RU2219270C2 - Thermal demerurization method - Google Patents

Abstract

FIELD: detoxification methods. SUBSTANCE: invention proposes a method for thermal demerurization of multilayered and/or sorption-active floor coverings made from different nonconducting materials and cleaning of in-door air. Method comprising heat treatment of mercury-polluted surfaces and mercury-accumulating areas to heat dispersed particles of mercury metal and ejection of mercury vapors from localized treated space to be further purified on sorption filters is characterized by that heating of mercury particles dispersed in the bulk of mercurycontaining material is effected with the aid of high-frequency field to the depth 150-300 mm until content of mercury in air achieves 3•10^-4 mg/cu.m. EFFECT: avoided damaging action of degassing factors, preserved functional properties of coverings, increased treatment depth, and increased degree of demerurization.

Description

 The invention relates to the thermal cleaning of mercury of multilayer and / or sorbing floor coverings from various non-conductive materials and the purification of indoor air, to methods for removing mercury from sorbing coating materials and household items.

 A known method of wet cleaning rooms from mercury, including applying to contaminated surfaces and places of accumulation of mercury 5 ... 15 wt.% Aqueous solutions of copper sulfate and potassium iodide or dispersions of sorbent materials impregnated with these solutions, with a mass ratio of copper sulfate and potassium iodide 1 : (1.5 ... 2.5). As dispersions of the sorbent material, impregnated wood chips are used. An additional aqueous solution of sodium thiosulfate and oxalic acid is additionally applied to the treated surfaces [1].

 This method of wet cleaning of mercury is effective in industrial premises, but is not suitable for use in residential premises for removing mercury from sorbent coating materials and household items due to the high corrosive activity of solutions, leading to a change in the texture of materials.

The closest in technical essence to the proposed one is the method of thermal demercurization of premises, which consists in the fact that a coating (plaster, concrete, tile, asbofaner and other non-combustible materials) with spilled or sorbed mercury is heated to 200-250 ^o C using a portable metal chamber with electric spiral heaters and simultaneously remove by ejection the generated mercury vapor. Air contaminated with mercury vapor is sent for subsequent purification to special sorption filters [2].

 The disadvantage of this method is that this method cannot be used for demercurization of thermally unstable wooden, painted and synthetic floor coverings, since an increase in the processing depth requires an increase in the heating temperature of the coating, as a result of which uncontrolled temperature conditions may cause unwanted changes and structural damage coating material.

 An object of the invention is to provide a method for thermal demercurization of multilayer and sorbent floor coverings, surfaces and household items, excluding both direct thermal exposure and the use of solutions of chemical demercurizators.

 The technical result achieved by using the present invention is to eliminate the destructive effect of degassing factors and preserve the performance properties of coatings, increase the processing depth and expand the technological capabilities of the method of thermal demercurization of multilayer or sorbing mercury-containing materials, improve the quality of cleaning rooms from mercury pollution.

The essence of the invention lies in the fact that a method of thermal demercurization is proposed, which includes the thermal treatment of surfaces contaminated with mercury and places of accumulation of mercury by heating dispersed particles of metallic mercury, ejecting mercury vapor from a localized treated volume for subsequent purification on sorption filters, while heating the particles of metallic mercury dispersed in the volume of mercury-containing material, carry out a high-frequency field to a depth of 150-300 mm to the content of mercury vapor in the air ear to level 3 • 10 ^-4 mg / m ³ .

Distinctive features of the proposed method is that the heating of particles of metallic mercury dispersed in the volume of mercury-containing material is carried out by a high-frequency field to a depth of 150-300 mm to the content of mercury vapor in the air to a level of 3 • 10 ^-4 mg / m ³ .

