UA65763A - A method for the purification of effluent water - Google Patents

Abstract

A method for the purification of effluent water, mainly from organic impurities involves the treatment with the coal simultaneously with the ultrasonic treatment.

Description

The invention relates to the field of water treatment, wastewater, in particular, to the purification of organic and mineral pollutants and can be used to protect the environment from pollution of various nature at industrial enterprises, sludge storage ponds, settling tanks and other hydrotechnical structures.

A known method of wastewater treatment from emulsified petroleum products (RF patent Me2047566, class СО2Е1/36), (1).

The method includes liquid treatment by ultrasonic cavitation with a frequency of 8-500 kHz at an intensity of 2.0 W/cm".

The physical essence of the known method consists in the destruction of hydrocarbons (petroleum products) located near pulsating cavitation voids to the final oxidation products - carbon dioxide and water.

The main drawback of the known method is the low degree of purification of waste from oil products, which is due to the fact that cavitation treatment is not performed on the entire volume of liquid, but only on a close part, which is near cavitation formations.

A known method of cleaning and disinfection of aquatic environments by means of preliminary ultrasonic treatment (UZ3 treatment) followed by ultraviolet irradiation (UV irradiation) (patent of the Russian Federation Mo2092448, class b

СО2Р 50, 1/32/, op. 10.10.1997, 1, (2). Ultrasonic treatment of the water medium is carried out with a frequency greater than 25.0 kHz and a power density within 0.05-1.0 W/cm7, and for UV irradiation, a pulsed source with continuous spectrum radiation in the range of 190-300 nm is used with a pulse duration of 1079- 2107 s and the pulse radiation power density in any cross-section of the volume of the treated medium is at least 20 kW/m, or a discharge source of continuous action in the 190-300 nm range with the radiation power density in any cross-section of the volume of the treated medium at least 50 W/m?. After UV radiation, aqueous media are filtered.

As can be seen from the technical essence of the method, it allows effective cleaning of effluents contaminated only by easily oxidizable fractions, which is its main drawback.

The closest analog to the invention in terms of technical essence and the result achieved is the method of deep cleaning of liquid from petroleum products (patent of the Russian Federation Mo2078048, Cl.b6 СО2Р/28, op. 27.04.1997), (3). The essence of the method is as follows. A 5-2095 aqueous suspension of activated carbon is pre-prepared, which is then exposed

Ultrasound treatments in the mode of ultrasonic cavitation. The suspension of activated carbon obtained in this way is mixed with the polluted runoff and then directed to the floater, where the fugitive is separated from the purified water. The method makes it possible to achieve a depth of liquid purification from petroleum products equal to 0.65-0.08 mg/dmu.

We investigated the possibility of using the specified method of cleaning wastewater from pollutants of different chemical nature using the example of wastewater from a sludge-accumulator village. Pirogov Wastewater from the sludge storage tank has the following physical and chemical parameters: - Bichromate oxidizability, which characterizes the content of organic and inorganic substances dissolved in water -

COD, mg O/dm3u, (chemical absorption of oxygen), is 2500-3000mg b/dm3, (Y. Yu. Lurie. Unified method of water analysis, M., "Khimiya", 1972, p. 261- 263), (4). - The coefficient of light transmission (А.95), which characterizes the degree of water transparency. It is determined on the device

KFK-2 (photoelectric concentration colorimeter), value A is determined by the content of various colored and colloidal organic and mineral substances (4), p. 235-236).

It was determined that during the purification of the specified wastewater by the known method (3), by sorption of pollutants with the help of an aqueous suspension of activated carbon pretreated with ultrasound, the degree of purification reaches 50-55905 (according to the reduction of COD values), and the value of the light transmission coefficient (A, 95) was 50-6595.

As follows from the presented data, the main drawback of the known method of wastewater treatment (3) is a low degree of purification from dissolved and colloidal organic and mineral substances of various nature, which is characterized by low values of COD and light transmission coefficient (A, 9b).

The basis of the invention is the task of improving the method of wastewater treatment by changing the conditions of wastewater treatment with coal and ultrasound treatment, which would ensure the achievement of the necessary technical result - an increase in the degree of wastewater treatment from dissolved and colloidal organic and mineral substances.

To solve the problem, a method of wastewater treatment, mainly from organic pollutants, is proposed, which includes coal treatment, in which, according to the invention, wastewater treatment with coal is carried out simultaneously with ultrasonic treatment; moreover, natural low-grade coal is used as coal.

We have established that during the combined treatment of wastewater with ultrasound treatment and coal, optimal conditions for their purification are created, according to the applicant, due to the activation of the coal surface and ionization of molecules of substances (pollutants), which causes an increased level of interaction of the system components and, thereby, leads to a significant increase in the degree of purification from organic and inorganic pollution.

Thus, the claimed set of essential features of the claimed wastewater treatment method is necessary and sufficient to achieve the technical result provided by the invention - an increase in the degree of purification from dissolved and colloidal organic and mineral substances due to a decrease in COD values by 72-85.0905 and an increase in the light transmission coefficient to 75-90,095.

The method is implemented as follows. Wastewater from a sludge storage tank with the following physical and chemical parameters is treated: dichromate oxidizability (COD, mg O/dm3) - 2500-3000; coefficient of light transmission (А.95) - 6.0-8.0.

A certain amount of wastewater and coal in the amount of 2-10,095 of the mass of wastewater is loaded into the reactor-mixer.

