RU2367612C1 - Method for waste water purification from benzene - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: method includes treatment of contaminated water medium with active charcoal obtained by aspen wood pyrolysis with its following activation by hydrogen peroxide during 5-10 min. The consumption of active charcoal is 1 g/ per 100 ml of water medium.

EFFECT: possibility of prompt and quality benzene sorption from water media and decrease of purification process labour input.

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Description

The invention relates to the field of purification of a contaminated aqueous medium and can be used in methods for purifying an aqueous medium contaminated with benzene.

A known method of wastewater treatment from cyanides, in which water is treated with hydrogen peroxide in the presence of ozone (AS USSR No. 592761, publ. 15.02.78).

The known method does not allow to purify contaminated water from benzene.

A known method of wastewater treatment from benzene by desorption in a stream of air, and the desorption is carried out in a stream of air containing methanol or ethanol or propanol vapor (AS USSR No. 1353737, publ. 23.11.87 - prototype).

The disadvantages of this method is the need for expensive chemicals, the complexity of the process, low ecology of the process.

The technical task of the invention is to find the possibility of using activated charcoal for the treatment of water contaminated with benzene on the basis of naturally renewable, affordable and cheap resources, which include aspen wood, which can quickly and efficiently absorb benzene from aqueous media while reducing the labor costs of the process of purifying contaminated water and ensuring the environment .

The problem is achieved in that in the method for purifying contaminated water from benzene, including water treatment, the treatment of contaminated water is carried out with activated charcoal obtained by pyrolysis of aspen wood and subsequent activation with hydrogen peroxide of particles selected after grinding and separation of the size of the pyrolysis 0.2- 2.0 mm, while the activation process of one mass part of the selected particles of charcoal is carried out by keeping them in capsules in the presence of 2.5 mass parts of 10% ra creates hydrogen peroxide at a temperature of 250-300 ° C for 5-10 minutes at a pressure of 30-50 MPa and handling polluted aqueous medium is carried out for 5-10 minutes at a flow rate obtained by the activated charcoal in an amount of 1 g per 100 ml of water pollution.

The invention differs from the prototype in that the treatment of the contaminated aqueous medium is carried out with activated charcoal obtained by pyrolysis of aspen wood and subsequent activation with hydrogen peroxide of particles selected after grinding and separation of the pyrolysis product with a size of 0.2-2.0 mm, while the activation process of one mass part selected particles of charcoal are carried out by keeping them in capsules in the presence of 2.5 mass parts of a 10% solution of hydrogen peroxide at a temperature of 250-300 ° C for 5-10 minutes at a pressure 30-50 MPa and handling polluted aqueous medium is carried out for 5-10 minutes at a flow rate obtained by the activated charcoal in an amount of 1 g per 100 ml of water pollution.

This makes it possible to use activated charcoal for the treatment of water contaminated with benzene based on naturally renewable, affordable and cheap resources, which include aspen wood, which can quickly and efficiently sorb benzene from aqueous media while reducing the labor costs of the process for purifying contaminated water and ensuring the environment.

In the patent information fund that we reviewed, no technical solutions were found containing these distinctive features, as well as the totality of these distinctive features.

The invention is applicable and will be used in the industry in 2008.

Table 1 presents the concentration levels of benzene (ppm) in an aqueous solution under the influence of the obtained coals for various time intervals. Dose - 0.5 g of test coal in 50 ml of model solution.

Table 2 presents the kinetics of reducing the concentration of benzene in the model solution.

The method was carried out as follows.

Example

Activated charcoal was obtained by pyrolysis of aspen wood, the resulting charcoal was crushed, activated with hydrogen peroxide, separation was performed, washing with distilled water and drying of the final product, the grinding and separation processes being carried out with the selection of particles with a size of 0.2-2.0 mm, In this process, the activation of one mass part of the selected particles of charcoal was carried out by keeping them in capsules in the presence of 2.5 mass parts of a 10% solution of hydrogen peroxide at a temperature of 250-300 ° C for 5-10 mi ut at a pressure of 30-50 MPa.

The adsorption properties of the obtained charcoal samples were studied at the St. Petersburg Center for the Study and Control of Water on a model aqueous solution of benzene. Studies were performed using an Agilent 6850 chromatograph.

When conducting experiments to obtain comparative indicators, coals from natural wood of aspen (example 1) and oak (example 2) were used.

The experimental results are presented in table 1.

The qualitative and quantitative picture of benzene adsorption obtained by examples of charcoal samples is obvious from the data in table 1.

To assess the intensity of the adsorption process by various charcoal samples, we introduce the adsorption coefficient K:

where K _beg , K _i - respectively, the initial and current concentration of benzene in the studied model solution.

The calculated values of the K coefficients are summarized in table 2. According to the analysis of the data in tables 1 and 2, it is seen that the activated carbon obtained by the claimed method absorbs 95% of benzene in 5-10 minutes and continues to improve these characteristics in the subsequent time (up to 60 min) .

Thus, the claimed technical solution provides the possibility of using activated charcoal for the treatment of water contaminated with benzene on the basis of naturally renewable, affordable and cheap resources, which include aspen wood, which can quickly and efficiently absorb benzene from aqueous media while reducing the labor costs of the polluted water treatment process and ensuring ecology.

The effect of the claimed technical solution is achieved with the totality of all the claimed features.

table 2 No. p / p Coal Samples Contact Duration, min 0 5 10 thirty 60 one Natural Aspen Charcoal 1,0 1,5 4,5 7.5 10.0 2 Natural Oak Charcoal 1,0 27.5 44.0 55.0 122,2 3 Charcoal from aspen obtained by the claimed method 1,0 17.5 70.0 77.7 140.0

Claims (1)

A method for purifying benzene contaminated aqueous medium, including water treatment, characterized in that the contaminated aqueous medium is treated with activated charcoal obtained by pyrolysis of aspen wood and subsequent activation with hydrogen peroxide of particles selected after grinding and separation of the pyrolysis product size 0.2-2.0 mm, while the activation process of one mass part of the selected particles of charcoal is carried out by keeping them in capsules in the presence of 2.5 wt.h. 10% hydrogen peroxide solution at a temperature of 250-300 ° C for 5-10 minutes at a pressure of 30-50 MPa, and the treatment of contaminated water is carried out for 5-10 minutes at a flow rate of the obtained activated charcoal in an amount of 1 g per 100 ml polluted water environment.