RU2333158C1 - Method of oil containing sewage waters treatment - Google Patents

Abstract

FIELD: technological processes; chemistry.

SUBSTANCE: method includes mixing of oil containing sewage waters with magnet liquid that contains hydrocarbon fraction with stabilised magnet particles, and mixture separation. Process of mixing is carried out with ratio of magnet liquid: oil product contained in sewage waters, equal to (0.0005-0.001):1. Separation of prepared mixture into purified water and mixture that contains magnet liquid and magnetised oil products is carried out in magnet separator with intensity of magnet field of 9-14 kA/m. Besides, mixing is carried out for 20-25 minutes.

EFFECT: improvement of oil containing sewage waters purification; increase of oil products extraction extent and improvement of environmental situation.

2 cl, 3 dwg, 1 tbl

Description

The invention relates to the field of environmental protection, namely to processes for the purification of oily wastewater, and can be used for deep wastewater treatment to the requirements of MPC.

A known method of wastewater treatment from emulsified oils, which consists in treating wastewater with a mixture of salts of ferric chloride (III) and ferrous sulfate (II), followed by phase separation, and a mixture of solutions of ferric chloride (III) and ferrous sulfate (II) is pre-magnetized on magnetic device up to 25 A / m (patent No. 2232134). This method does not provide a sufficiently effective wastewater treatment, in addition, it involves significant costs for reagents.

There is also known a method of wastewater treatment from petroleum products, according to which water is passed through a device with pairwise mounted permanent magnets, providing consistent action of opposite poles on water at a magnetic induction level in the gap of 0.32-0.82 T, then filtered through several layers of basalt fiber alternating with layers of adsorbent - highly active alumina (patent No. 2164466). The disadvantage of this method is the insufficient degree of purification of water from petroleum products, requiring an increase in the number of purification steps. In addition, the use of the sorbent has a limited service life. Utilization of the oil product collected by the sorbent by burning leads to the release of particularly toxic substances into the atmosphere.

Closest to the claimed is a method of separating a water-oil emulsion (patent No. 2286195), comprising heating the emulsion and mixing with a hydrocarbon containing stabilized magnetic particles, after which the mixture is separated into an aqueous phase and a hydrocarbon one.

The disadvantage of this method is the use of benzene and toluene as a hydrocarbon, which are known to have toxic properties, worsen the environmental situation and are prohibited when used in an industrial environment. In addition, the use of a large dilution with hydrocarbon fractions leads to the unjustified release of a significant amount of liquid containing harmful substances, provides an insufficient degree of extraction of the product.

The objective of the invention is to develop an environmentally friendly method of purification of oily wastewater with any concentration of petroleum products.

The technical result provided by the invention is to improve the purification of oily wastewater, increasing the degree of extraction of petroleum products, improving the environmental situation

This is achieved by the fact that in the method of purification of oily wastewater, comprising mixing the oily wastewater with a magnetic fluid containing a hydrocarbon fraction with stabilized magnetic particles, and separating the mixture, the mixing process is carried out at a ratio of magnetic fluid: oil contained in wastewater equal to ( 0.0005-0.001): 1, the separation of the resulting mixture is carried out on a magnetic separator with a magnetic field of 9-14 kA / m into purified water and a mixture comprising magnetic fluid and omag ichennye oil. In addition, mixing is carried out for 20-25 minutes.

In the process of wastewater treatment from oil products by the proposed method, the force interaction of a uniform magnetic field and a magnetic fluid is used, which has high stability and good saturation magnetization, which made it possible to use it for water treatment. Magnetic liquid is added to contaminated water, the basis of which is related to pollution (kerosene base). After intensive mixing of the mixture, droplets of the magnetic fluid dissolve in the oil pollution, which become weakly magnetic. The resulting emulsion is passed through a region of a uniform magnetic field, which intensifies the process of displacement of magnetized petroleum products, and magnetic droplets are removed, thereby reducing the content of petroleum products in water and improving the quality of cleaning the mixture. The saturation magnetization of magnetized petroleum products is 3-5 kA / m.

During the tests, the ratio of magnetic fluid: oil product contained in wastewater was determined as (0.0005-0.001): 1. With a significant amount of magnetic fluid, petroleum products are extracted inefficiently, regardless of the time of contact with the magnetic fluid. In addition, a sufficiently strong interaction of the magnetic fluid and the oil leads to the loss and overspending of the magnetic fluid. With a smaller ratio, on the contrary, there is not enough attraction between the particles, which leads to incomplete extraction of oil from wastewater.

The experimentally established dependence of the content of petroleum products in the treated water on the time of interaction with the magnetic fluid (figure 1), where 1 is the ratio of the number of petroleum products in wastewater and magnetic fluid, equal to 1: 0.001; 2 - the ratio of the amount of oil in wastewater and magnetic fluid, equal to 1: 0,0005. It can be seen from the graph that the process proceeds most effectively for the first 20-25 minutes, and a further increase in contact time during mixing does not significantly affect the degree of hydrocarbon recovery.

The conducted studies determined the dependence of the concentration of petroleum products in wastewater on the magnetic field strength of the magnetic separator and made it possible to establish a range of magnitudes of the magnetic field strength ensuring the achievement of a residual concentration of petroleum products of 0.1 mg / dm ³ . Figure 2 shows the dependence of the content of petroleum products (C) in (with a ratio of magnetic fluid: petroleum product equal to 0.001: 1) on the magnitude of the magnetic field (N). The oil content was determined on a Specord M-80 IR spectrophotometer. The experimental results showed that the field strength should be maintained in the range of 9-14 kA / m.

