RU2503635C1 - Composite building material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: claimed invention relates to composition of composite building material. Composite building material contains drilling waste, cement in quantity from 10 to 20% of drilling waste volume, technical carbon from 0.5 to 1% of drilling waste volume, quick lime in quantity from 3 to 5% of drilling waste volume, peat in quantity form 5 to 10% of drilling waste volume, sand in quantity from 10 to 30% of drilling waste volume, and building material in addition can contain hydrocarbon-based drilling fluid used or unused with content of hydrocarbons in quantity from 10 to 50% of drilling waste volume.

EFFECT: increased degree of environment protection, obtaining ecologically safe building material with increased durability and resistance against wind and water erosion, binding in structure polluting substances, excluding their migration into environment and strengthening slopes of highways, sand bankings of technological areas, for instance, from erosion during downpours and floods, strengthening construction sites, including those with non-homogeneous, and unstable composition of ground.

2 cl, 9 ex

Description

The invention relates to the oil and gas industry, in particular to the field of environmental protection in the development of oil and gas fields and is intended as a building material with increased strength and resistance to wind and water erosion to strengthen the sand slopes of technological objects (roads, flare farms, bases of oil and gas bushes wells, etc.), as well as for the replacement of mineral soils (sand) used when filling the foundations of technological objects (road g, flare systems, bushes base oil and gas wells, etc.).

A known mixture for producing building material containing drill cuttings, sand, peat, quicklime, cement (RF Patent No. 2439018, C04B 28/00, B09B 3/00, C04B 111/20, publ. 10.01.2012).

The disadvantage of the above technical solution is the lack of effective oil-absorbing and oil-neutralizing components in the mixture being prepared, the presence of peat is not enough to effectively neutralize the toxic components of drill cuttings.

The closest is a composite building material, which is made of a composition including drilling waste, sand, cement, quicklime, peat. (RF patent No. 2408626, C08L 61/00, C04B 28/04, C04B 16/08, C04B 18/04, E01C 3/04, publ. 10.01.2011).

The disadvantage of this composite material is the lack of effective oil-sorbing and oil-neutralizing components in the mixture being prepared, the presence of peat is insufficient to effectively neutralize toxic components of drilling waste.

The proposed composite building material allows to eliminate the above disadvantages, as well as to increase the degree of environmental protection when using composite materials obtained on the basis of drilling waste, to obtain an environmentally friendly building material with increased strength and resistance to wind and water erosion, which binds pollutants in its structure substances that exclude their migration into the environment and strengthen the slopes of roads, sandy embankments of technological areas to (areas of boreholes, etc.), for example, from erosion during heavy rains and floods, which strengthens the construction sites, including those with non-uniform and unstable soil composition; to reduce the use of hydro-washed and dry sand, which will reduce the negative technological impact on landscapes during the development of hydrocarbon deposits, for this composite building material includes drilling waste, cement in an amount of 10 to 20% of the volume of drilling waste, technical carbon from 0.5 to 1 % of the volume of drilling waste, quicklime in an amount of 3 to 5% of the volume of drilling waste, peat in an amount of 5 to 10% of the volume of drilling waste, sand in an amount of 10 to 30% of the volume of drilling waste, up to olnitelno comprises drilling fluid hydrocarbon based waste or unused to the content of hydrocarbons in an amount of 10 to 0 5% by volume of the drilling waste.

Drilling waste includes drill cuttings, drilling waste water, etc.

Drill cuttings for the most part contain oil and petroleum products of not more than 7%, a solid phase of 40-65% and water. The solid phase contains particles up to 500 microns in size and has a density of 1, 3 to 1.6 t / m ³ , includes products of cuttings of the face and borehole walls, mechanical impurities in the form of abrasion products of drilling equipment and casing pipes, clay minerals, spent drilling fluid and more. For example, 1 m ³ of waste drilling with 68 kg of organic contaminant, except oil and oil contaminants and mineral nature. According to experts, when drilling a 2600-meter-deep well, the barn contains about 65% water, 30% drill cuttings (cuttings), 5.5% oil, 0.5% bentonite and 0.5% various additives that ensure optimal operation of the drilling rig .

