SU1084041A1 - Apparatus for treatment of gas-saturated liquid - Google Patents

Abstract

A DEVICE FOR TREATING A GAS-CONTAINED LIQUID, including a conical nozzle, provided with a cylindrical nozzle, characterized in that, in order to simplify the design, increase productivity and increase efficiency, it is equipped with additional cone nozzles with nozzles and a cylinder, while friend and placed in a cylinder. (O 00 4: i

Description

The invention relates to devices for treating gaesaturated 'liquid and can be used in the energy industry for decarbonization of water and burning liquid fuel, in water supply during removal of ferrous iron from groundwater, in the oxidation of wastewater, in the chemical industry for gas desorption.

Closest to the invention 10 in technical essence and the achieved result is a device for the treatment of gas-rich liquid, including a conical nozzle equipped with a cylindrical nozzle [1J. 15 However, the known device is characterized by significant pressure in front of the nozzle, low productivity, design complexity and insufficient work efficiency 20 due to the multi-stage nozzle.

The purpose of the invention · is to simplify the design, increase productivity and operational efficiency.

This goal is achieved in that the device for processing a gas-saturated liquid, including a conical nozzle with a cylindrical nozzle, is equipped with additional nozzles with nozzles and a cylinder, while the nozzles are interconnected with each other and placed in the cylinder.

1 shows an apparatus for processing gazonasitsennoy zhidkoe- ^'35 minute; figure 2 is a section aa in figure 1.

The device contains conical nozzles 1, cylindrical nozzles 2 fixed to the nozzles 2, cylinder 3, into which nozzles with nozzles are placed.

The device operates as follows.

The fluid enters the nozzle 1, then into the cylindrical nozzles 2. The moving jet forms annular vacuum zones in each nozzle 2. Upon leaving nozzles 2, four water-air flows form a single annular vacuum zone in cylinder 3. In a four-nozzle head, the diameter of moving jets of liquid decreases by 2 times compared with a single-nozzle, therefore, the contact surface of jets of liquid with the environment is 2 times, decreases by 4 times the amount of moving water in the stream and the area of the stream. To destroy a jet of smaller diameter, less pressure is required. Under equal conditions, get a deep vacuum, i.e. it is more difficult to destroy a single-nozzle stream of liquid than a four-nozzle one. In addition, in the four-nozzle head, the jets move relative to one another, which accelerates their mutual destruction and obtaining a deep vacuum with a smaller length of the vacuum chamber. *

Moving jets passing nozzle 2 and cylinder 3 are constantly in the zone of deep vacuum, which contributes to the continuous process of volume boiling in a gas-filled liquid. And this, in turn, leads to an instant destruction of the integrity of the jet and the incineration of gases dissolved in it.

The proposed device has the following advantages over the known; increasing labor productivity and work efficiency, improving the adsorption-desorption process, reducing pressure, simplicity of design.

Aa

fig 2

VNIIIPI Order 1855/6

Circulation 682 Subscription

ShSh ’’ branch Patent, * 4 Uzhhorod, st. Project, 4

Claims (1)

DEVICE FOR PROCESSING A GAS-SATURATED LIQUID, including a conical nozzle equipped with a cylindrical nozzle, characterized in that, in order to simplify the design, increase productivity and increase efficiency, it is equipped with additional conical nozzles with nozzles and a cylinder, while the nozzles are interconnected with each other and placed in the cylinder. / II I m Η-Ή-Ι I I /. 1 .1084041 2