SU1224531A1 - Direct contact heat exchanger - Google Patents

Description

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The invention relates to a heat exchange technique and can be used in industries of the industry to heat a liquid.

The purpose of the invention is to increase operational efficiency by improving the mixing of heat-exchanging.

The drawing shows a heat exchanger cut.

The mixing heat exchanger comprises a housing 1 with nozzles 2 and 3 for supplying and discharging water and a steam supplying pipe 4 located in the lower part of the housing 1. Inside the latter, a recirculation shell 6 communicating with the cavity of the housing 1 lower .7 and upper 8 by openings and provided in the zone of the latter with a steam-water mixer, made in the form of inclined vanes 11 placed between the conical shells 9 and 10 of the crown of the crown 11. In the gap 5 there are transverse guides 12 forming the labyrinth bd channel.

The heat exchanger operates as follows.

The housing 1 through the nozzle 2 is filled with liquid to a level above the steam-water mixer. Hot steam is introduced into the gap 5 through the nozzle, as a result of which the liquid in the lower part of the gap 5 gradually warms up and the hot steam does not have time to co-balance. A vapor bubble forms that rises to the shoulder blades 11, bending the partition 12.

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The annular gap formed by the conical shell 10 and the wall of the housing 1 limits the possibility of free escape of the steam bubbles by lifting it in this case, depending on the speed of the water pushed out of the gap 5 into the shell 6.

As a result, the duration of the rise of the vapor bubble to the blades 11 will melt, and it manages to condense. The cone shell 9 reverses the direction of movement of the fluid, which is pushed out by the vapor bubble through the gap, provides the

5 fluids with increasing velocity in the gap between the cone shells

9 and 10, and the inclined vanes 11 located in this gap swirl the fluid flow before it enters the shell 6. The initial velocity at which the fluid enters the shell 6 is determined by the kinematic energy and direction of the fluid flow in the shell 6 , as well as a twist of fluid flow. Through shell 6, the cool liquid enters the hot steam outlet zone, where it is heated. During the steam supply and liquid circulation process, the last is heated to the required level. At the end of the heating fluid is drained through the pipe 3.

The presence in the proposed heat exchanger of the guide bulkheads 12 and the rim of the inclined blades 11 increases the intensity of mixing of the heat exchanging media.

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Claims (1)

MIXING HEAT EXCHANGER, comprising a housing provided with a steam supply pipe and a recirculation shell mounted therein with the formation of a peripheral gap, communicated with the lower and upper openings in the housing cavity and provided with a steam-water mixer in the region of the latter, characterized in that, in order to increase operational efficiency by improving mixing of heat-exchanging media , in the gap between the shell and the housing, transverse guide walls are additionally installed, forming a labyrinth channel , Paroprovodyaschy pipe placed on the bottom ,, and steam mixer is designed as a conical shells placed between the crown oblique blades. SU.,. 1224531>