Drilling wastewater contains dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l.

Used and used hydrocarbon-based drilling fluids are additionally used.

Technical carbon (soot) is an industrial waste that, on the one hand, is disposed of in this technical solution and, on the other hand, has sorbing properties similar to those of activated carbon.

Technical carbon (soot) is a product of incomplete combustion or thermal decomposition of various carbon-containing substances (according to GOST 7885-86) and represents carbon (more than 90%) in extremely dispersed form.

Quicklime is produced by industry, for example, according to GOST 4.204-79, and is a powdery product of fine grinding of lump lime, in addition, quicklime contributes to the formation of chilate compounds and is used to accelerate the setting time of the mixture.

Cement is used as a hardener of a mixture and is, for example, Portland cement M400 according to GOST 4.204-79, manufactured by the industry, which allows its use in the temperature range from -30 ° C to + 40 ° C and leads to a thickening of the mixture, binding of components of drilling waste .

Sand is used as a mineral filler of a mixture with a particle size of from 2.7 mm to 3.1 mm.

Peat has an acid pH characteristic, and drilling wastes have an alkaline environment. Thus, peat neutralize the alkaline environment of drilling waste. In addition, peat contains hydrocarbon-oxidizing microorganisms that increase the efficiency of the biological utilization of petroleum hydrocarbons, which contribute to the decomposition of petroleum hydrocarbons and the binding of heavy metals to inactive compounds, for example, chilate ones, and the presence of peat within specified limits reduces the use of hydron-washed and dry sand. Peat according to TU0391-001-02069355-2004.

The use of peat and technical carbon in the proposed composite building material makes it possible to use it as an accessible sorbent that combines mobile contaminants in drilling waste, such as oil products, heavy metals, salts, thereby preventing their migration to the soil, and thereby improves the viscosity and quality of the resulting material, in addition, allows you to additionally reclaim oil-contaminated land, quarries and excavations and use composite building material as soil for growing vegetation in it.

Composite building material is prepared as follows.

Drilling waste is taken in the estimated amount and is poured into the tank.

After that, technical carbon is poured into the tank in an amount of 0.5 to 1% of the volume of drilling waste and quicklime in an amount of 3 to 5% of the volume of drilling waste and everything is mixed with a mixer for 5-15 minutes.

Then, peat is added to the tank in an amount of 5 to 10% of the volume of drilling waste, cement in an amount of 10 to 20% of the volume of drilling waste and sand in an amount of 10 to 30% of the volume of drilling waste, all ingredients are mixed with a mixing device for 5-15 minutes.

Then additionally injected drilling fluid based on hydrocarbon-based waste or unused with a hydrocarbon content in an amount of from 10 to 50% of the volume of drilling waste.

The resulting composite building material is taken out on a vehicle, for example, a dump truck, to objects, for example, a flare embankment, slopes of roads, drilling sites and inside oil fields, embankments of well site bases, construction sites, and level it with a known vehicle, for example, an excavator.

Test reports of the obtained material showed that the obtained composite building material has increased strength and resistance to wind and water erosion, is environmentally friendly with increased rates, while the compressive strength of water-saturated samples corresponds to class 3, increases to 1.3 MPa; tensile strength, when bending water-saturated samples increases to 0.5 MPa; deformability is reduced to 0.5%; frost resistance is at least 75 cycles.

The obtained composite building material provides an increase in the degree of environmental protection due to the binding (encapsulation and sorption) of toxic substances of drilling waste due to peat and carbon, which is confirmed by a decrease in the mortality of hydrobionts (daphnia) in an aqueous extract from samples of the obtained material during biotesting, carried out according to the method in In accordance with the order of the Ministry of Social Development of the Russian Federation dated 06.15.2001 No. 511, it showed a decrease in the hazard class of departure from the 3rd to the 4th and from the 4th to the 5th.

