SU856570A1 - Involute nozzle - Google Patents

Description

(54) EVOLUTE SOPLO The invention relates to devices that are used for spraying and races; determination of liquids and thin suspensions in working volumes of industrial heat and mass transfer apparats of coke-chemical, chemical and petroleum refineries. An involuted nozzle is known that contains an inlet, a swirling chamber by the outlet channel and a cap in which fluid is fed through the inlet fitting into the swirling chamber, where it acquires a rotational motion and ejected through the outlet channel, forming a hollow cone CO. Its disadvantage is the uneven distribution of fluid over the cross section of the torch. Closest to the present invention is an involuted nozzle containing an inlet, a passage to the swirling chamber, having a channel with an outlet, a lid and a means for creating an axial fluid flow 23 placed in the swirling chamber. The disadvantage is a considerable variation in the density characteristics irrigation, substantial circumferential uneven distribution of irrigation density, low flow coefficient, as well as large losses of fluid energy to internal friction, which is associated with a deterioration of dispersion STI spray. The purpose of the invention is to increase the dispersion of the spray and the spray efficiency. This goal is achieved by the fact that in an involuted nozzle containing an inlet, passing into the swirling chamber, having a channel with an outlet, a lid and means for creating an axial flow of liquid placed in the swirling chamber, the latter is made in the form of an involute contribution of its involute surface teller3856

but forming the outlet of the channel: the height of the involuted liner is 0.3-0.7 of the height of the swirling chamber.

FIG. 1 depicts the involute litter, general view; in fig. 2 is a section A-A in FIG. one.

The involuted nozzle contains an inlet 1, which passes into the twisting chamber 2, has a channel 3c with an outlet 4, a cap 5 and a means for creating an axial flow of liquid that is placed in its form of an involute insert 7, which has an involuted surface tangently the outlet 4 of the channel 3. The height of the involute: the insert 7 is 0.3-0.7 of the height of the twisting chamber.

The involute nozzle works as follows:

The liquid is supplied to the inlet nozzle-1 and at the entrance to the twisting chamber 2 is divided into two streams.

One part of the fluid continues to move along the evolvent of the nozzle, in the twisting chamber 6 acquires a rotational motion and enters the form of a rotating cylinder into the channel 3. Another part of the liquid moving along the involute 7 also receives a rotational movement, but with a much lower twist intensity and also enters channel 3. In channel 3, two swirling flows occur and a filled torch of sprayed liquid is formed at the outlet. Experiments have established a significant equalization of the irrigation density distribution for a given involute nozzle. Due to the axial flow

In addition to equalizing the irrigation density P1, the increase in the flow rate through the involute nozzle is equal to the same pressure drop values.

Thus, this involute nozzle allows to increase the uniformity of heat-mass transfer apparatus irrigation while simultaneously increasing the productivity of each nozzle. In this case, both the unit power and the efficiency of the operation of these devices increase.

Claims (2)

1. Lebedyuk GK and others. Spraying device in gas-cleaning apparatus M., TSINTIKHIMNEFTEMASH, 1976, p. 16-17. 2. USSR author's certificate in application number 2723828 / 23-05, cl. B 05 B 1/34, 1979 (prototype). wmmmm Rig2 y.