As coal, activated coal (OU-B) /MRTU 6-09, Me1049-84/, as well as natural coal is used

Donetsk deposit, which is a mixture of fractions with a particle size of 0.5-1.0 mm. The carbon content of coal is 82.095, the ash content is 11.595. Stirring is carried out for 30-45.0 minutes. The slurry of wastewater and coal prepared in this way is poured into a container and treated with ultrasonic cavitation for 5.0-15.0 minutes. at a frequency of 22 kHz and power in the range of 5.0-9.0 W/cm? on the UZDN-1 device. Then the ultrasonic treatment device is turned off, and after cooling the system to 18-257"C, the purified water is separated from the sediment by filtration or centrifugation. The degree of wastewater treatment was characterized by the following indicators: 1. The degree of treatment from dissolved organic and mineral substances was determined by the reduction of COD values and calculated from the expression:

Sukhpyu3-(KPKvy-khHP KochshchukhHP Kvyh 1 o.o.,

where ЧПкКвых - the value of dichromate oxidizability of the initial effluents, mg b/dm3; COD - value of dichromate oxidizability of treated effluents, mg b/dm3. 2. The degree of purification from colloidal organic and mineral substances was assessed by the increase in the light transmission coefficient (A.9o), which is determined by the KFK-2 device.

Examples of implementation according to the invention,

Example 1.

Wastewater with indicators of bichromate oxidation (COD) -: 2500.0mg O/dm3 and light transmission coefficient (А.95) - 6.095 is subjected to treatment. Natural coal from the Donetsk deposit with a particle size of 0.5-1.0 mm is used as coal. 200.0 ml of wastewater and 10.0 g of natural coal (5.095 of the mass of wastewater) are loaded into a reactor-mixer with a stirrer, the mixer is turned on and mixed at a speed of 250 rpm. during ЗОхв.

The slurry of sewage and coal prepared in this way is poured into a cylindrical container and subjected to ultrasonic cavitation treatment for 5.00 minutes. at a frequency of 22.0 kHz and a power of 6 W/cm7. At the end of the processing time, the device is turned off and after cooling the system to 20.0"C, the purified water is separated from the solid phase by filtration.

In the obtained filtrate, the amount of dichromate oxidizability is determined, which is equal to 620.0 mg O/dm3.

The degree of purification of wastewater from dissolved organic and mineral substances (COD) is: сСухпПк)-:(2500-620,0)3/2500)1100 90-75,290; at the same time, the degree of purification from colloidal organic and mineral substances, characterized by the value of the light transmission coefficient (A, 95), was equal to 82.0905.

Example 2.

Similarly to Mei's example, wastewater treatment of the same composition and with the specified parameters is carried out using a 5.095% suspension of activated carbon of the OU-B brand. In this case, the value of the dichromate oxidizability of the filtrate is (COD)-590,Omg b/dmu, which corresponds to the degree of purification from dissolved organic and mineral substances (Ci(COD))-76,495. The degree of purification from colloidal and mineral substances reaches (A,

Fo)-87,090.

It was experimentally established that the optimal conditions for wastewater treatment (КПК-2590-3000, Омг бО/dm3; А-6-895) are the concentration of coal in the range of 2-10.095 (from the mass of effluents) and the mode of ultrasound treatment at a frequency of 22kHz and power 5-9.0 W/cm? during 5-15 minutes, which provide a high degree of purification from dissolved organic and mineral substances (СА1(КОПК)-72-85,095) and from colloidal substances of various chemical nature, the coefficient of light transmission (А, 95) reaches values of 75 -90,095. The data are presented in the table.

Based on the obtained results (table), it can be noted that the proposed method of wastewater treatment is characterized by obtaining higher indicators of the degree of purification of wastewater from dissolved and colloidal organic and mineral substances, which ensures the production of higher quality treated effluents. Thus, the degree of wastewater purification (ST(COD)) from dissolved organic and mineral substances, according to the proposed method, reaches values of 72-8595, which is 22-30956 higher than the similar indicators of the known method (5-5595). The degree of purification from colloidal organic and mineral substances increases due to the increase in the light transmission coefficient (A, 95) to 75-90.095, which exceeds the known values by an average of 25.095.

The advantage of the proposed method of industrial wastewater treatment is also the possibility of achieving a higher level of removal of pollutants from wastewater, which is one of the important factors in the technological processes of environmental pollution prevention.

Table

Me p/p Coal additives, 95 o o 17190 | 100 | 20 | 7850 | 800 24 HER yuzhkKYUB90 yusch | 100 | 60 | 820 | 850 Ж юю ( 3 1.80 шющ| 100 | 100 | 850 2 | 900 4 70 ющК 7100 | ш(60 2 5БжюХх | 800 | 820 6 ІІ юЮююююЮмхяйо 177750 26ЮБ | 100 | 800 | 850 ХСУ10Ш10 Шющ( | (100 | 760 2 Sh | 820 9 HER. YuyuYush85BO Kiyi 150 2 | 60 5 sh | 740 | 850 Zhlo HER 777790 |... 150 2Yu (| yuschTsmR200 | 550 2 Sh | 650 sh(Kai 1 17711170 7771571717.171571717 7.8

Claims (2)

1. A method of wastewater treatment, mainly from organic pollutants, which includes coal treatment, which is characterized by the fact that the treatment of wastewater with coal is carried out simultaneously with ultrasonic treatment. 2. The method according to item I, which differs in that natural low-grade coal is used as coal.