RU2303011C1 - Building material "burolit" - Google Patents

Abstract

FIELD: manufacture of building materials for strengthening intrafield roads, banking-up of branch sites, bases of dumping grounds; construction and recultivation of industrial objects.

SUBSTANCE: proposed building material contains drilling the sludge at density of 1.3-1.8 kg/dm³, cement (preferably grade M400 D20 suitable for use at temperature of from minus 30 to plus 40C), 10-20% of volume of drilling sludge; carbamide-formaldehyde foam plastic at density of 10-30 kg/m³, 10-25% of volume of drilling sludge and mineral filler (sand, ground granite) at size of particles of 2.7-3.1 mm, 10-20% of volume of drilling sludge. Building material contains additionally calcium chloride in the amount of 2.0% of drilling sludge volume. Composition of drilling sludge is described in invention.

EFFECT: avoidance of emission of contaminants of drilling sludge into surrounding medium; increased service life of structures.

5 cl, 4 ex

Description

The claimed invention relates to the construction material "Burolit" and will find application in the construction and strengthening of infield roads, deboning of the foundations of cluster sites, the foundations of landfills for municipal waste and industrial waste, as well as in the construction and reclamation of other industrial facilities.

At present, composite materials containing industrial waste have been developed for the construction of roads and railways, airfields, and the grounds of urban waste dumps, the disposal of which in other areas is a serious problem, and storage and disposal often do not provide ecological safety to the burial area and harm the environment . In well-known composite materials based on industrial wastes (mainly sludges, slags, industrial soils), they are firmly bonded to insoluble neoplasms, which makes it possible to widely use such materials in the construction of certain industrial facilities.

For example, a material is known for arranging roads and groundworks containing man-made soil as mineral material (for example, ash and slag from waste incinerators, dumps of metallurgical plants, waste from chemical and petrochemical enterprises), and a binder containing waste from the preparation of lime milk of a thermal power station or plants for the production of silicate brick (RU, 2114239, MKI: Е01С 3/04, publ. 06/27/98).

The specified material allows you to save natural resources, namely crushed stone, sand, gravel and replace them with currently unused industrial waste.

Composite material is also known, including bauxite sludge, coke dust, neutralized sludge from catalyst production, sulfate wastewater (RU, 2039858, MKI: Е01С 7/36, publ. 20.07.95). The specified material is intended for the device of roads, and the coating obtained by using this material meets the requirements of GOST.

As a prototype of the selected material described in patent application No. 2004138652, publ. 06/10/2006. The specified material contains drill cuttings generated during the construction of oil wells, cement and foam.

Drill cuttings generated during the construction of oil wells are a viscoplastic mass saturated with water, containing cuttings, including a small amount of hydrocarbons, but a large percentage of pollutants, such as drilling fluid chemicals. Warehousing and disposal of drill cuttings often does not provide environmental safety for the disposal area and is harmful to the environment.

Large volumes of oil production sludge, even in the form of the material described in patent application No. 2004138652, present a big problem both in terms of its storage without harming the environment, and in relation to the need to allocate significant areas for organizing storage facilities.

The basis of the claimed invention is based on the encapsulation of drill cuttings to create a building material suitable for use, including in road construction, and at the same time successfully dispose of drill cuttings.

This problem is solved by the creation of the building material "Burolit", including drill cuttings, cement and foam, which according to the invention contains drill cuttings having a density of from 1.3 to 1.8 kg / dm ³ , urea-formaldehyde foam having a density of 10-30 kg / m ³ in an amount of 10-25% of the volume of drill cuttings, cement in an amount of 10-20% of the volume of drill cuttings and additionally contains a mineral filler mainly with a particle size of from 2.7 to 3.1 mm, selected from the group containing sand and crushed granite, in an amount of 10-20% of the volume of bu ovogo sludge.

The technical result of the invention, the achievement of which the creation of a new technical solution is aimed, is the transformation of drill cuttings into an inert composite material that binds pollutants in its structure, eliminating their migration into the environment. In addition, the created construction material “Burolit”, when used, for example, to strengthen the slopes of the roadbed, ensures the strength of their surface layer, resistance to wind and water erosion, and thus helps to increase the service life of structures used in the construction of this material.

According to the invention, in order to lower the freezing point of a composite building material, it is advisable that it additionally contains calcium chloride in an amount of 2.0% by weight of drill cuttings.

An embodiment of the claimed invention consists in that the drill cuttings have the following composition: oil products - 1.2 wt.%, Water - 21.17 wt.%, Clay shales - 15.54 wt.%, Highly plastic clay - 31.15 wt.% , sand - 14.6 wt.%, siltstone - 8.0 wt.%, barite - 0.85 wt.%, carbonates - 0.5 wt.%, saipan - 0.13 wt.%, carboxymethyl cellulose - 0, 04 wt.%, Nitrilotrimethylphosphonic acid - 0.025 wt.%, Sideril - 0.07 wt.%, Tribos - 0.07 wt.%, Graphite - 0.14 wt.%, Clay powder - 1.5 wt.%, Heavy metals - 4.5 wt.%, mechanical impurities - 0.515 wt.%.