The mixing processes were carried out by known means, various mixing plants, for example, using an excavator, due to the movement of the bucket in the longitudinal or transverse directions. Mixing is carried out until a homogeneous dense mass is obtained. At the same time, clots and pieces of drilling waste are thoroughly ground.

The duration of the mixing process of one batch is 5-15 minutes.

Laying of composite building material at the facilities is carried out by well-known road-building machinery, earth moving vehicles, excavators, dump trucks, loaders, bulldozers, motor graders, milling cutters, rollers.

As shown by experiments carried out in the course of work at the Yety-Purovsky oil field, the material obtained made it possible to recultivate oil-contaminated lands.

The proposed technical solutions can be illustrated by the following examples.

Example 1

Drilling waste containing 50% solid phase in the form of drill cuttings with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , oil and oil products 6%, and water in an amount of 600 kg are poured into the tank soot in the amount of 1% of the volume of drilling waste, quicklime in the amount of 5% of the volume of drilling waste. All mixed with a mixer for 10 minutes.

After that, peat in the amount of 10% of the volume of drilling waste is added to the tank, Portland cement M400 in the amount of 20% of the volume of drilling waste and sand in the amount of 30% of the volume of drilling waste, all ingredients are mixed with a mixing device for 15 minutes.

Then additionally injected or unused drilling fluid with a hydrocarbon base is added with a hydrocarbon content of 10% of the volume of drilling waste.

The resulting composite building material is dumped onto a flare embankment and leveled with an excavator.

After 3 days, a hard crust formed on the surface of the sandy embankment of the torch, which prevents the destruction of the sandy embankment of the torch and has increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class and is equal to 1.1 MPa;

- the tensile strength in bending of water-saturated samples is 0.45 MPa;

- deformability is equal to 0.5%;

- frost resistance is 75 cycles.

- reduction of the hazard class of departure.

Example 2

Drilling waste containing a solid phase of 45% in the form of drill cuttings with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , oil and oil products 7%, and water in an amount of 600 kg are poured into the tank soot in the amount of 0.5% of the volume of drilling waste and quicklime in the amount of 3% of the volume of drilling waste. All mixed with a known mixing device for 7 minutes.

After mixing, peat in the amount of 5% of the volume of drilling waste, sand in the amount of 10% of the volume of drilling waste and Portland cement M400 in the amount of 10% of the volume of drilling waste are added to the tank, all this is mixed with a mixing device for 12 minutes.

The resulting composite building material is dumped onto a flare embankment and leveled with an excavator.

After 2 days, a hard crust formed on the surface of the sandy embankment of the torch, which prevents the destruction of the sandy embankment of the torch and has increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.2 MPa;

- the tensile strength in bending of water-saturated samples is 0.4 MPa;

- deformability is 0.44%;

- frost resistance is 80 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms the reduction of the hazard class.

Example 3

Drilling waste containing a solid phase of 60% in the form of drill cuttings with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , oil, and oil products is poured into the tank. 6.5%, and water in the amount of 600 kg, soot in the amount of 0.75% of the volume of drilling waste, quicklime in the amount of 4% of the volume of drilling waste. All mixed with a known mixing device for 5 minutes.

After mixing, peat in the amount of 7.5% of the volume of drilling waste, sand in the amount of 20% of the volume of drilling waste and Portland cement M 400 in the amount of 15% of the volume of drilling waste are added to the tank, all this is mixed with a mixing device for 10 minutes.

The resulting composite building material is taken out on a dump truck to the road embankment, covered with road plates on a sand cushion and leveled by an excavator.

