CS272568B1 - Liquid gasification device - Google Patents

Abstract

■The solution relates to water treatment, in particular wastewater treatment using aeration. The arrangement of the gas inlet (124) and the nozzle (2) for the liquid inflow is such that the pressurized gas is fed directly to the point of liquid jetting and the entire circumference of the liquid jet flowing out of the nozzle (2) is used for mixing. The device consists of two parts, the easy disassembly of which allows cleaning of the internal parts of the device, including the gas gap (14).

Description

The invention relates to a device for gasifying liquids, in particular for saturating water with air.

Currently, several types of equipment are used to gasify liquids. Chambers are commonly known in which a liquid which is supplied under pressure by a nozzle sucks gas from inlets usually located in the center of the chamber. This device is energetically disadvantageous because the turbulent flow of the liquid with a sufficiently large difference in velocity gradients at the interface, which allows intensive dissolution of the gases, is not achieved in a larger part of the chamber at a lower liquid pressure. Injectors are also known, into which the gas is supplied under pressure and the dissolution of which is more perfect. The disadvantage is the imperfect mixing of gas and liquid. The gas pushed into the injector is not sucked in by the water and flows out of the main stream of liquid. This also reduces the efficiency of the gasification.

The object of the invention is to provide a device which, while maintaining a low energy consumption, allows a better mixing of the gas with the liquid and a suitable turbulent flow in the largest possible volume of the mixing chamber.

This object is essentially fulfilled by the invention, which is a device for gasifying liquids with a hollow body with a side inlet, a gas and a liquid nozzle, the essence of which consists in that the body cavity is divided by means of an internal control shoulder with an inner circumferential surface to the mixing space and the gas space with the gas supply, wherein in the gas space the liquid nozzle is slidably mounted with its flange so that the nozzle outlet plane intersects the inner circumferential surface of the control shoulder, a slit being formed between the nozzle surface and the inner circumferential surface of the control shoulder.

A higher effect of the invention is a better mixing of the gas with the liquid, in a sufficiently large space, without the need to increase the energy input. The pressurized gas is fed directly to the liquid jet and the entire circumference of the liquid jet flowing out of the nozzle is used for mixing. The advantage is also the possibility of setting the size of the gas gap, which can change the parameters of the injector. The design of the device allows easy disassembly and cleaning of the internal parts of the injector, including the gas gap.

An example of a specific embodiment of the device according to the invention is schematically shown in section in the drawing.

The device according to the invention is formed by a hollow body 6 and a liquid nozzle 2. The cavity of the body 6 is divided by an internal control shoulder 13, the inner circumferential surface 131 of which has the shape of a truncated cone shell, into a mixing space 11 and a gas space 12 whose shell 121 is internally threaded. 123 and a nozzle-shaped gas supply 124. The liquid nozzle 6 provided with the flange 21 with the external thread 211 is screwed into the internal thread 123 of the housing 121 of the gas space 12 so that the outlet plane 22 of the nozzle 6 intersects the inner peripheral surface 131 of the control shoulder £ 3, the front surface 212 of the flange 21 closing the gas space. 12 and forms an annular chamber 122 around the nozzle 2, which is connected to the mixing space 11 by means of a slit 14 formed between the nozzle 2 and the inner peripheral surface 131 of the control shoulder 13. The parameters of the slit 14 can be varied according to

After the body 6 and the nozzle 2 have been screwed together, a pressurized liquid is supplied to the nozzle 6 by a pump (not shown). At the same time, a gas is injected under pressure through the inlet 124, which is dispersed in the chamber 122 around the nozzle 2 and exits through the slit 14 into the mixing space 11, where it mixes with the jetting liquid. The resulting mixture of both media comes from the device for further use.

CS 272 568 B1 '

A specific example of the use of the invention is the fitting of an activation tank for biological wastewater treatment with four pieces of equipment according to the invention. The activating mixture was pumped into the nozzles at a rate of 50 liters per second, and 55 liters of air per second were supplied to the gas inlets from the blower. The jet of aerated activation mixture was directed obliquely to the bottom of the activation tank. Thus, perfect aeration of the mixture was achieved, with an oxygen supply efficiency of 1.5 kg oxygen / kWh.

The device according to the invention can be used in particular for aeration in biological wastewater treatment, including installation in activation tanks of the circulating type.

Claims (1)

Device for gasifying liquids, consisting of a hollow body with a side gas supply and a liquid nozzle, characterized in that the cavity of the body (1) is divided into a mixing space by means of an internal control shoulder (13) with an inner circumferential surface (131) in the shape of a truncated cone shell. (11) and a gas space (12) with a gas supply (124), wherein the liquid nozzle (2) in the gas space (12) is slidably mounted by its flange (21) and the outlet plane (22) of the liquid nozzle (2) intersects the inner circumferential the surface (131) of the control shoulder (13).