According to the invention, it is useful that, as said cement, the construction material “Burolit” contains cement, which is suitable for use at a temperature selected in the range from -30 degrees C to +40 degrees C, for example, cement grade M400 D20.

Other objectives and advantages of the claimed invention will become apparent from the following detailed description of the construction material "Burolit" and specific examples of its implementation.

The inventive building material "Burolit" is created on the basis of drill cuttings generated during the construction of an oil well.

Drill cuttings are a viscoplastic mass saturated with water, containing mainly cuttings and drilling fluid chemicals.

The composition of drill cuttings to some extent depends on the oil field and may have as an example the following composition: oil products - about 1.2 wt.%, Water - about 21.17 wt.%, Shale - about 15.54 wt.%, highly plastic clay - about 31.15 wt.%, sand - about 14.6 wt.%, siltstones - about 8.0 wt.%, barite - about 0.85 wt.%, carbonates - about 0.5 wt.% Saipan (trade name of the substance) is about 0.13 wt.%, carboxymethyl cellulose is about 0.04 wt.%, nitrilotrimethylphosphonic acid is about 0.025 wt.%, sideril (trade name of the substance) is about 0.07 wt.%, tribos (trade name of the substance) - about 0.07 wt.%, graphite - about 0.14 wt.%, clay powder - about 1.5 wt.%, heavy metals - about 4.5 wt.%, mechanical impurities - about 0.515 wt.%.

Moreover, the density of drill cuttings, proposed for use in the composition of the inventive material, ranges from about 1.3 to about 1.8 kg / DM ³ .

To encapsulate drill cuttings and turn drill cuttings into an inert composite material that binds pollutants in their structure, preventing their migration to the environment, urea-formaldehyde foam having a density of 10-30 kg / m ³ in combination with cement was introduced into the inventive material .

To be able to use the inventive composite material and at a temperature selected in the range from -30 ° C to + 40 ° C, it is advisable to use cement grade M400 D20.

The urea-formaldehyde foam contained in the inventive material is used in an amount of 10-25% of the volume of drill cuttings. Cement is used in an amount of 10-20% of the volume of drill cuttings.

It was found according to the invention that the presence of cement in the claimed material in combination with urea-formaldehyde foam in the indicated amounts eliminates the fluidity of drill cuttings, imparts granular properties to the material and prevents the migration of pollutants into the environment.

The inventive building material "Burolit" also contains according to the invention a mineral filler mainly with a particle size of from about 2.7 to about 3.1 mm, selected from the group comprising sand and crushed granite, in an amount of 10-20% of the volume of drill cuttings.

According to the invention, to lower the freezing temperature of the composite material, it is advisable that it additionally contains calcium chloride in an amount of about 2.0% by weight of drill cuttings.

The inventive building material "Burolit" is obtained by introducing into the drill cuttings with a density of from 1.3 to 1.8 kg / dm ³ with constant stirring of urea-formaldehyde foam having a density of 10-30 kg / m ³ in an amount of 10-25% of the volume drill cuttings; cement in an amount of 10-20% of the volume of drill cuttings; mineral filler in the amount of 10-20% of the volume of drill cuttings. In the winter season, calcium chloride is added in an amount of about 2% of the volume of drill cuttings.

Mixing of drill cuttings and encapsulating components to obtain a homogeneous, rapidly thickening mass is carried out using the Hitachi excavator due to the movement of the excavator bucket in the longitudinal and transverse directions. At the same time, clots of drill cuttings and clots of cement are carefully ground.

Ready-made building material “Burolit” is used, for example, to strengthen the slopes of the roadway, due to the ability of the material to thicken in a short time to a state that ensures self-fixation of the mixture on the slope of the slope.

Thus, thanks to the invention, it has become possible to transform drill cuttings into an inert composite material that binds pollutants in their structure, preventing their migration to the environment. The created building material “Burolit”, when used, for example, to strengthen the slopes of the roadbed, ensures the strength of their surface layer, resistance to wind and water erosion, and thus helps to increase the service life of structures used in the construction of this material.

Example 1

Construction material “Burolit” contains 50 m ^{3 of} drill cuttings, including: oil products - about 1.2 wt.%, Water - about 21.17 wt.%, Clay shales - about 15.54 wt.%, Highly plastic clay - about 31 , 15 wt.%, Sand - about 14.6 wt.%, Siltstone - about 8.0 wt.%, Barite - about 0.85 wt.%, Carbonates - about 0.5 wt.%, Saipan - about 0 , 13 wt.%, Carboxymethyl cellulose - about 0.04 wt.%, Nitrilotrimethylphosphonic acid - about 0.025 wt.%, Sideril - about 0.07 wt.%, Tribos - about 0.07 wt.%, Graphite - about 0, 14 wt.%, Clay powder - about 1.5 wt.%, Heavy metals - about 4.5 wt.%, Mechanical other impurities - the rest, and having a density of about 1.3 kg / dm ³ . In addition, the material contains urea-formaldehyde polystyrene foam with a density of 10 kg / m ³ taken in the form of crumbs from the industry under the trade name “penoizol” in an amount of 15.1% of the volume of drill cuttings contained in it; cement grade M-400 D20 (GOST 30515 GOST 22266, GOST 25328) in the amount of 12.1% of the volume of drill cuttings and construction sand in the amount of 12.1% of the volume of drill cuttings.