After 3 days, a hard crust formed on the surface of the sandy slope of the road, preventing the destruction of the sandy slope by water-erosion processes and having increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.3 MPa;

- the tensile strength in bending of water-saturated samples is 0.4 MPa;

- deformability is 0.3%;

- frost resistance is 79 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 4

The tank is filled with drilling waste in the form of drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 500 kg, soot in the amount of 1% of the volume of drilling wastewater, quicklime lime in an amount of 5% of the volume of drilling wastewater and everything is mixed with a mixer for 10 minutes.

After that, peat in the amount of 10% of the volume of drilling wastewater, Portland cement M 400 in the amount of 20% of the volume of drilling wastewater and sand in the amount of 30% of the volume of drilling wastewater are added to the tank. All ingredients are mixed with a mixing device for 12 minutes.

Then they additionally inject the spent or unused drilling fluid with a hydrocarbon base with a hydrocarbon content of 10% of the volume of drilling wastewater.

The resulting composite building material is taken out on a dump truck to the slopes of the road and leveled by an excavator.

After 3 days, a hard crust formed on the surface of the road slopes, preventing the destruction of the road slopes and having increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.14 MPa;

- the tensile strength in bending of water-saturated samples is 0.35 MPa;

- deformability is 0.35%;

- frost resistance is 82 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 5

The tank is filled with drilling waste in the form of drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 500 kg, soot in the amount of 0.5% of the volume of drilling wastewater and quicklime in an amount of 3% of the volume of drilling wastewater and mixed with a known mixing device for 7 minutes.

After mixing, peat in the amount of 5% of the volume of drilling wastewater, sand in the amount of 10% of the volume of drilling wastewater and Portland cement M400 in the amount of 10% of the volume of drilling wastewater are added to the tank, all this is mixed with a mixing device by a mixing device for 12 minutes .

The resulting composite building material is taken out on a dump truck to the embankment of the base of the well site and leveled by an excavator.

After 2 days, a hard crust formed on the surface of the embankment of the base of the well site, preventing the destruction of the embankment of the base of the well site and has increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.3 MPa;

- the tensile strength in bending of water-saturated samples is 0.5 MPa;

- deformability is 0.42%;

- frost resistance is 90 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 6

The tank is filled with drilling waste in the form of drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 500 kg, soot in the amount of 0.75% of the volume of drilling wastewater quicklime in the amount of 4% of the volume of drilling wastewater and stirred with a known mixing device for 5 minutes.

After mixing, peat in the amount of 7.5% of the volume of drilling wastewater, sand in the amount of 20% of the volume of drilling wastewater and Portland cement M 400 in the amount of 15% of the volume of drilling wastewater are added to the tank, all this is mixed with a mixing device for 10 minutes.

The resulting composite building material is taken out on a dump truck to the slopes of the road, covered with road plates on a sand cushion and leveled by an excavator.

After 3 days, a hard crust formed on the surface of the sandy slope of the road, preventing the destruction of the sandy slope by water-erosion processes and having increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.13 MPa;

- the tensile strength in bending of water-saturated samples is 0.41 MPa;

- deformability is 0.39%;

- frost resistance is 85 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 7

Drilling waste is poured into the tank in the form of drill cuttings containing a solid phase of 50% with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , and drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 600 kg, soot in the amount of 1% of the volume of drilling waste, quicklime in the amount of 5% of the volume of drilling waste. All mixed with a mixer for 10 minutes.

After that, peat is added to the tank in an amount of 10% of the volume of drilling waste, Portland cement M400 in an amount of 20% of the volume of drilling waste and sand in an amount of 30% of the volume of drilling waste, all ingredients are mixed with a mixing device for 12 minutes.

Then additionally injected or unused drilling fluid with a hydrocarbon base is added with a hydrocarbon content of 10% of the volume of drilling waste.

The resulting composite building material is dumped onto a construction site and leveled by an excavator.

