RU2271882C1 - Insulating material - Google Patents

Abstract

FIELD: the invention refers to insulating materials.

SUBSTANCE: it may be used at burial places of toxic industry wastes of the third and the fourth degree of danger including solid domestic wastes. The material contains clay, sediment of staked lime or sludge of chemical water purification in quality of used lime waste material, bottom, floating oil-slime or soil polluted with mineral oils in quality of oil-slime at the following content of components, mass%: clay- 1-60, used lime waste- 15-40, oil-slime- 25-50.

EFFECT: allows to improve quality of insulating material and expand resources of raw materials.

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Description

The invention relates to special materials for use as an insulating material in the burial of toxic industrial wastes of the 3-4th hazard class, in particular for municipal solid waste (MSW).

A layer of soil 30-50 cm high is placed on a layer (1.0 ... 1.5 m) of solid waste, then a layer of solid waste (1.0 ... 1.5 m) is again filled in / Zaynullin H.N. and others. "Utilization of industrial and household waste" (on the example of the Ufa city landfill). Ufa - 1997, p. 62, 63 /.

Insulating material - soil has a high filtration coefficient.

Insulating materials are known: slag, construction waste, broken brick, lime, chalk, plaster, wood, cullet, concrete, ceramic tile, gypsum, asphalt concrete / Sanitary rules SP 2.1.7.1038-01 "Hygienic requirements for the design and maintenance of landfills for solid waste" , approved by resolution of the Chief State Sanitary Doctor of the Russian Federation of May 30, 2001, No. 16, p.3, p.5.2 /.

Known insulating materials have a very high filtration coefficient.

As an insulating intermediate material, industrial waste of the 4th hazard class / Sanitary and epidemiological rules and regulations, SanPiN 2.1.7.1322-03 "Hygienic requirements for the disposal and disposal of production and consumption waste" is used, approved by the decree of the Chief State Sanitary Doctor of the Russian Federation of April 30 2003, p.5, p.4.17 /.

A significant drawback of industrial waste of the 4th hazard class is its heterogeneity in structure, high filtration coefficient, which can lead to groundwater pollution.

Clays closest in technical essence to the invention are used as low permeable insulating material / Clay / Ministry of Construction of the Russian Federation. Academy of Public Utilities named after K.D. Pamfilova. Instructions for the design, operation and reclamation of landfills for municipal solid waste. M., 1996, p. 26, p. 3.10.4 /.

A significant disadvantage of clays is their high filtration coefficient (0.08-0.15 m / day), reduced compaction coefficient (0.7-0.9), insufficient frost resistance (0.4-0.6) limits their use as insulating material for solid waste, as well as for the disposal of toxic industrial waste of hazard class 3 and 4.

The invention solves the technical problem of improving the quality of the insulating material used in landfills, as well as for the disposal of toxic industrial waste of hazard class 3 and 4 and at the same time increasing the resources of the insulating material.

The technical result is achieved by the fact that the insulating material, including clay, additionally contains waste calcareous material and oil sludge with the following components,% wt .:

Clay 10-60 Waste lime material 15-40 Oil sludge 25-50

The chemical composition of clays is presented in table 1.

Clay filtration coefficients depend on the content of silicon and aluminum oxides. The lower the content of SiO ₂ and higher Al ₂ About ₃ , the lower the filtration coefficient.

Moreover, as an exhausted calcareous material, the proposed insulating material contains technological waste from thermal power plants (CHP) - slaked lime sediment or chemical water treatment sludge generated during chemical water treatment during steam production for turbines.

Chemical water treatment includes quenching of calcined lime (CaO) with water with the formation of milk of lime Ca (OH) ₂ and a precipitate of slaked lime. The obtained lime milk is used for the treatment of river water. At the same time, coagulation of river water occurs in the illuminator, organic substances, silicon and iron compounds, and sparingly soluble components of CaCO ₃ and Mg (OH) ₂ , which are chemical water treatment slurry, are precipitated.

The volume of generated sludge (HWO) depends on the quality of river water and varies from 0.1-0.5 kg per ton of purified water. The volume of accumulation of sludge CVD are shown in table 2.

Spent calcareous material - chemical water treatment slurry is close to the calcareous test in terms of dispersion and plasticity. Technical characteristics of sludge HVO:

Humidity,% wt. fifty Active content,% 1,2 Specific surface, m ² / g 2.1 Porosity,% 59-65

The high specific surface area of 2.1 m ² / g confirms the high sorption ability in relation to the oil part of oil sludge.

The genetic structure of the CVD sludge is characterized by a complex in the center of which is a mineral core, and on the periphery there is a layer of adsorption-bound water. The adsorption capacity of HVO sludge is 30496 * 10 ^-6 g (for comparison, cement has 14352 * 10 ^-6 g). The volume of film water (0.16) in cement (0.03).

