passes through the gaps between the turns. The liquid enters through the outlet U-shaped section of the pipe 9 and is distributed over the plate 2 in the form of a curtain. Accumulated on the plate 2, the liquid flows out of the overflow U-shaped tube 5, where it is again dispersed. 1 hp ff, 1 ill.

Description

The invention relates to energy and chemical engineering and can be used in heat and mass transfer apparatus.

The aim of the invention is the intensification of heat and mass transfer.

The drawing shows a contact heat exchanger, a longitudinal section.

The contact heat exchanger contains located in the housing 1 is attached to the last plate 2, made in the form of a truncated cone, a vertical cylindrical shell 3 with a swirler 4 inside the shell 3. The U-shaped overflow tube 5 is equipped with a chipper 6 at the outlet end, which is located inside the shell 3, this input end of the tube 5 is fixed in the plate 2, which is fastened by a larger and smaller bases with the housing 1 and the casing 3, respectively. In the middle and lower parts of the cone, overflow openings 7 and 8 are made. The water supply device is made in the form of a pipe 9, the inlet section of which is located in the overflow hole 7 of the middle part of the cone, twisted in a spiral with gaps between the turns of the latter, overlapping the opening 7, and the outlet section made U-shaped and located coaxially inside the overflow U-shaped tube 5. The end face of the output section of the pipe 9 is placed above the upper end of the cylindrical shell 3 and is equipped with a chipper 10. made as part of a sphere. In addition, the pipe 9 is connected to the distribution manifold 11.

Contact heat exchanger operates as follows.

From the collector 11, the liquid enters the tube 9, passes through its spiral, located in the zone of the overflow hole 7 of the middle part of the cone, where it is cooled by an upward gas flow passing through the gaps between the turns of the spiral. Further, the fluid flows from the outlet section of the pipe 9, made in a U-shape, and, hitting the bump 10, forms a continuous curtain.

The ascending gas stream is divided into two parts, one of which enters the casing 3, passes the swirl 4, where it acquires a rotational movement, and disperses the liquid flowing from the outlet end of the overflow U-shaped tube 5. The liquid flows from the plate 2 through the tube 5 due to so that the outlet end of the tube 5 is placed below its inlet end, and also due to the ejection created by the moving gas flow in the gap zone between the outlet end of the tube 5 and the chipper 6. In this case, the liquid contacts gas, in which the liquid ahoditsya in finely divided form. Further, the gas-liquid flow continues to move higher, where it is in contact with the liquid curtain. Part of the gas stream flows through the gaps between the turns of the pipe spiral 9. interacting with its walls and the liquid flowing down, disperses it and rises. The liquid accumulating in the plate 2. drains through the hole 8.

The implementation of the input section of the pipe 9 in the form of a spiral with gaps between the turns of the latter creates the possibility of obtaining oscillatory movements of the pipe 9. which, in turn, create conditions for a pulsating interaction of the media.

Claims (2)

Claim 1. Contact heat exchanger containing located in the housing fastened with the last plate, a vertical cylindrical shell with a swirl installed inside the last. A V-shaped overflow pipe with a chipper at the outlet end, led into the said shell, and fixed with the inlet end in the plate, and a water supply device, characterized in that, in order to intensify heat and mass transfer, the plate is made in the form of a truncated cone, fastened with larger and smaller bases, respectively with a housing and a shell, with overflow openings made in the middle and lower parts of the cone, the water supply device is made in the form of a pipe, the inlet section of which is twisted in a spiral ^z with gaps between e e turns, overlapping the overflow hole of the middle part of the cone, and the outlet section is made U-shaped and is located coaxially inside the specified overflow U-shaped tube. 2. The heat exchanger according to claim 1, with the fact that the end of the outlet pipe section is located above the upper end of the cylindrical shell and is equipped with a chipper made as a part of a sphere.