After 3 days, a hard crust formed on the surface of the construction site, preventing the destruction of the surface of the construction site and having increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.3 MPa;

- the tensile strength in bending of water-saturated samples is 0.5 MPa;

- deformability is 0.42%;

- frost resistance is 95 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 8

Drilling waste is poured into the tank in the form of drill cuttings containing a solid phase of 45% with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , and drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 600 kg, soot in the amount of 0.5% of the volume of drilling waste and quicklime in the amount of 3% of the volume of drilling waste and mixed with a known mixing device for 7 minutes .

After mixing, peat in the amount of 5% of the volume of drilling waste, sand in the amount of 10% of the volume of drilling waste and Portland cement M400 in the amount of 10% of the volume of drilling waste are added to the tank, all this is mixed with a mixing device by a mixing device for 12 minutes.

The resulting composite building material is taken out on a dump truck to the slopes inside the fishing site and leveled by an excavator.

After 2 days, a hard crust formed on the surface of the slopes inside the fishing site, preventing the destruction of the surface of the slopes inside the fishing site and having increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.23 MPa;

- the tensile strength in bending of water-saturated samples is 0.33 MPa;

- deformability is 0.39%;

- frost resistance is 89 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

Example 9

Drilling waste is poured into the tank in the form of drill cuttings containing a solid phase of 65% with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m ³ , and drilling wastewater containing dissolved chemicals, oil and oil products 600 mg / l, barite 2 kg and mechanical impurities 600 mg / l in the amount of 600 kg, soot in the amount of 0.75% of the volume of drilling waste, quicklime in the amount of 4% of the volume of drilling waste and mixed with a known mixing device for 5 minutes .

After mixing, peat in the amount of 7.5% of the volume of drilling waste, sand in the amount of 20% of the volume of drilling waste and Portland cement M 400 in the amount of 15% of the volume of drilling waste are added to the tank, all this is mixed with a mixing device for 10 minutes.

The resulting composite building material is taken out on a dump truck to the road embankment, covered with road plates on a sand cushion, and leveled by an excavator.

After 3 days, a hard crust formed on the surface of the embankment of the road covered with road plates on the sand cushion, preventing the destruction of the surface of the embankment of the road covered with road plates on the sand cushion, water-erosion processes and has increased strength and resistance to wind and water erosion.

The resulting material is environmentally friendly with improved performance:

- the compressive strength of water-saturated samples corresponds to the 3rd class, equal to 1.09 MPa;

- the tensile strength in bending of water-saturated samples is 0.48 MPa;

- deformability is equal to 0.46%;

- frost resistance is 76 cycles.

The resulting composite building material provides an increase in the degree of environmental protection, which confirms a decrease in the hazard class of waste.

For the preparation of composite building material, its transportation, laying, etc., well-known vehicles and equipment are used.

During the operation of the environmentally friendly composite building material, there was no migration of pollutants from it into the soil due to the effective neutralization of toxic components of drilling waste, which allowed to increase the degree of environmental protection.

The use of composite building material made it possible to increase the degree of environmental protection and strengthen construction sites, including those with a uniform and unstable soil composition, strengthen slopes of roads, drilling sites, etc., and prevent the destruction of the sandy slope by water-erosion processes and sand embankment torch environmentally friendly building material with increased strength and resistance to wind and water erosion, which binds pollutants in its structure, exclude s their migration into the environment, as well as possible to carry out the disposal of toxic waste drilling and drilling waste.

Claims (2)

1. Composite building material, including drilling waste, cement in an amount of 10 to 20% of the volume of drilling waste, technical carbon from 0.5 to 1% of the volume of drilling waste, quicklime in an amount of 3 to 5% of the volume of drilling waste , peat in an amount of 5 to 10% of the volume of drilling waste, sand in an amount of 10 to 30% of the volume of drilling waste. 2. Composite building material according to claim 1, characterized in that it further comprises a hydrocarbon-based drilling fluid, spent or unused with a hydrocarbon content of from 10 to 50% of the volume of drilling waste.