SU1360785A1 - Packing for apparatus having cross/accurate coupling of phases - Google Patents

Abstract

The invention relates to the design of apparatus with a regular nozzle, operating according to the principle of cross-phase interaction, mainly pure liquid and gas, while maintaining the flow or counterflow in the apparatus as a whole, and allows for stabilization of the irrigation regime over the height of the contact zone. The nozzle is made of perforated sheets in the form of slots with curved edges. The nozzle surfaces located between adjacent slots are made with slots extending to at least one of the side edges of the slots. The gaps can be made offset from each other and partially overlapping each other and with nozzle extensions at the point of exit to the side edges of the gaps, 6 Cp. F., 7 ill. 00 05 00 SP

Description

The invention relates to structures of contact partitions of apparatuses with a regular nozzle, operating according to the principle of cross-phase interaction of phases, mainly pure liquid and gas, while maintaining flow or counterflow throughout the apparatus, and can be used in various industries in the implementation of absorption processes. , desorption, cooling, chemical reactions, rectification under vacuum, etc.

The purpose of the invention is to provide stabilization of the irrigation regime along the height of the contact zone.

FIG. 1 shows a nozzle, a view; figure 2 - node I in figure 1 figure 3 - nozzle, the longitudinal axis of the slots are angled to the side edge of the notch, a general view; in fig. 4 is the same, the slots intersect each other; figure 5 is the same, the surface located between adjacent slots, grooved in cross section; 6 - the same, with nozzle widening slits; Fig.7 - node II in Fig.6.

The surface of the nozzle can be flat, cylindrical, conical, etc., and to form contact zones with cross-phase phase interaction, the nozzle in the device can be vertically or inclined (for example, sequentially one after another, coaxially with each other, one after another) etc.).

The nozzle I is made of thin-sheet material and has notches 2. In the contact area of each nozzle between the notches are located the longitudinal surfaces 3, filled with slots 4 extending to the side edges 5 of the notches 2. At the side edges 5 slots 2 have slots 4 form noble extensions 6.

For the directional gravity flow of the distributed liquid phase, the edges that join the ends of the side edges of the gaps 2 are made with protrusions 7 in the form of bent edges. In notch 2, at least one side edge may have outlets of slots 4 with nozzle extensions 6, while the longitudinal axes of slots 4 may be directed at an angle oij to the side edge of notch 2 connecting their outlets.

In order to improve the agrohydrodynamic characteristics of the zone of contact, the nozzles of its surface between the slots 2 are grooved. It is advisable that the roots of 8 slots extend to the adjacent lateral edges of adjacent

slots 2, to perform offset relative to each other and overlap each other.

The nozzle works as follows.

The liquid phase, distributed by a liquid distributor (not shown) on the surface 3 of the nozzle 1, flows through them in the form of streams or films. Move along the surface of the 3 nozzles,

streams or films flow along the roots of 8 slits 4 and partially on the slits located along the gravitational flow of the liquid phase, which wets them also due to surface forces.

tension is absorbed in the slit and moves; along them to the side edges 5 of the notches 2, in particular to their nozzle extensions 6.

The gas phase flows pass through the slit-like holes crosswise to the surface of the partition, in particular perpendicular to it. The gas phase through the cracks is prevented by surface tension forces.

liquid phase filling slits.

In this case, the ejecting effect of gas streams passing through the slits has a positive effect on the movement of the liquid phase along the slits to the side edges of the slits.

Thus, due to surface tension forces, the flow rate of the continuous dispensing of the liquid phase and its supply to

the side edges of the slots in the zone

the high-speed action of the gas flow, which also continuously causes the liquid, to phase out in dispersed expansions and disperses it.

The flow rate of the continuous distribution of the liquid phase varies depending on the magnitude of the gas phase velocity in the slots of the nozzle, for example, it increases with increasing velocity of the gas flows in the slots and decreases as it decreases.

The efficiency of the nozzle is ensured even in the minimum irrigation mode, and thus the non-irrigated areas are practically eliminated by the height of the contact zone through which the gas phase would be useless.

The use of the invention in the design of devices with cross-phase interaction of the phases will allow them to stabilize the irrigation regime along the height of the contact zones of the nozzle in the free cross-section of their slots and thereby intensify the mass transfer processes.

Claims (7)

1. A nozzle for apparatus with interchangeable phase interaction, consisting of sheets made with perforations in the form of slots with bent edges located along the slots, which is so as to ensure the stabilization of the irrigation regime along the height of the contact zone, the surface the nozzles located between adjacent slots are made with slots extending to at least one of the side edges of the slots. ten 607854 2. Attachment pop. 1, which differs in the fact that the longitudinal axes of the slots are directed at an angle to the side edge of the notch. 3. A nozzle according to claims 1 and 2, characterized in that the gaps are filled offset from each other and partially overlapping each other. 4. The nozzle according to claims 1–3, which is so tacted that its surfaces, located between adjacent perforations, are filled with a groove and in cross section, 5. The nozzle according to claims 1-4, characterized in that the slots at the point of exit to the side edges of the gaps are made with nozzle-like extensions. 6. Attachment according to claims 1-5, which means that the lower ones. and / or the upper ends of the slots are provided with protrusions, for example, in the form 25 bent edges. 7. Attachment according to PP-6, which means that slots are made on the edges of the flanging of the gaps. / FIG. one Fig2 FIG 3 Fy FIG. five  0 FIG. 6 Compiled by G. Urusova Editor P. Gereshi Tehred M. Didyk Proofreader A. Ilyin Chakaz 6175/10 Circulation 657 Subscription VNIIPI USSR State Committee for inventions and discoveries 1.13035, Moscow, Zh-35, Raushsk nab., d. 4/5 Production and printing company, Uzhgorod, st. design, 4