SU1413251A1 - Surface-contact heat exchanger - Google Patents

Abstract

Invention m. used for utilization of heat waste in the textile industry. The purpose of the invention is to increase the efficiency of the heat exchanger. By reducing the hydraulic resistance when operating on dusty gases. The gas inlet nozzle 2 is located in the upper part of the vertical housing 1. In which the water distributor 3 and the heat exchange adapter are installed successively along the gas flow. The nozzle is made in the form of heat exchange elements (TOE) communicated with the cavity of housing 1 and placed in a closed box 4 with an autonomous water inlet pipe 5. The SOE is made in the form of a set of conical tubes 6 installed with large bases upwards and inserted into one another. with the formation of annular drainage holes 7. This ensures good turbulization of the flow of water and gas and the formation of a film of water evenly distributed over the entire surface of the SOE, which reduces the resistance, prevents contamination of the nozzle and creases the process of induction. 1 il. F

Description

The invention relates to the use of secondary energy resources and can be mixed for the disposal of thermal waste from textile enterprises.

The aim of the invention is to increase efficiency by reducing hydraulic resistance when working on dusty gases.

The drawing shows a contact heat exchanger, General view.

The contact heat exchanger contains a vertical housing 1 with a gas supply pipe 2 in the upper part, equipped with a water distributor 3 installed in series along the gas and a heat exchange nozzle made in the form of heat exchange 1 elements in communication with the body cavity 1 and placed in a closed duct 4 with an autonomous water supply pipe 5 .

The heat exchange elements are made in the form of a set of conical tubes 6, installed with large bases up and inserted one into the other with the formation of annular drainage holes 7.

The housing 1 in the lower part is equipped with a water collector 8 and a pipe 9 of the gas outlet.

The contact heat exchanger operates in the following way.

Hot gas enters the housing 1 through the pipe 2, is supplied to the heat exchange elements in the form of a set of conical tubes 6, where, moving at high speed, it is intensively mixed with water coming from the water distributor 3 and through the drainage holes 7 of the heat exchange elements.

Heated water is discharged from the moisture collector 8, and the cooled gas is discharged through the pipe 9.

The implementation of the heat exchange elements of the nozzle in the form of a set of conical tubes 6 installed with large bases up and inserted one into the other with the formation of annular drainage holes 7 provides good turbulization of the flow of water and gas moving at high speed. The water supply through the drainage holes Ί promotes the formation of a film of water evenly distributed over the entire θ surface of the heat exchange elements, which reduces resistance and prevents nozzle contamination.

In addition, a turbulent gas flow takes place at the point of separation of the flowing water film 5, which improves the process of mixture formation.

Claims (1)

Claim A contact heat exchanger comprising a vertical casing with a gas supply pipe in the upper part, equipped with a water distributor installed in series along the gas and a heat exchange nozzle made in the form of heat exchange elements communicated with the body cavity and placed in a closed duct with an autonomous water supply pipe, characterized in that, in order to increase efficiency by reducing hydraulic resistance when working on dusty gases, heat transfer elements are made in the form of a set of conical t ubok set up large bases and inserted one into another to form a circular drainage holes.