SU852367A1 - Centrifugal injection nozzle - Google Patents

Description

The nozzle works as follows.

Fluid through the tangentially mounted nozzle 2 enters the twisting chamber 1, where it acquires a rotational motion. In this case, as noted, an air vortex forms on the nozzle axis, causing the appearance of a vacuum. The swirling fluid moves into the nozzle 3 and leaves the twisting chamber 1 in the form of a hollow cone, and a passage into the annular gap 8 between the diffuser 6 and the cone-shaped ring 9. In it, the surrounding air (or gas) is ejected by the torch as a positive pressure gradient. , cut slit slots 7 and shtutser 5, the diameter of which must be less than the diameter of the air vortex, and through the slit gap 10. In the annular gap 8, the liquid and the electrified gas are mixed. In this case, the gas is partially dissolved, and the undissolved bubbles are compressed to liquid pressure. Upon leaving the annular gap 8, gas bubbles in the liquid, due to a sharp decrease in pressure, instantaneously expand, i.e. micro-explosions occur, leading to a significant increase in dispersion.

In addition, the expiration of the film from the nozzle 3 contributes to the intensive desorption of gas dissolved in a liquid, causing additional turbulization of the film surface and additional crushing of droplets. Reducing the effective viscosity of a fluid due to the presence of gas bubbles in it also contributes to more efficient dispersion.

Due to the fact that the ejection of gas into the liquid is carried out due to the energy of the liquid itself, the total energy consumption for spraying is redistributed towards the increase of the useful component, which is spent directly on the formation of a new surface, i.e., on dispersion. In this case, the proportion of energy consumption for fluid flow is reduced accordingly. All this contributes to the efficiency of this nozzle. The economic efficiency of the nozzle is that it allows to obtain a thinner spray compared to the prototype at the same cost of energy.

Using this centrifugal nozzle will significantly intensify the processes of heat and mass transfer occurring in the spray apparatus.

Claims (3)

1. A centrifugal nozzle comprising a swirling chamber with an inlet nozzle and a nozzle and a cap characterized by in order to increase the atomization efficiency, it is provided with a nozzle with a diffuser at the nozzle outlet, having slotted slots on the side surface and enclosing the diffuser with annular gap, which is installed with a slot gap relative to output end of the nozzle. 2. The nozzle according to Claim 1, characterized in that the total area of the cross-sections of the slit slots and the gap gap is 2-5 times the average value of the areas of the cross-sections of the annular gap. 3. The nozzle on the PP. 1 and 2, characterized in that the cross-sectional area of the annular gap is constant along its entire length. Sources of information taken into account in the examination 1. DG Pazhi and others. Spraying devices in the apparatus of the chemical industry. -M .; Chemistry, 1975, p. 98, fig. 37-a (prototype). f /