RU2641825C2 - Method of testing polluted soils - Google Patents

Abstract

FIELD: ecology.

SUBSTANCE: soil samples are placed in a column with an open top and a filter device at the bottom. Pollution of soil samples with chemical substances is carried out in an amount characterizing the technogenic impact. Filtrate that has passed through the contaminated soil layer is collected and the content of pollutant in the filtrate and soil is determined. For the study, 1-2 kg of a sample of soil dried to an air-dry state, which is placed in a plastic column with diameter of 10-20 centimetres and a height of 15-20 centimetres. The column is connected to a device for collecting the filtrate, which is a sealed plastic container with an inlet and a diameter equal to the diameter of the column. The device is assembled in combination with the filtrate collector vertically in a recess in the soil with a diameter equal to the diameter of the column and a depth of 40-60 cm, corresponding to the height of the column and the filtrate collector. The observation time is divided into several periods after which the column with the filtrate collector is removed from the recess and the filtrate is removed. After that, the column and the filtrate collector are again installed in the recess and the volume of the removed filtrate is determined. Concentration of the pollutant is determined. At the end of the observation, the column with the filtrate collector is taken out of the recess and the content of the pollutant in the soil and filtrate is analyzed. The amount of substance determined at different observation periods in the filtrate passed through the contaminated soil layer is summed and the degree of release of the pollutant is determined.

EFFECT: obtaining an assessment of the behaviour of pollutants in soils for improving the monitoring system for hazardous industrial facilities and developing measures for sanitary clearance of the territory with negative man-made impact.

2 cl, 4 dwg

Description

The present invention relates to the field of environmental protection, and in particular to a method for testing contaminated soils and soils under the influence of atmospheric precipitation and other natural factors in the field without pollution of the territory. The development allows to assess the behavior of pollutants (SO) in soils and soils to improve the monitoring system of hazardous industrial facilities and the development of measures for the sanitary cleaning of the territory under negative anthropogenic impact.

From the existing level of technology, a method is known for assessing the phytotoxicity of mustard-infected soils in the field, while mustard and soil decomposition products were infected with mustard and mustard products, on which various plants were grown and their germination and other growth characteristics were determined depending on the amount of pollutants introduced (Medvedeva N.G. ., Zaitseva TB Microbiological transformation of mustard gas and products of its hydrolysis. St. Petersburg: Publishing house of the Polytechnic University. Un-ta, 2015, 168 p). The disadvantage of this method is that sufficiently large amounts of soil are exposed to pollution, there is a risk of secondary environmental pollution, and the behavior of pollutants in the contaminated soil layer is not studied.

Another way to study the mobility of pollutants in soils in the field is to add pollutants to a specific area of soil and analyze the content of these substances during a certain observation time (Gabrichidze T.G., Yannikov I.M., Zubko T.L., Kozlovskaya N.V. Transformation of soil cover under the influence of arsenic compounds and the possibility of monitoring // Intelligent systems in production, Izhevsk, Izhevsk State Technical University, 2006. No. 2 (8). - P. 203-207).

The disadvantage of this method is the need to contaminate the territory with toxic substances, the need for its sanitary restoration, the inability to study the processes of pollutant release into the filtrate, which passed through the contaminated soil layer.

The closest is a method for studying the behavior of pollutants in soils in the field on plots with an area of 10-50 square meters (guidelines for hygienic justification of MPC for chemicals in the soil. Approved by the Deputy Chief Sanitary Doctor of the USSR V.E. Kovshilo 05.08.82, No. 2609-82. - 27 p.). The disadvantage of this method is the need to contaminate a large amount of soil and its subsequent neutralization, there is a high risk of secondary environmental pollution with severe soil contamination.

The problem to which this invention is directed is to determine the specific behavior of hazardous chemical pollutants in the surface soil layer, taking into account the peculiarities of the structure of regional soils under the influence of natural factors of the region without contamination of the territory when creating highly hazardous production facilities, to organize an environmental monitoring system for them, to choose industrial sites and sanitation of contaminated territories in the course of production activities.

