SU1381079A1 - Jet aerator - Google Patents

Abstract

The invention relates to devices for aeration of wastewater when treating natural and waste waters. The purpose of the invention is to intensify the process of mass exchange by increasing the contact surface of gas and liquid. The jet aerator comprises a housing 1 with a chamber 2 formed by a lid 3 with openings 4 and a flange 5 with a cushion, gmi recesses 6, connected to them by nozzles 7.8 of supply and gas. In chamber 2, U and V-shaped elements are placed, forming between themselves nozzles and displacement chambers. ); (liquid under working pressure through pipe 7 enters chamber 2 between cover 3 and flange 5 of housing 1. At the same time, fluid flows between V-shaped elements forming nozzles, forming a system of fan flat jets. The gas captured by kinetic jets of liquid the atmosphere through the air inlet; he pipe 8 through the holes 4 in the knob 3 into the mixing chambers formed by U-shaped elements. As a result, gas is ejected by radially flowing flat jets of liquid into the surrounding jet aerator the liquid and its dispersion in the form of bubbles. 1 3.pfl-ly, 2 ill. ((L co oo

Description

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The invention relates to devices for aerating a liquid during the purification of natural and waste waters.

The purpose of the invention is to intensify the process of mass transfer by increasing the contact surface of gas and liquid.

FIG. 1 shows the proposed aerator, a longitudinal section; in Fig.2 a section A-L) ia of Fig.1.

The jet aerator comprises a housing with a chamber 2, formed by a lid 3 with openings 4 and a flange 5, which are made with peripheral grooves 6, are installed with a gap to each other and are connected to the pipes 7 and 3 of the liquid and gas supply. Chamber 2 is placed evenly around the circumference, respectively, along the periphery of the housing 1 and closer to the axis of the aerator, radially arranged and - and V-shaped profiled elements 9 and 10, which form between the mixing chambers 11 and the jet-forming nozzles 12, 12. The housings 1 made in the lid 3 connect the space between the adjacent radially arranged V-circumferential elements 10 to the gas supply nozzle 8. The profiled U-shaped and V-shaped elements 9 and 10 could be either made of strip or solid. The annular peripheral grooves in the lid 3 and the flange 5 of the housing 1 allow the i-shaped elements 9 to be formed which form mixing chambers 11 of greater height than the V-shaped stream-forming elements in order to ensure air entrainment along the entire perimeter of the outgoing liquid jets.

Jet aerator works as follows.

The fluid under the working pressure through the pipe 7 enters the chamber 2 between the lid 3 and the flange 5 of the housing 1. At the same time, the fluid flows between the V-shaped elements 10 forming the nozzles 12, forming a system of fan flat jets. Gas captured by kinetic liquid jets

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flows from the atmosphere through the air inlet pipe 8, through the openings 4 in the lid 3, into the mixing chambers 11 formed by U-shaped elements 9. As a result, radial gas is ejected by the outgoing flat jets of liquid into the surrounding jet aerator liquid and dispersed as bubbles.

The design of the jet aerator uses a number of radially arranged parallel ejectors using a toner of 5-8 mm.

liquid jets allowing finely dispersed gas due to pulsations of the wave boundary layer.

The jet aerator allows for an optimal combination of structural elements with the same expended energy to obtain a 2-3 times larger contact surface of liquid and gas by increasing the total perimeter of

liquid jets with a high compactness of the device, which provides additional intensification of mass transfer,

Invention Formula

1. The jet aerator, comprising a housing with a chamber and radial ejector devices, liquid and gas supply nozzles, is distinguished by the fact that, in order to intensify the mass transfer process, due to the increase of the contact surface of the gas and liquid

The walls are made with shaped UH and VH-shaped elements MeHTaNM1,1, located along the periphery of the casing and forming jet-forming nozzles and mixing chambers by adjacent walls, have holes in the casing connecting the supply nozzle with the nozzles.

2. Aerator, I distinguish y and y with the fact that the height of the U-framing elements is greater than the height of the Y-shaped elements.

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Claims (2)

Claim 1. A jet aerator comprising a housing with a chamber and radial ejector devices, nozzles for supplying liquid and gas, characterized in that, in order to intensify the mass transfer process by increasing the contact surface of gas and liquid, the ejector devices are made with profiled U- and V-shaped elements located on the periphery of the casing and forming adjacent nozzle and mixing chamber walls adjacent to the walls, holes are made in the casing connecting the supply pipe to the nozzles, 2. The aerator, distinguishes u and j in that the height of the U-shaped elements is greater than the height of the V-shaped elements. 1 381079