The proposed method of thermal demercurization uses the principle of "direct" induction heating of mercury microparticles with a high-frequency field to a depth of about 150-300 mm to a content of mercury vapor in air up to 3 • 10 ^-4 mg / m ³ . Flooring “sorbent” type (taking into account the underlying layer) have a thickness of more than 100 mm, for a complete demercurization of coatings of this type, a processing depth of about 150 mm is required, with a smaller depth the degree of demercurization will be low due to incomplete treatment of the contamination zone. Slatted flooring contaminated with mercury can reach (together with ceilings) a total thickness of up to 250-300 mm. Therefore, for full demercurization, heating to the full thickness of the floor is proposed - to a depth of 300 mm. Outside of 300 mm, the effectiveness of the RF field becomes insignificant. The influence of the RF field on the mercury particles is carried out until the mercury vapor content in the air reaches the level of 3 • 10 ^-4 mg / m ³ , which ensures a full degree of cleaning the premises, which is significantly higher than the results of demercurization by the prototype method.

 The advantage of the proposed method is that the high-frequency field heats only the electrically conductive material, in this case dispersed particles of mercury, and does not affect the material (multilayer, slotted or sorbing) mercury without damaging or changing its properties.

 The depth of the effective exposure (penetration) of the high-frequency field in the material being processed is approximately 0.6 times the diameter of the emitter (inductor). This allows you to actually treat contaminated surfaces and mercury accumulation sites to a depth of about 150-300 mm during demercurization of slotted, multilayer or bulk mercury sorbing materials.

 Implementation example.

 A significant amount of mercury was spilled in the room. The flooring was parquet covered with a pile carpet. The concentration of mercury vapor exceeded the maximum permissible concentration (MPC) by 37 times.

 Mercury was found both in the cracks of the parquet and in the pile material of the carpet. In this connection, the demercurization of these surfaces was carried out using high-frequency processing. Before starting the heat treatment, all visible metallic mercury was collected by suction. Using non-conductive material (plastic, synthetic fabric), the air volume in the processing zone was localized and closed to a gas purification system to purify contaminated air from mercury vapor. A vacuum was created in the treatment zone and in the treatment system. A radiator (inductor) with a diameter of 25 cm was placed above the treatment zone in the immediate vicinity of the surface of the treated object, which acted on a particle of metallic mercury dispersed in crevice (parquet) and sorbent (carpet) materials with a high-frequency field with a frequency of 1.76 MHz. Under the influence of a high-frequency field penetrating the flooring to a depth of at least 15 cm, the particles of metallic mercury were heated, the vapor pressure of the mercury in the treatment zone increased, the mercury vapor entered the rarefaction zone and was ejected into a gas purification system equipped with sorption filters. Purified air was discharged into the atmosphere. By moving the treatment zone, all the required coating surface was cleaned of mercury.

During the proposed method of heat treatment of coatings, the content of mercury vapor in the air decreased below the MPC, i.e. decreased to the level of 3 • 10 ^-4 mg / m ³ .

 Thus, the proposed method of thematic demercurization allows the complete elimination of mercury contaminants by volumetric treatment with a high-frequency field of multilayer surfaces (parquet, mosaic floors, marble chips, tiles, cement screed, panels, carpets, carpet and the like complex coatings), as well as furniture including soft, and household items from sorbing materials (mattresses, blankets, pillows, fur products), excluding direct thermal effects, or the use of solutions of chemical demercurizators.

 The proposed method can be implemented on equipment available at the enterprise.

Sources of information
1. RF patent 2081198, application 95104670 dated 03/29/95, cl. C 22 V 43/00, BI 16 from 06/10/97.

 2. Pugachevich P. P. Work with mercury in laboratory and industrial conditions. - M.: Chemistry, 1972, p. 301-302.

Claims (1)

The method of thermal demercurization, including the thermal treatment of surfaces contaminated with mercury from sorbent materials and places of accumulation of mercury by heating dispersed particles of metallic mercury, ejecting mercury vapor from a localized treated volume for subsequent purification on sorption filters, characterized in that the heating of metallic mercury particles dispersed in the volume of mercury-containing material, carry out a high-frequency field to a depth of 150-300 mm to a mercury content in the air to a level of 3 · 10 ^-4 mg / m ³ .