This problem is solved due to the fact that the method of studying the behavior of pollutants in soils is carried out under the direct problem: when soil samples with a known mass and humidity are contaminated with chemicals in an amount characterizing anthropogenic effects in a plastic column 15-20 cm high open upper part, a filtering device in the lower part, after which the column is installed in a recess in the soil under the influence of natural factors, the filter is periodically collected that passed through the contaminated soil layer, and the content of pollutants in the filtrate is determined.

A column or columns with samples of contaminated soils and soils established during field trials under conditions of natural factors are easily connected by a collapsible connection to a filtrate collector made of a sealed plastic container with an inlet and a diameter equal to the diameter of the column, the volume of which is calculated based on the amount of precipitation and the frequency of sampling of the filtrate, after which the column with the filtrate collector is installed vertically in the recess in the soil by an amount corresponding to the maximum height of the column with the filtrate collector, with a diameter corresponding to the diameter of the column and filtrate collector; at certain time intervals, the filtrate is selected from the filtrate collection, its volume and the content of pollutants are determined. The installation of a column with a filtrate collector in a recess in the ground, in contrast to placement on the surface, eliminates accidental destruction of the device during testing and, as a result, environmental pollution.

The technical result provided by the given set of features is that the method allows to determine the nature of the behavior of pollutants in soils, taking into account the peculiarities of their structure, as well as taking into account the characteristics of natural factors and atmospheric effects in the form of precipitation without pollution of the territory, which makes it possible to develop practical recommendations on environmental the control and monitoring of highly hazardous industrial facilities, the selection of an industrial site for them, and the development of methods for the rehabilitation of contaminated territories.

The invention is illustrated by drawings, which depict:

In FIG. 1.- Column device;

In FIG. 2 - Device for field testing;

In FIG. 3 - Device during field testing;

In FIG. 4 - Field test device installed in a recess in the ground

The method of testing contaminated soils and soils is as follows (Fig. 1). In a column with a plastic case - 1, a soil sample is placed, dried to an air-dry state, at the bottom of the column there is a filter baffle - 2 and a mounting device - 3 and a drain hole for the filtrate - 4. The column is connected easily by a collapsible connection - 5 (Fig. 2) with a filtrate collector - 6 and are installed vertically in a special cavity in the ground - 7, with a depth of about 40-60 cm, which corresponds to the height of the column with the filtrate collector, and with a diameter corresponding to the diameter of the column and the filtrate collector.

The diameter of the columns varies from 10 to 20 cm, and the height varies from 15 to 20 cm, which approximately coincides with the size of the bayonet of the shovel, which is used to take soil samples when studying the level of soil contamination according to the methodology (GOST 17.4.4.02-84 “Nature protection. Soils. Methods of sampling and sample preparation for chemical, bacteriological, helminthological analysis "; GOST 28168-89" Soils. Sampling "). Reducing or increasing the size of the column leads to a mismatch of the amount of contaminated soil sample with the amount of soil sample taken by this method. The amount of soil in the dry state for research in such columns is 1-2 kg. The method allows to characterize the features of the behavior of pollutants in the soil layer, which is usually analyzed during research on monitoring industrial pollution, which allows us to develop recommendations for improving such monitoring.

A decrease in the size of the recess in the soil of less than 40 cm will lead to a decrease in the volume of the filtrate collector and the need for more frequent excavation of the filtrate. Increasing the size of more than 60 cm complicates the manufacture of recesses, especially with a manual method for their manufacture. The installation of columns with contaminated soil and a filtrate collector in a recess in the soil eliminates their accidental damage during research and environmental pollution.

