SU1548631A1 - Gas-liquid heat-exchanger - Google Patents

Abstract

The invention relates to contact heat exchangers and can be used in the heat and moisture treatment of air. The purpose of the invention is to intensify heat transfer. The gas-liquid heat exchanger contains disks 8 located in the cavity of the housing 1 mounted on the shaft 7, between the shaft 7 and the disk 8 a shell 9 with end walls 10 is concentrically mounted that is filled with additional liquid, and the nozzle 12 of the additional liquid is connected to the pallet 2. As a result of contact between the flow gaseous coolant and liquid heat and moisture treatment occurs gaseous coolant. The additional flow of coolant entering through the pipe 11, increases the amount of heat transferred to the coolant gas or vice versa. Supplying the inner wall of the shell 9 with a capillary-porous coating 13, as well as making disks 8 with corrugations, intensifies the heat exchange. 2 Il.

Description

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The invention relates to contact heat exchangers and can be used in heat and air treatment, as well as in other industries.

The purpose of the invention is the intensification of heat transfer.

FIG. 1 shows a gas-liquid heat exchanger, general view; in fig. 2 - the same longitudinal section. The gas-liquid heat exchanger will keep the housing 1 with the pallet 2, supplying and discharging nozzles of the gaseous coolant and liquid, in the cavity of which the rotor is mounted as disks 8 mounted on a horizontal shaft 7, the outermost of which are flat and the outlet C of the gas coolant nozzles are located along the horizontal axis of the housing 1. Between the discs 8 and the shaft 7, a shell 9 with end walls 10 and additional nozzles 11 and 12 of the liquid inlet and outlet is installed; Which is connected to the pallet 2, and the shell 9 together with the disks 8 and the shaft 7 forms a rotor, the disks 8, except the extreme ones, are made with corrugations arranged in concentric circles, and a capillary-porous coating is applied to the inner wall of the shell 9 13. The cross-sectional area of the inlet and outlet pipes 3 and the gaseous coolant is equal to the area of the living section between the discs 8. The pallet 2 is equipped with an overflow device 1.

Gas-liquid heat exchanger works as follows.

The heat transfer fluid enters the pallet 2 through the inlet nozzle 5 fills it and leaves through the spout 6. At the same time, the constant level of the liquid is maintained by means of the overflow device 14. Rotating

With a low-power motor (not shown), the shaft 7 rotates the discs 8, pulling out a film of liquid from the pan 2, which evenly covers them. As a result of direct contact between the gaseous coolant flow and the liquid, heat and mass transfer occurs. Pass through the internal cavity of the shell 9 with the end walls 10 additional flow of coolant flowing through the pipe 11, increases the amount of heat transferred from the liquid to the gaseous coolant or vice versa. Supplying the inner wall of the shell 9 with a capillary-porous coating impregnated with an additional heat-transfer fluid, as well as making disks 8 with corrugations intensifies the heat exchange.

Claims (1)

Invention Formula The gas-liquid heat exchanger, comprising a housing with a pallet, gaseous coolant and liquid inlet and outlet pipes, and placed in its cavity by a rotor in the form of disks mounted on a horizontal shaft, the outermost of which are flat, and the inlet and outlet pipes of the gaseous heat carrier are located along horizontal axis of the housing, characterized in that, in order to intensify heat exchange, a shell with end walls and additional nozzles is concentrically mounted between the disks and the shaft s supply and discharge of fluid, the latter of which is connected to the pallet, wherein the tube together with the discs and the shaft forms a rotor discs except extreme are formed with corrugations arranged along concentric circumferences and the inner wall of the sleeve coated wick-porous coating. at FIG. one