After 2 days after receiving the material of the specified composition, it is used in the construction of the foundations of fishing roads and cluster sites.

Example 2

Building material “Burolit” contains 25 m ^{3 of} drill cuttings, including oil products - about 1.2 wt.%, Water - about 21.17 wt.%, Clay shales - about 15.54 wt.%, Highly plastic clay - about 31, 15 wt.%, Sand - about 14.6 wt.%, Siltstone - about 8.0 wt.%, Barite - about 0.85 wt.%, Carbonates - about 0.5 wt.%, Saipan - about 0, 13 wt.%, Carboxymethyl cellulose - about 0.04 wt.%, Nitrilotrimethylphosphonic acid - about 0.025 wt.%, Sideril - about 0.07 wt.%. tribos - about 0.07 wt.%, graphite - about 0.14 wt.%, clay powder - about 1.5 wt.%, heavy metals - about 4.5 wt.%, solids - the rest is up to 100%, and having a density of 1.3 kg / dm ³ . In addition, the material contains urea-formaldehyde polystyrene foam with a density of 15 kg / m ³ , produced by the industry under the trade name “Penoizol”, in an amount of 20% of the volume of drill cuttings contained in the form of crumbs; cement grade M-400 D20 (GOST 30515 GOST 22266, GOST 25328) in an amount of 15% of the volume of drill cuttings contained and crushed granite with a particle size of from about 2.7 to about 3.1 mm in an amount of 17% of the volume of drill cuttings .

After 2 days after receiving the material of the specified composition, it is used when arranging deboning of cluster pads and dumping the bases of cluster pads.

Example 3

Building material "Burolit" contains 20 m ^{3 of} drill cuttings having a density of 1.5 kg / dm ³ ; urea-formaldehyde foam produced by the industry under the trade name "penoizol" having a density of 30 kg / m ³ in an amount of 10.0% of the volume of drill cuttings contained; cement grade M-400 D20 (GOST 30515 GOST 22266, GOST 25328) in an amount of 10.0% of the volume of drill cuttings contained; construction sand in an amount of 20.0% of the volume of drill cuttings and calcium chloride in an amount of 2.0% of the mass of drill cuttings.

After 2 days after receiving the material of the specified composition, it is used to strengthen the slopes of infield roads at an ambient temperature of -30 ° C.

Example 4

Building material “Burolit” contains 50 m ^{3 of} drill cuttings having a density of about 1.8 kg / dm ³ , urea-formaldehyde foam produced by the industry under the trade name “penoizol”, having a density of 30 kg / m ³ , in an amount of 25.0% of the mass of drill cuttings contained; cement grade M-400 D20 (GOST 30515 GOST 22266, GOST 25328) in an amount of 20.0% by weight of drill cuttings contained, construction sand in an amount of 10.0% by weight of drill cuttings and calcium chloride in an amount of 2.0% from mass of drill cuttings contained.

After 2 days after receiving the material of the specified composition, it is used to strengthen the slopes of infield roads at an ambient temperature of -30 ° C.

Claims (5)

1. Building material, including drill cuttings, cement and urea-formaldehyde foam, characterized in that it contains drill cuttings with a density of 1.3 to 1.8 kg / dm ³ , urea-formaldehyde foam with a density of 10-30 kg / m ³ in quantity 10-25% of the volume of drill cuttings, cement in an amount of 10-20% of the volume of drill cuttings and additionally a mineral filler with a particle size of 2.7 to 3.1 mm, selected from the group consisting of sand and crushed granite, in an amount of 10 -20% of the volume of drill cuttings. 2. The building material according to claim 1, characterized in that it additionally contains calcium chloride in an amount of 2.0% by weight of drill cuttings. 3. The building material according to claim 1, characterized in that the drill cuttings has the following composition, wt.%: oil products 1,2 water 21.17 clay shales 15,54 highly plastic clay 31.15 sand 14.6 siltstone 8.0 barite 0.85 carbonates 0.5 saipan 0.13 carboxymethyl cellulose 0.04 nitrilotrimethylphosphonic acid 0,025 sideril 0,07 tribos 0,07 graphite 0.14 clay powder 1,5 heavy metals 4,5 mechanical impurities 0.515 4. The building material according to claim 1, characterized in that it contains cement as cement, which is suitable for use at a temperature selected in the range from -30 to + 40 ° C. 5. The building material according to claim 4, characterized in that as the specified cement it contains cement grade M400 D20.