RU2197760C2 - Biocide cement mortar - Google Patents

Abstract

FIELD: recovery of radioactive wastes, in particular for their disposal. SUBSTANCE: cement mortar has cementing material, mixing water, and also biocide additive, proportion of ingredients being as follows, mass percent: cementing material, 38.5- 80.0; mixing water, 20.0-60.5; biocide additive, 0.05-6.0. EFFECT: enhanced compressive strength, reduced leaching rate of radionuclides, enhanced frost resistance. 9 cl, 6 tbl

Description

 The invention relates to the field of processing of radioactive waste (RW), in particular to their disposal, and can be used to obtain biocidal highly penetrating cement mortars for the disposal of solid radioactive waste in the form of solidified cement stone in surface-type storage tanks. The invention can also be used when plugging wells for the restoration and repair of old storage facilities for radioactive waste. The invention can also be used for co-cementing liquid and solid radioactive waste, in addition, due to its high penetrating ability and increased strength, the biocidal cement mortar can be used to cement cavities when feeding it through narrow holes, as well as to fill cracks during repair work, for example pools, foundations of buildings, etc.

 A cement mortar is known for the joint burial of solid and liquid radioactive waste in a cement-concrete monolith containing Portland cement M400 or M500, and liquid radioactive waste, which is a salt solution containing various radionuclides, is used as mixing water (Sobolev I. A., Khomchik L.M. Neutralization of radioactive waste at centralized sites.-M .: Energoatomizdat, 1983, p.40, p.77).

 The disadvantage of such a cement mortar is the subsequent biodegradation of the accompanying RW of cellulosic materials inside the cement monolith. Cellulosic materials included in the cement block, together with solid radioactive waste, are hydrolyzed under the influence of an alkaline environment of the cement mortar and become a substrate for the development of various microbial flora, which leads to gas evolution, a decrease in the technical characteristics of the resulting cement stone (compressive strength, leaching rate) and ultimately as a result, the release of radionuclides into the environment. In addition, the disadvantages of such a cement mortar include the low degree of inclusion of RAW in the cement compound (20-30% by weight) and the formation of voids in the final cement compound due to the low penetration of the cement mortar and its low rheological characteristics.

Cement mortars are known for impregnating solid radioactive waste containing fine-grained materials, including heavily contaminated construction waste with cellulose-containing impurities (wood, fabric, cardboard, etc.) (Cementing method for solid radioactive waste containing fine-grained materials. Patent K11 2142657 C1 MKI ⁶ G 21 F 9/28, 9/16, claimed 03.09.98. 98117020/06, published 10.12.99, bull. 34).

These cement solutions contain cement with a specific surface area of 2500-6000 cm ² / g and mixing water, or a cement mixture, which includes cement, mixing water, water glass and hardener. Such solutions allow cementing solid radioactive waste by impregnation, penetrating into all voids and pores, which leads to improved technical characteristics of the resulting cement compound.

 The disadvantages of these cement mortars include, firstly, the short time during which the cement mortar retains the properties necessary for impregnation of radioactive waste, and secondly, the relatively low penetrating ability of the cement mortars used, that is, the separation during the impregnation of the liquid and solid phases of the solution , leading to the clogging of voids in the lower layers of the bulk volume of radioactive waste, and to the formation in the upper layers of the bulk volume of the cement compound of lower strength.

 In addition, biodegradation develops inside a concrete monolith obtained from a well-known cement mortar during its long-term storage in RW storage facilities, which leads to a decrease in its technical characteristics and the release of radionuclides into the environment.

The technical problem solved by this invention is to improve due to the reduction of biodestructive processes the properties of the RAO-containing cement monolith during long-term storage, namely, an increase in compressive strength, a decrease in the leaching rate of Cs ¹³⁷ radionuclides, and an increase in frost resistance.

 In addition, the technical task is to improve the rheological and penetration properties of the cement mortar, namely, to increase the penetrating ability of the cement mortar, that is, its ability, without delamination, to completely fill all voids and pores of the waste, guaranteeing the quality of the final cement compound throughout the bulk bulk volume of RAW, and increasing the time during which the cement slurry retains the ability to impregnate.

The technical problem is solved due to the fact that the biocidal cement mortar containing binder and mixing water additionally contains a biocidal additive in the following ratio of components, wt.%:
Bonding material - 38.5-80.0
Mixing Water - 20.0-60.5
Biocidal supplement - 0.05-6.0
Fine cement with a specific surface of 6000–13000 cm ² / g is used as an adhesive material.

As a binder, cement is used with a specific surface of 2000-6000 cm ² / g.

 As a binder, cement is used with an inorganic sorbent additive in an amount of 7-20% by weight of cement.

 As an inorganic sorbent additive, bentonite, clinoptilolite, or compositions thereof are used.

 Liquid liquid radioactive waste in the form of aqueous solutions of salts of various radionuclides with a salt content of not more than 600 g / l is used as mixing water.

