UA150364U - METHOD OF PRESSURE WATER AERATION FOR OXIDATION OF WATER-SOLUBLE IRON TO TRIVALENT STATE (Fe<sup>3+) - Google Patents

Abstract

A method of pressure water aeration for oxidation of water-soluble iron to trivalent state (Fe3+) involves aerating said iron with air at atmospheric pressure, treatment in a contact container and filtration. The water is aerated in an adjustable air injector, and the water-air mixture is treated using a heterogeneous oxidation process of Fe2+ ions at the boundary of the phase separation "water-air" under pressure by counter-current spraying with an active contact of jets in the upper air part of the contact container with further filtration in a recirculating gravel filter and a fine filter.

Description

The useful model belongs to the field of water treatment, namely to methods of water purification by oxidizing iron dissolved in water to the trivalent state (Rez) and using it for drinking and household consumption.

Known and used in practice, methods and devices of water aeration for the purpose of oxidizing divalent iron to trivalent iron provide an acceptable result, however, they have a number of significant drawbacks that reduce the efficiency of the process.

The use of open tanks as sedimentation tanks involves the large dimensions of the tank and the use of a pump at the outlet to create the necessary pressure in the pipeline. In addition, the solubility of air in water at atmospheric pressure is relatively low, and the passage of air in relatively calm water does not cover the entire volume of water contained in the container.

During pressure aeration by supplying air compressed by a compressor into the main line at the entrance to the aeration column, the solubility of air is much higher and the process proceeds practically in the entire volume, however, the oxidation reaction time is too short for the full use of air, a large part of which, without having time to react, is thrown back into the atmosphere And the use of the compressor leads to additional energy consumption.

Continuation of the reaction directly in the contact tank occurs already with less efficiency, becoming similar to an open tank, although with a greater solubility of air at increased pressure, in addition, the capacity of the contact tank is relatively small and water together with underoxidized iron leaves the contact tank.

A known method of purifying underground water from iron is based on purifying water by passing it through a sprayer on a nozzle, contacting it with a water-air mixture, which is supplied countercurrently by a circulation pump through an ejector, and blowing gases dissolved in the source water with air while saturating it with oxygen (Patent KO Mo 2181109. A method of purifying underground water from iron. IPC СО2Е 1/64; СО2Е 103/06. 2002, Bull. Mo 101.

The disadvantages of this method are the low speed of the iron oxidation process in the nozzle due to uneven air flow from the ejector and the need to use an additional water tank. The method allows you to completely purify water from iron at low concentrations of the latter. With a high iron content, the ejector used in the installation does not allow to saturate the water with the necessary amount of air for complete iron oxidation. AND

The use of a circulation pump leads to additional energy consumption.

A known method of pressure aeration of water for oxidation of iron dissolved in water to the trivalent state (Without), which includes the supply of a jet of air into the liquid layer and its dispersion, carried out by covering it from above and below with flooded jets of liquid, directed towards each other, coaxially, and directing many dispersed jets of air towards the flow of water spreading from the center of the chamber, after which the water flow, mixed with air, is directed into the reactor (Patent KI Mo 2748154. The method of pressurized water aeration for the oxidation of iron dissolved in water to the trivalent state (Rez) and the device for ego realization. IPC СО2Е 1/64; СО2Е 1/74. 2021, Byul. Mo 14).

The known method has a very complex and expensive design, requires the use of a compressor, which increases the energy consumption of the process.

In a known method, pressure aeration of water is carried out by feeding a jet of air into the liquid layer and dispersing it, by covering it from above and below with flooded jets of liquid, the jets of water are directed towards each other, co-axially. However, as is known, submerged jets of liquid break up less intensively than in open air space. Therefore, the intensity of pressure aeration of water, and therefore the oxidation of iron dissolved in water to the trivalent state, can be achieved not by breaking the air flow into small bubbles in the water, but by breaking the water into small droplets in the air space at a certain pressure.

A known method for cleaning and clarifying water, selected as a prototype, including its aeration with air at atmospheric pressure, treatment in a contact tank and filtration

IPatent KO Mo 2151744. Installation for cleaning and brightening the driver. IPC СО2Е 1/52; CO2E 9/00. 2000, Bull. Mo 181.

The method allows you to completely purify water from iron at low concentrations of the latter. With an increased iron content, the aerator used in the method does not allow to saturate the water with the necessary amount of air for complete oxidation of iron. In addition, the installation used in the known method has large volumes of devices with low productivity and low aeration efficiency, which reduces the rate of oxidation of iron dissolved in water to the trivalent state.

It is known that the process of dissolving air in water is subject to Henry's law, which states: "At a constant temperature, the solubility of a gas in a given liquid is directly proportional to the pressure of this gas above the solution." It has been proven that the volume of air dissolved in water at 25 "C increases twice when the pressure is increased to two atmospheres from 0.023 to 0.045 g/kg.

