RU2725250C1 - Method of protecting groundwater from contamination from surface storage of liquid wastes containing toxic or radioactive substances - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention can be used in construction, operation and liquidation of surface storage of liquid wastes containing toxic or radioactive substances, as well as in treatment of contaminated water from surface water bodies. Method for protection of underground water from contamination from surface storage of liquid wastes containing toxic or radioactive substances involves creation on inner surface of storage of anti-filtration screen, supply of activated clay soil in amount of 10–15 kg per 1 mof liquid wastes to the storage after its filling with liquid wastes containing toxic or radioactive substances. Activation of clay soil is carried out by adding a solution of magnesium chloride, aluminum sulphate and iron sulphate at rate of 2.0–6.0 kg, 1.4–4.5 kg and 1–4.5 kg per 1 t of clay soil, followed by treatment lime milk in amount of 5–15 kg of calcium hydroxide per 1 ton of soil.EFFECT: invention reduces content of contaminants in the liquid and improves the reliability of the anti-filtration screen by reducing the filtration coefficient.1 cl, 1 tbl

Description

The invention relates to mining and can be used in the construction, operation and liquidation of surface storage of liquid waste containing toxic or radioactive substances, as well as in the treatment of contaminated water from surface water bodies.

As a result of studies conducted both in Russia and abroad, it was found that in the associated formation waters of oil and gas condensate fields, as a rule, toxic and radioactive substances (radium, uranium, thorium, their decomposition products) are present, which form accumulations in barns and storages of liquid waste of various objects of economic activity. Toxic substances, in particular, compounds of heavy metals (zinc, cadmium, copper, etc.) can also accumulate in wastewater and liquid wastes of hydrocarbon processing facilities. In addition, radioactive components form deposits on technological equipment, which decontamination results in liquid radioactive waste. The implementation of the method provides an increase in the level of toxicological and radiation safety in the development of oil and gas condensate fields and hydrocarbon processing.

A known method of deposition of heavy metal ions from industrial wastewater, which consists in the fact that the initial solution is neutralized to a value of 4.0≤PH≤2.0, at the same time, bentonite clay is introduced into the initial solution once in an amount of not more than 5.0 g / dm ³ , the clarified aqueous phase is separated by decantation, and the precipitate is repeatedly subjected to interaction with the following portions of the initial solution to the ratio W: T≤2: 1 followed by decantation of the clarified aqueous phase (RF patent No. 2104316, C22B 3/44, publ. 10.02. 1998).

The disadvantage of this method is the low efficiency of its use for wastewater treatment from toxic components and reduce the filtering properties of the protective screen of liquid waste storages.

A known method of retaining heavy metals migrating in anthropogenic pollution flows, which consists in the fact that on the migration routes of the stream create an absorption barrier outside the source of pollution. The barrier is a chain of wells at a distance of 4-5 m into which gelling solutions are injected with a gelling time of 1 1.5 hours (RF patent No. 2050334, C02F 1/62, C02F 1/28, publ. 12/20/1995).

The disadvantage of this method is the impossibility of reducing the content of toxic or radioactive substances, predicting the maximum operating time of the territory allocated for the storage of these wastes and the high rate of migration of pollutants in the soil column that overlaps the aquifer.

A known method of protection against pollution of groundwater in areas of storage and disposal of waste containing toxic or radioactive substances and a device for its implementation, which consists in the fact that in the proposed place of disposal of waste create a screen, form samples of soil thickness to a depth of the first aquifer protected Territories and local clay sample kits from the nearest region. Samples of the soil stratum of the protected territory are divided into layers represented by various lithological differences, and then the territory is divided into separate sections and for each of them the limiting time of functioning as a natural geochemical barrier is determined. The method allows to predict the maximum operating time of the territory and to evaluate the rate of migration of pollutants in the soil stratum.

The disadvantage of this method is that it does not provide for the possibility of reducing the content of toxic or radioactive substances in the liquid.

Closest to the proposed invention is a method of protecting groundwater from contamination from surface liquid waste storages, which provides for the creation of an anti-filter screen on the inner surface of the store and feeding clay clay soil activated with acid or alkaline solutions after filling the store with liquid waste (RF patent No. 2049026, IPC B65G 5 / 00, publ. 11/27/1995). The method reduces the degree of filtration of contaminants outside the warehouse by reducing their content in the liquid storage.

The disadvantage of this method is the low degree of decrease in the content of dissolved toxic and radioactive substances in the liquid and the insufficient reliability of the anti-filter screen due to the relatively high filtration coefficient.

The objective of the claimed invention is the creation of a method of protecting groundwater from pollution from surface storage of liquid waste containing toxic and radioactive substances, which reduces the content of pollutants in the liquid and improves the reliability of the anti-filter screen by reducing the filter coefficient.

The implementation of the method provides a significant reduction in the content of polluting toxic and radioactive substances in the liquid phase and a decrease in the filtration of the liquid outside the store due to the improvement of the physicochemical properties of the anti-filter screen.

The problem is solved in that the method of protecting groundwater from pollution from surface storage of liquid waste containing toxic or radioactive substances includes the creation of an anti-filter screen on the inner surface of the storage, feeding into the storage after filling it with liquid waste containing toxic or radioactive substances, activated clay soil at the rate of 10-15 kg per 1 m ^{3 of} liquid waste. The activation of clay soil is carried out by introducing into it an aqueous solution of magnesium chloride, aluminum sulfate and iron sulfate at the rate of 2.0-6.0 kg, respectively; 1.4-4.5 kg and 1-4.5 kg per 1 ton of soil, then the soil is treated with milk of lime at the rate of 5-15 kg of calcium hydroxide per 1 ton of soil.