 As the mixing water use tap water.

 Polyhexamethylene guanidine phosphate (PHMG) or polyhexamethylene guanidine chloride is used as a biocidal additive.

 As a biocidal additive, a mixture of polyhexamethylene guanidine phosphate with catamine AB is used in a weight ratio of 1: 1.

 The specified composition of the proposed biocidal cement mortar is optimal and identified as a result of numerous experiments (table 1).

 The given content of the biocidal additive ensures high penetration of the cement into the voids of the bulk volume of radioactive waste; a long time during which the cement mortar retains its rheological and penetration properties; as well as obtaining a durable cement compound that is resistant to biodegradation and aggressive environmental factors (washing out radionuclides with groundwater, seasonal temperature changes).

 The cement compound obtained on the basis of such a solution has a long antimicrobial effect due to the formation of a monolithic structure with increased strength and uniform distribution of the biocidal additive in it. The use of biocidal additives in cementing radioactive waste will allow to suppress or significantly slow down the decay and destruction of cellulosic materials accompanying radioactive waste (wood, textiles) and exclude the destructive effect on the cement monolith of the resulting acids and aggressive gases. The addition of polyhexamethylene guanidines (PHMG) provides the necessary protection of cement stone from biodegradation during the long-term storage of radioactive waste (table 2,3).

 The use of PHMG additives in cement mortars during impregnation of cementing of radioactive waste, as well as in the restoration of old radioactive waste storage, increases the rheological and penetration characteristics of cement mortars. Thus, the spreadability of cement mortar with a content of 1-2% PHMG increases by 1.5-2 times, at the same time, the setting time of cement mortars increases and the strength of the final cement compound increases. The increased penetrating ability of cement mortars containing PHMG allows to carry out RW cementing by impregnation in standard (100-, 200-gallon) barrels to obtain the final cement compound of the required quality throughout the whole bulk volume of RW, as well as to plug wells to restore the integrity of old RW storage tanks surface type.

 The use of biocidal additives in the PHMG process of cementing radioactive waste increases the reliability of the final cement compound (tables 4-6). So, the compressive strength of cement stone when included in the composition of the solution of biocidal additives increases by 1.5-2 times. At the same time, the rate of leaching of Cs-137 from cement stone is reduced. Significantly improves the frost resistance of cement stone.

For the preparation of biocidal cement mortar, cement is used with a specific surface area of 2000 to 13000 cm ² / g, or cement with an inorganic sorbent additive in an amount of 7-20% by weight of cement. Cement mortar is closed with tap water or liquid radioactive waste with a salinity of not more than 600 g / l. As a biocidal additive, PHMG phosphate, TU 10-09-29-89, in the form of granules or a 20-50% aqueous solution, or PHMG chloride in the form of granules or a 20-50% aqueous solution, or PHMG phosphate is used in in combination with alkylbenzyldimethylammonium chloride (catamine AB), TU 6-01-816-75, in the form of a 50% aqueous solution. When using a PHMG phosphate composition with catamine AB, the solutions are mixed in advance in a predetermined ratio and stored in a glass or plastic container.

 The preparation of cement mortar begins with the preparation of mixing water, into which a specially prepared solution of biocidal materials is added. Then binder is prepared, for which cement is thoroughly mixed with an inorganic sorbent additive in a predetermined amount. The mixing water containing the biocidal additive and the binder are mixed.

 To study the physicochemical, mechanical, and antimicrobial characteristics under laboratory conditions, cement compounds containing a biocidal additive were prepared.

Case Studies
Example 1
The biocidal additive - PHMG phosphate (TU 10-09-29-89) in an amount of 6.0 wt.% Is dissolved in tap water in an amount of 31.5 wt.%. The prepared aqueous solution is thoroughly mixed with 62.5 wt.% Finely ground cement with a specific surface of 6000-13000 cm ² / g. Solid radioactive waste, representing uncompressible and non-combustible fragments of construction waste with cellulose-containing inclusions, ash residues from RW incineration, granular sorbents, etc., fill a container container (for example, 100-, 200-liter barrels). The voids between solid radioactive waste are impregnated with a prepared biocidal highly penetrating cement mortar. The hardened, cement mortar forms a solid, solid, biodegradation-resistant monolith with a high degree of RW filling, uniform in quality in the entire bulk volume, subject to long-term storage (burial) in surface-type radioactive waste storage facilities.

 The prepared biocidal cement mortar can also be used for plugging wells (cavities) during the restoration of old radioactive waste storage facilities.

Example 2
Pre-prepared a mixture of biocidal additives. To do this, in a mass ratio of 1: 1, phosphate PGMG (TU 10-09-29-89) and catamine AB (TU 6-01-8816-75) are mixed. The prepared mixture of additives is stored in a plastic or glass container.