It has been proven that the oxidation of ferrous ions occurs not only in the volume of the liquid phase due to the oxygen dissolved in it, but also at the boundary of the "water-air" phase separation, therefore, the speed of the process depends, among other things, on the size of this surface (Abstract Ph.D. thesis

Intensification of the aeration process when iron ions are removed from water. M., 2016. September 16.

Therefore, the main and indispensable condition for high-quality and complete oxidation of iron dissolved in water to the trivalent state is the maximally increased surface of water droplets when in contact with air, which can be achieved by maximally crushing water into the smallest droplets and dissolving oxygen in them under pressure at the "water" phase interface -air".

The basis of a useful model is the task of creating a method of pressure aeration of water for oxidation of iron dissolved in water to the trivalent state (Without, which allows to intensify the process of oxidation of iron to the trivalent state, increase its productivity, reliability and simplify the process control scheme.

The problem is solved by the fact that the method of pressure aeration of water for oxidation of iron dissolved in water to the trivalent state (Without) includes its aeration with air at atmospheric pressure, treatment in a contact tank and filtration. Aeration of water is carried out in a regulated air injector, and treatment of the water-air mixture is carried out using a heterogeneous process of oxidation of Ge ions at the boundary of the "water-air" phase separation under pressure by countercurrent spraying with active contact of the jets in the upper air part of the contact tank with subsequent filtration in a recirculation gravel filter and a fine cleaning filter.

Such a combination of essential features such as water aeration in a regulated air injector allows you to adjust the amount of air intake depending on the water supply, thereby increasing the speed of the homogeneous process of oxidation of Be ions? oxygen dissolved in water. And the processing of the water-air mixture under pressure by its countercurrent spraying with active contact of the jets in the upper air part of the contact tank allows to increase the speed of the heterogeneous process of oxidation of Be ions at the boundary of the "water-air" phase separation.

The set of joint application of the homogeneous process of oxidation of He ions dissolved in water

With oxygen and the heterogeneous process of oxidation of Re ions at the boundary of the water-air phase separation, it ensures the intensification of iron oxidation processes, increasing productivity and reducing energy consumption.

The essence of the useful model is explained by the drawing - a diagram of the installation for the implementation of the proposed method.

The method is carried out as follows. The output water through the pre-cleaning filter 1 is fed into the adjustable air injector 2, in which rarefaction occurs due to the high speed and, as a result, the water flow is saturated with air. The air injector 2 is equipped with an adjustable bypass to ensure the specified performance and the required ratio of the water-air mixture at the outlet, thereby increasing the rate of the homogeneous oxidation of Re" ions by oxygen dissolved in water. After the injector, the water-air mixture enters the contact tank 3, where it is processed using a heterogeneous process of oxidation of He ions?" at the boundary of the water-air phase separation under pressure in the countercurrent atomizer 4 with active contact of the jets 5 in the upper air part of the contact tank 3. When the water-air jets meet, they break into small drops and intensive dissolution (absorption) of air occurs in the created turbulent flow in water to the maximum possible concentration at a given pressure, formed in the upper air part of the contact tank 3.

When a gas is absorbed by a liquid, the basic mass transfer equation is known:

MAK-E-AS, where M is the mass of gas (air) absorbed by liquid (water) per unit of time, kg/h;

K - absorption coefficient, m/h;

E - surface area of phase contact, m3;

DS is the driving force of the absorption process, which is expressed by the difference in the concentration of gas (air) in the liquid when it is completely saturated, and the current value, kg/m" and according to Henry's law, is directly proportional to the pressure of this gas (air) over the liquid (water).

It follows from the equation that at a constant K, the amount of dissolved air per unit of time is directly proportional to the size of the contact surface of the phases (the total surface of the water droplets) and the air pressure in the upper air part of the contact tank 3.

Thus, the combination of a homogeneous (in a regulated air injector) and a heterogeneous (in a countercurrent atomizer) oxidation process of Be ions allows to increase the intensification of the oxidation processes of iron dissolved in water to the trivalent state (Bez).

Next, in the lower part of the contact tank C, the final process of oxidation of iron dissolved in water to the trivalent state (Without) takes place. From the contact tank C, water enters for filtration in the recirculation gravel filter 6 and filter 7 of fine cleaning.

Purified water from filter 7 reaches the consumer.

The test results of the method of pressure aeration of water for oxidation of iron dissolved in water to the trivalent state (Rez) and its comparison with the analogue are presented in Table 1.

Table 1 . . Standard, Proposed

Indicator, units of measurement ! and Analogue is nothing more than a method

Total iron (He), mg/dm

The method of pressure aeration of water for the oxidation of iron dissolved in water to the trivalent state (Rez) is simple to perform and effective and can be applied both in domestic and industrial water purification installations.

Application of the method provides intensification of iron oxidation processes, increase in productivity and reduction of energy consumption for water purification.

Claims (1)

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