RU102777U1 - BLINDING SEPARATION NOZZLE - Google Patents

Abstract

 A louvre separation nozzle containing packages of inclined elements fixed from the ends between two vertical sheets, characterized in that the inclined elements are mirrored alternately in the nozzle, have a gap when docking to the lower part and are a packet of identical rectangular plates located at equal distances so so that their respective edges are parallel to each other and lie in the same plane.

Description

The utility model relates to the construction of regular nozzles designed to clean gases from heterogeneous impurities and can be used as droplet eliminators in technological apparatuses of the chemical and oil refining industries, as well as as water traps for cooling towers.

The closest technical solution to the proposed utility model (prototype) is a regular nozzle for heat and mass transfer and separation apparatus containing a package of inclined corrugated sheets or sheets with inclined protrusions directed on the surfaces of the sheets facing each other in intersecting directions, with the possibility of installation between perforated sheets elements, sheets and (or) elements located between them are provided with micro-eddy currents forming perforation, and the axis of micro-openings of the flow guides are oriented in the vertical direction, so that the flow micro-swirls are formed by the warp and weft of the woven mesh, in which the warp cross section is larger than the weft cross-section, and the step between the warp oriented vertically is greater than the step between the weft, that the elements are equipped with corrugations intersecting with corrugations or with protrusions of sheets with geometric dimensions smaller than the corrugations or protrusions of the sheets, that the micro-eddies are made in the form of paired notches, multidirectional from the plane of location and that the elements of coupled (Patent RF №2278728 Application. 2004.11.11, publ. 2006.06.27).

The main design flaw is the high aerodynamic drag and structural complexity.

The objective of the utility model is to reduce aerodynamic drag and simplify the design of the regular nozzle.

This problem is solved due to the fact that the louvre separation nozzle containing packages of inclined elements fixed from the ends between two vertical sheets, according to a utility model, the inclined elements are mirrored alternately in the nozzle, have a gap when docking in the lower part and are a package of identical rectangular plates located at equal distances to each other so that their respective edges are parallel to each other and lie in the same plane.

Figure 1 presents a schematic representation of the position of the inclined elements of the nozzle

Figure 2 presents the inclined element of the nozzle

Figure 3 presents a General view of a louvered separation nozzle.

The louvre separation nozzle containing packages of inclined elements 1 fixed from the ends between two vertical sheets, according to a utility model, the inclined elements are mirrored alternately in the nozzle, have a gap when docking in the lower part 2, and are a packet of identical rectangular plates 3 located equally between distances so that their respective edges are parallel to each other and lie in the same plane.

The separation nozzle operates as follows.

The gas stream containing particles of liquid and solid phase, moving from bottom to top, enters the package of inclined elements 1, in which, thanks to the inclined plates 3, deviates from the original direction of movement and is divided into separate jets. Particles of heterogeneous impurities, trying to maintain the initial trajectory of motion, are deposited on the inclined surfaces of the plates 3 under the action of inertial forces, where the impurities coarsen and, under the influence of gravitational forces, descend vertically through the gap in the lower part of the nozzle 2. The purified gas stream is discharged from the upper part of the nozzle .

Thus, the reduction in aerodynamic drag and simplification of the design of the regular nozzle occurs due to the use of flat and smooth plates in the manufacture of inclined elements.

Claims (1)

A louvre separation nozzle containing packages of inclined elements fixed from the ends between two vertical sheets, characterized in that the inclined elements are mirrored alternately in the nozzle, have a gap when docking to the lower part, and are a packet of identical rectangular plates located at equal distances so so that their respective edges are parallel to each other and lie in the same plane.