Characteristics of slaked lime sediment are given in tables 3 and 4.

As a sludge, the insulating material contains bottom and floating oil sludges generated during oil production at refineries and petrochemical plants, as well as soil contaminated with oil products resulting from accidents.

The main range of oil sludge components is presented in table 5.

Floating oil sludge is constantly formed in the process of oil refining, the amount of which is about 7 kg per 1 ton of refined oil.

The output of bottom oil sludge is 5 tons per 1000 tons of processed oil and practically do not undergo further processing. Bashkortostan oil refineries have accumulated 2-2.5 million tons of bottom obsolete oil sludge.

Insulating material is prepared as follows.

Oil slimes are mixed with clay in various proportions with a bulldozer, stored and left for 30 ... 40 days to adsorb the oil part of oil sludge in clay pores. After 30 ... 40 days, the resulting mixture (clay + oil sludge) is additionally mixed with waste calcareous material (sludge CVD or slaked lime).

Examples of preparation are shown in table 6.

From table 6 it can be seen that the filtration coefficient of an insulating material made in various proportions from clays of I, II, III, IV groups mixed with spent lime materials with the addition of oil sludge is in the range of 0.0022-0.0032 m / day (table 6), which is significantly lower than clay (0.08-0.15 m / day) in its natural composition. The samples of insulating materials presented in table 6 correspond to the technical specifications TU-5717-01-48855219-2004, introduced for the first time in the Russian Federation.

Thus, compared with the prototype, the filtration rate of the proposed insulating material is reduced several times, the resources for production are increased due to the involvement of oil refining and petrochemical industries in the industrial waste.

The introduction of insulating material will be widely used in the disposal of toxic waste of hazard class 3 and 4, as well as solid waste.

Table 1 The chemical composition of clay Groups The limits of the content of the main chemical components,% wt. Coefficient clay SiO ₂ Al ₂ About ₃ FeO + Fe ₂ About ₃ Cao MgO R ₂ O Organic things filtration, m / day I 48-60 17-26 6.5-12 0.5-3 up to 4 1,5-7 1.0-2.5 0.08 II 53-68 14-20 4,5-6,0 1,0-3 up to 4 1,5-5 0.3-1.0 0,089 III 65-73 10-15 3,5-6,0 until 3 Up to 4 1,0-4 0.1-0.5 0,095 IV 70-82 8-12 2.0-5.6 up to 12 up to 7 until 3 0-0.3 0.15 table 2 Volumes of sludge accumulation at the Ural CHPP Thermal Power Plants CHPP-1 CHPP-2 TPP-3 TPP-4 Priufimsk CHP Accumulation volumes, thousand tons 80 80 8.8 120 5.7 Table 3 The chemical composition of the precipitate slaked lime,% wt Cao MgO Al ₂ About ₃ Fe ₂ About ₃ Cl SO ₃ Na ₂ O ₃ SiO ₂ CO ₂ ppp Total Act. 30.68 54.7 25.7 3.15 3.17 1.45 0.24 0.19 1,60 5.63 23.17

Table 4 Granulometric composition of slaked lime sediment Particle size The content of particles,% > 10 34.5 10-5 13.8 5-2 15.7 2-1 12.9 1-0.5 5.7 0.5-0.25 8.6 0.25-0.1 6.2 > 0.1 1.9 Table 5 The composition of oil sludge,% wt. Oil sludge Components Oil contaminated soil Bottom sludge Floating oil sludge Oil To 10 10 ... 30 30 ... 70 Mechprimesi 50 ... 90 15 ... 50 5 ... 15 Water up to 20 up to 60 up to 70 Table 6 The composition of the prototypes of the insulating material,% wt. Clay Group Waste lime material Oil sludge Filtration coefficient Substation No. I II III IV Slaked lime sediment sludge Oil contaminated soil Ground Floating m / day one 10 40 fifty 0.0025 2 10 40 fifty 0.003 3 35 thirty 35 0.0023 four 35 thirty 35 0.0022 5 60 fifteen 25 0.0032 6 60 fifteen 25 0.0028

Claims (3)

1. The insulating material, including clay, characterized in that it further comprises waste calcareous material and oil sludge in the following components, wt.%: Clay 10-60 Waste lime material 15-40 Oil sludge 25-50 2. The insulating material according to claim 1, characterized in that as the spent calcareous material, it contains technological waste from thermal power plants - slaked lime slurry or chemical water treatment slurry. 3. The insulating material according to claim 1, characterized in that the bottom or floating oil sludge or soil contaminated with oil is used as oil sludge.