In the claimed method using:

- magnesium chloride according to GOST 7759-73;

- aluminum sulfate according to GOST 12966-85;

- iron sulfate according to GOST 6981-94;

- quicklime according to GOST 9179-77.

In the sequential processing of clay soil with a solution containing magnesium chloride, aluminum sulfate and iron sulfate, with milk of lime, an active finely dispersed absorption layer is formed on the surface of the soil particles, consisting of magnesium, aluminum and iron hydroxides, which are characterized by high sorption properties (capacity) with respect to heavy metals and radioactive substances.

When activated natural clay soil (clay, loam, clay sandstone, sandy loam, etc.) is fed into the liquid waste storage during the deposition of soil particles in the storage liquid, particles are separated into fractions and active processes of sorption of toxic and radioactive components from the liquid phase into the surface of the particles of activated soil with the formation of fine products with low filtration and sedimentation properties.

When such particles are deposited at the bottom of the storage, a finely dispersed clay layer with a low permeability is formed, which acts as an anti-filter screen, which prevents the entry of contaminated water into underground aquifers. In this case, the liquid is cleaned of toxic components, and they are in a bound state and cease their movement into groundwater and their pollution.

As a result of this treatment of contaminated liquid waste, the aerosol removal of pollution to the surrounding territory is prevented, and the environmental situation on it and directly in the storage itself is improved.

A decrease in the consumption of activated clay soil of less than 10 kg per 1 m ^{3 of} liquid waste leads to an increase in the filtering coefficient of the screen, while the degree of purification of the liquid phase from toxic components decreases, and with an increase in the consumption of activated clay soil more than 15 kg per 1 m ^{3 of} waste leads to an overrun materials and reagents.

With a decrease in the consumption of magnesium chloride, aluminum sulfate and iron sulfate below their lower limits for soil activation, the efficiency of cleaning the solution from toxic and radioactive substances decreases. And an increase in their consumption above the upper limits leads to an overrun of reagents.

Reducing the consumption of milk of lime below 5 kg of calcium hydroxide per 1 ton of soil for its activation does not ensure the transfer of magnesium, aluminum and iron ions into the surface absorption layer of the soil and thereby reduces the activity of the soil and the efficiency of cleaning the solution from toxic components. An increase in the consumption of milk of lime over 15 kg of calcium hydroxide per 1 ton of soil leads to an overrun of the reagent.

It should be noted that when activated soil is introduced into toxic solutions during their neutralization, the formed sulfate ions react with barium ions, if present in the system, with the formation of a barium sulfate precipitate, which is also an active sorbent for radioactive substances, which, in turn, increases the effect of decontamination of the liquid phase.

The essence of the claimed invention is described by the following example.

As the initial solution was used a model solution containing, mg / l: Zn - 61.80; Cd 6.06; Cu 3.01; Co - 2.04; Ni is 0.2. pH 6.5, Specific activity ~ 5 × 10 ⁶ Bq / L.

Loam with a particle size of 0.01-0.005 mm was used as clay soil.

For neutralization, 7 L of contaminated solution is poured into a measuring cup with a diameter of 20 cm and a height of 40 cm, a predetermined amount of pre-activated clay soil is introduced at the rate of 10-15 kg per 1 m ^{3 of} solution. To activate, the soil is first treated with an aqueous salt solution containing, g / l: MgCl ₂ - 20-40; Al ₂ (SO ₄ ) ₃ - 14-30; Fe ₂ (SO ₄ ) ₃ - 10-30, at the rate of 0.10-0.15 m ³ per 1 ton of soil, then milk of lime is introduced at the rate of 5-15 kg of calcium hydroxide per ton of soil. After the introduction of activated clay soil, the mixture is settled, the liquid phase is analyzed for the content of harmful components. Then the precipitate is stirred and the mixture is filtered on a vacuum filter to obtain a dense precipitate. Water is poured onto the obtained precipitate and the filtration rate is determined under normal conditions.

Studies on the change in the concentration of heavy metals were carried out on the four main components of the initial solution - zinc, cadmium, copper and cobalt.

The results of studies on the disposal of liquid toxic waste and the determination of the filtration characteristics of sediments are given in the table.

As can be seen from the table, the content of toxic components in the liquid decreases by several times to the MPC values. The specific activity of the liquid phase decreases to <25 Bq / l, which is lower than the allowable specific activity of water in accordance with the radiation safety standards NRB-96. In this case, the sediment filtration coefficient decreases by 7-12.5 times.

The research results indicate the effectiveness of liquid purification from polluting toxic and radioactive substances. Reducing the filtration characteristics of the sediment will improve the reliability of the anti-filter screen.

Claims (1)

A method of protecting groundwater from contamination from surface storage of liquid waste containing toxic or radioactive substances, including creating an anti-filter screen on the inner surface of the storage, supplying activated clay soil to the storage after filling it with liquid waste containing toxic or radioactive substances, characterized in that clay soil activation is carried out by introducing an aqueous solution of magnesium chloride, aluminum sulfate and iron sulfate into it, based on 2.0-6.0 kg, respectively; 1.4-4.5 kg and 1-4.5 kg per 1 ton of soil, then the soil is treated with milk of lime at the rate of 5-15 kg of calcium hydroxide per 1 ton of soil, activated soil is introduced at the rate of 10-15 kg per 1 m ³ liquid waste.