Mixing water is prepared, for which a mixture of biocidal additives in an amount of 3 wt. % dissolved in tap water in an amount of 34.5 wt.%. An adhesive material is prepared, for which cement with a specific surface of 2000-6000 cm ² / g is thoroughly mixed with bentonite in an amount of 6.3 wt.%. Based on the prepared components, a biocidal cement mortar is prepared, for which mixing water is thoroughly mixed with a binder.

 To restore the integrity of the old surface-type radioactive waste storage tanks, which were made without the use of biocidal filling material and subjected to biodegradation, the prepared biocidal high-penetrating cement mortar is pumped under pressure (up to 5 atm) into pre-drilled wells. Filling the wells, the high-penetrating biocidal cement mortar penetrates deep into the cracks and pores of the concrete monolith containing radioactive waste, and, hardening, provides the required technical characteristics of radioactive waste storage.

 The prepared biocidal high-permeability cement mortar can also be used for impregnation of RW cementing.

Example 3
Biocidal additive - PHMG chloride in an amount of 1.0 wt.% Dissolved in 60.5 wt. % of liquid radioactive waste, which is an aqueous solution of salts of various radionuclides with a salinity of more than 600 g / l. Then binder is prepared, for which 34.7 wt.% Portland cement with a specific surface of 2000-6000 cm ² / g (GOST 10178-85) is thoroughly mixed with 3.8 wt. % clinoptilolite. Then a biocidal highly penetrating cement mortar is prepared, for which the prepared mixing water containing the biocidal additive is mixed with the prepared cementitious material.

 Solid radioactive waste, representing uncompressible and non-combustible fragments of construction waste with cellulose-containing inclusions, ash residues from RW incineration, granular sorbents, etc., fill a container container (for example, 100-, 200-liter barrels). The voids between solid radioactive waste are impregnated with a prepared biocidal highly penetrating cement mortar. The hardened, cement mortar forms a solid, solid, biodegradation-resistant monolith with a high degree of RW filling, uniform in quality in the entire bulk volume, subject to long-term storage (burial) in surface-type radioactive waste storage facilities.

 The prepared biocidal highly penetrating cement mortar can also be used for plugging wells (cavities) while restoring the integrity of old radioactive waste storage facilities.

Example 4
The biocidal additive of PHMG phosphate in an amount of 5 wt.% Is dissolved in tap water (31.5 wt.%). The resulting solution was mixed with 62.5 wt.% Cement with a specific surface of 6000 cm ² / g. The resulting cement mortar is fed to cement the lining of the pipes of an artesian well. Due to its high penetrating power, the biocidal cement slurry penetrates deeply into the narrow cavity between the pipe and the soil, and when hardened, it forms a strong monolith with biocidal properties. Such a lining provides the epidemiological safety of a zamonirovanny well.

Example 5
Mixing water containing 5 wt.% PHMG phosphate in an amount of 31.5 wt.% Is mixed with 62.5 wt. % of a mixture of cement with a specific surface of 6000-13000 cm ² / g and clinoptilolite of the Kholinsky deposit with a grain size of 0.05-0.5 mm with a ratio of 5: 1. The container capacity (200-liter barrel) is filled with solid radioactive waste. The voids between the wastes are filled with a prepared biocidal cement mortar containing 20 wt.% Clinoptilolite as a sorbing additive. In this case, a monolithic block is formed, which is subject to long-term storage in radioactive waste repositories. The addition of clinoptilolite sorbent to the cement composition helps to reduce the yield of radionuclides (mainly cesium and strontium) from the resulting block.

Claims (8)

1. Cement mortar, including binder and mixing water, characterized in that it additionally contains a biocidal additive in the following ratio of components, wt. %:
Bonding material - 38.5-80.0
Mixing Water - 20.0-60.5
Biocidal supplement - 0.05-6.0
2. Cement mortar according to claim 1, characterized in that finely ground cement with a specific surface of 6000-13000 cm ² / g is used as a binder. 3. Cement mortar according to claim 1, characterized in that cement is used as a binder material with a specific surface of 2000-6000 cm ² / g.  4. A cement mortar according to claim 1, characterized in that cement with an inorganic sorbent additive in an amount of 7-20% by weight of cement is used as a cementitious material.  5. A cement mortar according to claim 4, characterized in that bentonite, clinoptilolite or their compositions are used as an inorganic sorbing additive.  6. Cement mortar according to claim 1, characterized in that liquid radioactive waste in the form of aqueous solutions of salts with a salt content of not more than 600 g / l is used as mixing water.  7. Cement mortar according to claim 1, characterized in that tap water is used as mixing water.  8. A cement mortar according to claim 1, characterized in that polyhexamethylene guanidine phosphate or polyhexamethylene guanidine chloride is used as a biocidal additive.  9. The cement mortar according to claim 1, characterized in that a mixture of polyhexamethylene guanidine phosphate with catamine AB in a weight ratio of 1: 1 is used as a biocidal additive.

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