Figure 3 presents a diagram of a laboratory installation for the purification of water from petroleum products using magnetic fluid. The proposed installation consists of a container 1 for magnetic fluid, a container 2 for water contaminated with oil, dispensers 3, a mixer 4, a magnetic separator 5, including an electromagnet with a glass tube and a rectifier, a receiver 6 for purified water and a receiver 7 for recovered sediment.

Installation works as follows. The contaminated water after analysis of the oil content from the tank 2 through the dispenser 3 enters the mixer 4. The same from the tank 1 by the dispenser 3 through a special spraying device is supplied with the magnetic fluid in the required quantity depending on its magnetic characteristics. After vigorous stirring through a glass tube, water along with the magnetic fluid passes through the electromagnet of the magnetic separator 5. The purified water enters the collector for clean water 6, and the precipitate, which is a mixture of magnetic fluid and magnetized petroleum products, enters the product collector 7.

The effectiveness of the proposed method is illustrated by the following examples.

Examples of specific performance (results are presented in the table)

Example 1. Polluted water (initial concentration of oil is 50 mg / DM ³ ) through the dispenser enters the mixer. Magnetic liquid with high magnetic characteristics (volume fraction of magnetite more than 5%) with the ratio of oil product: magnetic liquid as 1: 0.0005 is supplied here from a batcher through a special spraying device. Mix thoroughly for 20 minutes, after which the mixture is passed through an electromagnet of a magnetic separator with a magnetic field of 9 kA / m. The purified water enters the collection tank for clean water, and the sediment, which is a mixture of magnetic fluid and magnetized petroleum products, enters the product collection. As a result, the content of oil products in wastewater decreased to 0.1 mg / dm ³ , which corresponds to the MPC.

The loss of magnetic fluid in the treatment of oily wastewater is from 3 to 6%. The saturation magnetization during repeated use of magnetic fluid decreases after five times use for the treatment of oily wastewater. However, it can be brought to its original level by adding magnetite. The cleaning depth can be increased by increasing the magnetic field strength.

Example 2. The process proceeds similarly. Moreover, a magnetic fluid with high magnetic characteristics (volume fraction of magnetite more than 5%) is supplied in the ratio of magnetic fluid: oil contained in wastewater, as 0.0005: 1. Mixing time 20 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 11 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Example 3. The process proceeds similarly. Moreover, a magnetic fluid with high magnetic characteristics (volume fraction of magnetite more than 5%) is supplied in the ratio of magnetic fluid: oil contained in wastewater, as 0.0005: 1. Mixing time 25 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 14 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Example 4. The process proceeds similarly. Moreover, a magnetic fluid with average magnetic characteristics (volume fraction of magnetite 3.6-5%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.0007: 1. Mixing time 20 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 9 kA / m. At the same time, the content of petroleum products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond waters.

Example 5. The process proceeds similarly. Moreover, a magnetic fluid with average magnetic characteristics (volume fraction of magnetite 3.6-5%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.0007: 1. Mixing time 22 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 11 kA / m. At the same time, the content of petroleum products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond waters.

Example 6. The process proceeds similarly. Moreover, a magnetic fluid with average magnetic characteristics (volume fraction of magnetite 3.6-5%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.0007: 1. Mixing time 25 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 14 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Example 7. The process proceeds similarly. Moreover, a magnetic fluid with low magnetic characteristics (volume fraction of magnetite less than 3.6%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.001: 1. Mixing time 20 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 9 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Example 8. The process proceeds similarly. Moreover, a magnetic fluid with low magnetic characteristics (volume fraction of magnetite less than 3.6%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.001: 1. Mixing time 22 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 11 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Example 9. The process proceeds similarly. Moreover, a magnetic fluid with low magnetic characteristics (volume fraction of magnetite less than 3.6%) is supplied with a ratio of magnetic fluid: oil contained in wastewater as 0.001: 1. Mixing time 25 min. The separation of the mixture is carried out on a magnetic separator with a magnetic field of 14 kA / m. At the same time, the content of oil products decreases to 0.05 mg / dm ³ , which corresponds to the MPC standards for discharge into pond water.

Table. The method performed according to example The ratio of magnetic fluid and oil Mixing time, min Magnetic field strength, kA / m The residual concentration of oil in water,% one 2 3 four 5 Example 1 0,0005: 1 twenty 9 0.1 Example 2 0,0005: 1 22 eleven 0.05 Example 3 0,0005: 1 25 fourteen 0.05 Example 4 0,0007: 1 twenty 9 0.05 Example 5 0,0007: 1 22 eleven 0.05 Example 6 0,0007: 1 25 fourteen 0.05 Example 7 0.001: 1 twenty 9 0.05 Example 8 0.001: 1 23 eleven 0.05 Example 9 0.001: 1 25 fourteen 0.05

According to the method claimed in the prototype, the residual concentration of oil in water, according to research, is at least 0.7% with a large consumption of magnetic fluid.

Studies conducted on the purification of oil-contaminated water, performed at various concentrations of the initial contaminants and at different magnetic fluid flow rates, showed that the proposed method for purifying oil-containing wastewater can reduce the oil content of less than 0.1 mg / dm ³ , which meets the MPC requirements for any pollution, thereby improving the environmental situation.

Claims (2)

1. The method of purification of oily wastewater, comprising mixing oily wastewater with a magnetic fluid containing a hydrocarbon fraction with stabilized magnetic particles, and separating the mixture, characterized in that the mixing process is carried out at a ratio of magnetic fluid: oil contained in wastewater equal to ( 0.0005-0.001): 1, and the mixture is separated on a magnetic separator with a magnetic field of 9-14 kA / m into purified water and a mixture comprising magnetic fluid and magnetized oil products. 2. The method of purification of oily wastewater according to claim 1, characterized in that the mixing is carried out for 20-25 minutes

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