SU556827A1 - Nozzle for mass transfer apparatus - Google Patents

Description

(54) SURFACE FOR MASSIFIED LIPMLT.

The nozzle includes a hollow body, preferably a ball 1, with blades 2 including the front 3, the bottom 4, the top 5 and the rear 6 edges.

The smallest number of blades is equal to shes. The blades of the proposed attachment have the following parameters:

where L is the length of the blade, equal to the length of the most important edge;

R is the bending radius of the blade along the length; HZ - the height of the blade at the rear edge; H1 - the height of the blade at the leading edge; D is the diameter of the ball.

For better capture of the gas flow and the gas; (the costa front edge of the blade is located to the lower one at an angle of 45 °.

The nozzle works as follows.

In the advanced fluidization mode, when the nozzle layer is in a widened state, the moving streams of the interacting phases, affecting the nozzle blades, lead the latter to intensive rotation, and this happens in the most diverse axes. In turn, the nozzle has a reverse effect on the gas-liquid flow. This effect is that the blade is inflated as part of the torus surface, and the gas-liquid flow captured by the leading edge is not discharged from it, but moves towards the trailing edge, while it is strongly twisted and squeezed as the back of the blade already and goes under some excess pressure. Thus, a nozzle with such blades is a kind of ekeschunar elements that intensively move the gas-liquid flow. In this case, intense turbulization of interacting flows is achieved with the active movement of parallel gas and liquid jets, and, consequently, the effective phase contact surface and mass transfer intensity increases.

As the o-liquid STREAM acts on the nozzle, the nozzle elements are constantly foured with each other and with the walls of the apparatus, as a result, the nozzle elements will assume the most diverse positions in the apparatus. To offer the nozzles, mutual collisions and against the walls of the apparatus have a beneficial effect on the frequency of changing the surface of the contact of the phases, but it does not affect the efficiency of work.

Thus, the proposed nozzle allows creating a large turbulization of the interacting flows, frequent change of the contact surface of the phases, and, consequently, to increase the effective contact surface of the phases, which ultimately leads to a shgengensification of the heat-mass transfer process and an increase in the efficiency of the mass-carrying apparatus.

Claims (3)

1. A nozzle for fluidized bed mass exchangers, designed as a pop-up body of a predominantly bastard, with blades, characterized in that, in order to intensify the mass transfer process due to intensive displacement of parallel jets of gas, liquid and increase the effective surface of the phase contact, the blades executed as part of the surface of the torus. 2. The attachment according to claim 1, from the liner so that the blades are located one against the other in mutually perpendicular planes and turned 180. 3. The nozzle on nn.l and 2, characterized in that the front edge of the blade is located to the bottom at an angle of 45 °. Sources of information taken into account in the examination: 1. Authors certificate of the USSR N 281415, B01 D 53/20, 1969. 2. USSR Author's Certificate No. 403423, B01 053/20, 1971.