RU2080306C1 - Ozonizing plant - Google Patents

Abstract

FIELD: production and usage of ozone. SUBSTANCE: in proposed ozonizing plant pumping aggregate is manufactured in the form of pressure pump, injector and separator connected in series. Gas space of separator is connected to mixing chamber through unit for air preparation and to ozonizer and water space - by pipe-line. Blower is installed at inlet of injector to correct insufficient injection of air. Source of liquid is joined to separator by means of pipe-line. Ozone and air mixture after ozonizer and liquid after separator are fed into injector which is connected to separator. EFFECT: enhanced productivity of ozonizing plant. 3 cl, 1 dwg

Description

 The invention relates to the chemical industry in the treatment of industrial or domestic wastewater and can be used to produce ozone.

 There are a number of devices for treating contaminated liquids.

Known high-frequency ozonation installation for water treatment, containing an air preparation device, an ozonizer, measuring instruments, valves and a mixing chamber [1]
The disadvantages of the known high-frequency ozonation installation are the lack of reliability, the complexity of the maintenance, the need for air purification before and after the compressor, the increased energy consumption of the whole ozonation installation, the need for disposal and replacement of filter elements. It also does not allow you to adjust the ratio of the ozone-air mixture and the processed fluid.

 The aim of the invention is the creation of an ozonizer installation, devoid of these disadvantages due to the improvement of the discharge unit.

 This goal is achieved in that the discharge unit is made in the form of a pressure pump, injector and separator connected in series, the gas cavity of the separator connected to the ozonizer through an air preparation unit and then to the mixing chamber, and the liquid cavity is connected by a pipeline to the said mixing chamber. At the inlet of the injector, if necessary, a blower is installed, as well as the liquid cavity of the separator is connected by a pipe to the inlet source of liquid.

 The set of essential features of the proposed ozonator installation exhibits other properties in comparison with the known solutions, namely, that due to the improvement of the ozonator installation scheme and the use of a pressure liquid pump with an injector and a separator, the compressor is eliminated, which allows to simplify the ozonator installation, reduce overall energy consumption, expand the possibility of using an ozonizer in the treatment of industrial waste water, drinking water and in other sectors of the economy.

 Thus, the proposed technical solution meets the criterion of "inventive step".

 The drawing shows the proposed ozonation installation.

 The ozonizer installation comprises a pressure pump 1, an injector 2, a separator 3, an air preparation unit 4, an ozonizer 5, a mixing chamber 6, a blower 7, a pipe 8, a liquid source 9, a pipe 10, an injector 11, a separator 12.

 The pressure pump 1 is connected in series with the injector 2, the separator 3, the air cavity of the separator 3 with the air preparation unit 4 and further with the ozonizer 5 and the mixing chamber 6. With insufficient injection, an air blower 7 is installed at the inlet of the injector 2, the separator 3 is connected by a pipe 8 to the source liquid 9, and a pipeline 10 with a mixing chamber 6. Or an ozone-air mixture and liquid with cavities of the injector 11 and further with a separator 12.

 Under operating conditions, the liquid to be treated with ozone enters the pressure pump 1 from the liquid source 9 and, under a certain pressure and flow rate, enters the injector 2, where, due to the liquid velocity, the pressure in the critical part of the injector 2 decreases below atmospheric and air is sucked in. In case of insufficient air injection, an air blower 7 is installed at the inlet to the injector 2 and, under a certain pressure, the liquid-gas mixture is supplied to the separator 3, where the air is cleaned of dust, oil and the liquid and gas are separated. Gas under pressure from the separator 3 enters the air preparation unit 4 and then into the ozonizer 5, after the ozonizer 5, the ozone-air mixture enters the spray device of the mixing chamber 6, and the liquid under pressure through the pipe 10 from the separator 3 into the cavity of the mixing chamber 6 or through the pipe 8 to a liquid source 9, depending on the process. From the mixing chamber 6, the ozone-treated water goes to the consumer, and the air from the air cavity into the atmosphere, or the ozone-treated liquid under pressure from the separator 3 and the ozone-air mixture from the ozonizer 5 enter the injector 11 and then the liquid-gas medium enters the separator 12, where separation of liquid and gas. The liquid treated with ozone, under pressure, enters the consumer, and the exhaust gas into the atmosphere.

 The use of an ozonizer installation can significantly reduce energy consumption, reduce the complexity of servicing the ozonizer installation, simplify it, eliminate filter change and disposal, expand its field of application, and also allow you to adjust the ratio of the ozone-air mixture and the processed liquid in a wide range depending on its pollution through use new environmentally friendly pumping unit.

Claims (3)

 1. An ozonizer installation comprising an air preparation unit, a mixing chamber, an ozonizer, a pumping unit, pipelines, measuring instruments, control elements, characterized in that the pumping unit is made in the form of a pressure pump, injector and separator connected in series with each other, the gas cavity of which connected to the mixing chamber through the air preparation unit and an ozonizer, and the liquid cavity is connected by a pipe to the mixing chamber.  2. Installation according to claim 1, characterized in that it is equipped with a blower installed at the inlet of the injector.  3. Installation according to claim 1, characterized in that the liquid cavity of the separator is connected by a pipe to a source of liquid.