SU1400649A1 - Packing for heat-mass exchange apparatus - Google Patents

Abstract

The invention relates to mass exchange machines. The aim of the invention is to increase the efficiency of heat and mass transfer by increasing the contact surface. The nozzle is made in the form of a hollow perforated rotational body, in the holes of which the radial rods are fixed, and an internal geometrically similar nozzle body is fixed to them in the center of the nozzle in its cavity. Heat and mass transfer is carried out in film mode on all surfaces of the nozzle and in the droplet mode in the volume of the nozzle due to the vibration of the internal body on the radial rods. 1 hp f-ly, 2 ill.

Description

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The invention relates to devices for conducting heat and mass transfer processes and can be used in food, chemical and petroleum refining industries.

The aim of the invention is to increase the efficiency of heat and mass transfer by increasing the contact surface.

FIG. 1 shows the proposed nozzle section; in fig. 2 - option variants.

The nozzle is made in the form of a hollow ball (cylinder) 1 with holes 2 perforated in it and an inner central ball (cylinder) 3 with radial, mainly spiral, rods 4, the latter can be made to support the inner surface of ball 1 or they are inserted by the ends into the drilling of its surface, where they can be welded, and also installed through the perforations of the openings 2 with hooks or crossbars 5 welded inside or outside the openings 2.

The nozzle is assembled from the two halves of the ball 1, where the inner ball 3 is laid with the radial rods 4, the ends of which in a tightly compressed or stretched position are fixed on the crossbars 5.

The nozzle works as follows.

In the heat and mass transfer apparatus fall asleep a certain amount of nozzles. On top of that, the volume of the nozzles serves to irrigate the liquid product, and from below - the corresponding gas-vapor mixture. The liquid phase of the product in the form of a film is distributed over the surface of the orb (cylinder) 1 of the nozzle and sequentially flows around it, the passage through the orifices 2, periodically passes along its outer and inner sides, as well as along the rods 4 and the orb 3. Pass the upper nozzle In the same way, the liquid phase flows to the lower and the following nozzle, and so on until it leaves the apparatus. In the fluidized bed, the nozzles collide with each other and cause the internal balls (cylinders) 3 to vibrate with the ends of the rods 4, which spray around themselves

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At the same time, in the same way, from bottom to top, nozzles 1 are washed by the vapor-gas phase in countercurrent to the liquid phase.

The liquid phase in the film mode on the inner and outer surfaces of the ball (cylinder) 1 of nozzles, rods x 4 and the internal balls (cylinders) 3 and in the small-sized salt circuit in their volume is countercurrently heat- and mass-exchange with the vapor-gas phase. or another component and clearing another phase from it.

Since the proposed nozzle has a large surface relative to the ball (cylindrical) surface of heat and mass transfer in the volume of the apparatus increases, naturally, its volumetric efficiency of heat and mass transfer increases proportionally. Then, with the same volume of packing in the heat and mass transfer apparatus, the output of finished products will increase accordingly. In another case, the metal consumption of the apparatus is reduced by a corresponding decrease in the volume of the nozzle chamber.

The proposed nozzle can work both in bulk and in fluidized bed.

The effectiveness of the nozzle in the bulk layer also decreases due to uniformity, the distribution of the liquid phase not only over the entire outer and inner surfaces of the nozzle inside it, but due to the internal volume, inner cavity 3 and the surface of the radial rods 4.

Claims (2)

1. Nozzle for heat and mass transfer apparatus, made in the form of a hollow perforated rotation body, which is aimed at increasing the efficiency of heat and mass transfer by increasing the contact surface, the nozzle is equipped with radial rods, mainly helical, installed in its holes. 2. The attachment of claim 1, about tl, is that it is provided with an internal geometrically similar body, fixing the center on the radial rods. 41 fufffi f iT- j ,, r V {/ fff / J2:  f Vuz.1 9uz.2