The studied chemical substance is introduced into the upper part of the soil in the form of a compound that is of interest in organizing environmental safety measures, in an amount corresponding to various levels of toxic, technogenic effects: 1-100 MAC or more, if information on these data is available. In the absence of data, in any other quantity simulating the impact of industrial production. Next, a column with contaminated soil is set in the test conditions under the influence of natural factors. The arrangement of columns eliminates secondary pollution and the need for sanitary treatment of territories. The simplicity of the devices allows testing on a large number of samples of contaminated soil under various exposure options, having received a large experimental material for analysis and development of recommendations. Columns can be made of empty plastic bottles, which reduces the cost of research due to their secondary use.

The soil surface in the column is at the level of the surface of the soil cover. Deepening is done using a drill or other tool. The column is set under the influence of natural factors for a certain period of time for which the experiment is designed. For example, from May to October until the snow cover is established. During this time interval, the column is periodically checked. The column is removed from the recess and disassembled, the filtrate is taken from the filtrate collector, its volume and the content of pollutants are determined. After this, the column is again collected and set back. A field view of the column assembly is shown in FIG. 3, after being installed in the soil under field test conditions, is shown in FIG. 4. Sampling of the filtrate is repeated after a certain period of time, and then summarized. Based on the results of the analysis, a conclusion is made on the mobility of pollutants in the soil under regional natural features and technical recommendations are developed, for example, on the organization of environmental monitoring.

Example: in the field, the soil mobility of sodium arsenite - NaAsO ₂ , which is formed during the destruction of arsenic-containing toxic substances at chemical weapons destruction facilities by alkaline hydrolysis, was studied. Several types of soils were contaminated with sodium arsenite in an amount of 10 MPC for arsenic and placed in columns with a filtrate collector in natural conditions. The mass of soil samples dried to an air-dry state was 1.2-1.3 kg. The height of the column was 15 cm, the diameter of the column and the filtrate collector was 10 cm, the volume of the filtrate collector was 1.5 dm ³ . The diameter of the depression made by a hand drill was 10 cm, the depth was about 50 cm. The columns were checked during the observations every month, the filtrate was taken and the arsenic content in it was determined by atomic absorption spectrophotometry on a Shimadzu-AA7000 instrument. Then, the results of the analyzes according to the degree of allocation of sodium arsenite were summarized.

The results of calculating the degree of precipitation of sodium arsenite from soil samples under the influence of precipitation in the form of rain in the summer-autumn period and in the form of melt water in the spring-winter period for 1 year of field observations are presented in Table. one.

Claims (2)

1. A method for testing contaminated soils and soils without contaminating the territory, including placing soil samples in a column with an open upper part and a filtering device in the lower part, contaminating soil samples with chemicals in an amount characterizing anthropogenic impact, collecting the filtrate passing through the contaminated soil layer, and determining the content of contaminant in the filtrate and soil, characterized in that for the study, 1-2 kg of soil sample is taken, dried to an air-dry state, which placed in a plastic column with a diameter of 10-20 cm and a height of 15-20 cm, soil contamination is carried out that corresponds to the studied technogenic impact, the column is connected to a filtrate collection device, which is a sealed plastic container with an inlet and a diameter equal to the diameter of the column , set complete with the filtrate collector vertically in a recess in the soil with a diameter equal to the diameter of the column and a depth of 40-60 cm corresponding to the height of the column and filtrate collector for the observation time, which p zbivayut into several periods, after which the column with a device for collecting filtrate withdrawn from the recess, and the filtrate was removed, after which the column and the filtrate collection again set into the recess; determine the volume of the removed filtrate and determine the concentration of the pollutant; at the end of the observations, the column with the device for collecting the filtrate is removed from the recess and the contaminant content in the soil and the filtrate is analyzed, the amount of substance determined at different observation periods in the filtrate passing through the contaminated soil layer is summed up and the degree of emission of the pollutant is determined. 2. The method according to p. 2, characterized in that the studies are simultaneously carried out in several columns with a filtrate collector, in which the behavior at different concentrations of the pollutant is examined and various types of soils are placed; the number of columns is determined by the size of the allotted area for research.

Images