RU2593289C1 - Construction material resoil - Google Patents

Abstract

FIELD: environmental protection; oil and gas industry.

SUBSTANCE: invention relates to protection of natural environment in oil and gas industry and is intended for recycling oily drilling waste in construction, operation and removal of oil and gas wells. Construction material includes drilling wastes, cement in amount of 1 to 15 % of weight of drilling wastes, sand in amount of 10 to 40 % of volume of drilling wastes, diatomite in amount of 0.1 to 5 % of weight of wastes, wherein diatomite is added first, followed by cement and sand.

EFFECT: high degree of environmental protection, strength and resistance to wind and water erosion.

1 cl, 7 ex

Description

The invention relates to the protection of the natural environment in the oil and gas industry and is intended for the disposal of oil-containing drilling waste in the construction, operation and dismantling of oil and gas wells and can be used to neutralize drilling waste by curing (inertization) (spent clay drilling fluids, drilling wastewater and drill cuttings, as well as other sludges) containing oil products, heavy metals, surfactants and other pollutants generated during the construction of oil and gas wells N, disposal in an environmentally safe man-made material for use in construction as a construction material as well as for reclamation and sludge pits formed during the construction of oil and gas wells.

Known building material "BUROLIT", which includes drill cuttings, cement in the amount of 10-20% of the volume of drill cuttings, sand in the amount of 10-20% of the volume of drill cuttings and additives (RF Patent No. 2303011, C04B 16/08, 18/04, 28/04, E01C 3/04, published on July 20, 2007).

The disadvantage of this composition is the low operational capabilities and low strength characteristics.

Closest to the claimed technical solution is Composite building material, which includes drilling waste, cement in an amount of 10 to 20% of the volume of drilling waste, sand in an amount of 10 to 30% of the volume of drilling waste and additives (RF Patent No. 2503635, C04B 11/26, 28/04, B09B 3/00, publ. 01/10/2014, prototype).

The disadvantage of this Composite building material is the absence in the composition of the sorbents necessary to neutralize the organic pollutants contained in drill cuttings (primarily oil hydrocarbons), which affects the toxicity of the material - insufficient reduction of toxicity.

The proposed building material eliminates the above disadvantages, namely, it allows to utilize drilling waste, including oil, oil products, to ensure a high degree of solidification of drilling waste, thereby reducing the negative technological impact on landscapes during the development of hydrocarbon deposits, helping to improve the environmental situation areas of oil and gas production, to ensure the possibility of processing oil-containing drill cuttings into building materials with increased strength ü and resistance to wind and water erosion, in addition, to reduce the toxicity of the resulting composition suitable for phytomelioration, including sludge pits, reduce soil restoration time, reduce soil phytotoxicity, reduce the cost of the composition while increasing environmental protection, saving natural resources and obtaining inexpensive inert safe material, for this Building material includes drilling waste, cement, sand, diatomite, in the following ratio of components:

cement 1-15% by weight of drilling waste sand 10-40% of the volume of drilling waste diatomite 0.1-5% by weight of drilling waste,

in this case, diatomite is first introduced, and then cement and sand.

In the territories of oil producing companies, landfills and sludge collectors occupy large territories, being a source of fire hazardous and environmental pollution.

Oil company waste is oil sludge, drill cuttings, oil sludge, barn oil, drilling waste, drilling wastewater, hydrocarbon-based drilling fluids, spent or unused.

Drilling wastes, including those containing oil, oil products, are oil-contaminated soils, spent clay drilling fluids and drill cuttings, as well as other cuttings containing oil products, heavy metals, surfactants and other pollutants that are generated during the construction of oil and gas wells.

Drilling waste generated in the license areas of oil and gas fields and contained in drilling sludge pits are colloidal solutions of clay particles, sand, chemicals and oil in dissolved, emulsified and free state. The pH value corresponds to an alkaline medium and is usually 8.5-10.5.

Drilling waste generally consists of 40-50% (weight) of cuttings (clay and sand particles); 30-40% of drilling fluid and 20% of produced water and oil.

Drilling waste is a fluid, pasty mass of dark gray with a metallic tint, oily to the touch and smelling of oil.

The density of drilling waste is determined by the density of the drilling fluid and cuttings. For Western Siberia, this is the average value between the density of raw sand and a solution of 1.3-1.6 t / m ³ .

Viscosity (inverse yield property) is 0.1 - 4.5 Pa * s.

The fluidity increases with increasing water content and with poor solution cleaning. Reduced drilling waste loses fluidity and is easily milled into powder.

Studies of the granulometric composition of drilling waste showed that the particle size of drilling waste ranges from 10 to 500 microns, with larger ones corresponding to drill cuttings, and smaller ones to bentonites.

The freezing temperature is from -10 to -14 ° C, the boiling point is from 120 to 140 ° C. An increase in water content narrows these ranges.

Among the chemical elements, oxygen, hydrogen, aluminum, silicon, carbon, iron, calcium, magnesium, manganese, sodium, potassium, chlorine, bromine, iodine predominate. Cadmium, lead, zinc, copper, cobalt, mercury, arsenic, boron, barium, phosphorus, titanium, chromium, nickel, tungsten, and others are found in smaller amounts.

Among chemical compounds, drilling waste contains water (20-50%), oxides: silicon (40-60%), aluminum (10-20%), carbon (7-9%), iron (5-8%), calcium ( 2-5%), magnesium (1.5-3%), sodium (0.5-1%), potassium (0.4-2%), boron (0.3-0.5%), phosphorus ( 0.03-0.05%), manganese (0.03-0.3%) and the other above elements, their sulfates and chlorides.

Drilling waste neutralizes them by the method of curing (inertization), disposing of them in an environmentally friendly technogenic material for use in construction as building material, as well as for the rehabilitation of drill cuttings that are formed during the construction of oil and gas wells, for use as artificial soil, by means of which reclamation is carried out, for example, of sludge pits, dry bore pits and disturbed lands, roadsides with restoration of relief and fertility ochvy, contributing to improve the environmental situation of oil and gas areas.

The technology for processing drilling waste into liquid construction materials, as well as reclamation reclamation soil, is carried out using the claimed composition.

Cement is used as a hardener of the mixture and is, for example, Portland cement ПЦ-400-Д20, manufactured by the industry according to GOST 10178-85, GOST 30515-97, GOST 22266-94. Cement allows its use in the temperature range from -40 ° C to + 40 ° C and leads to a thickening of the mixture, binding of drilling waste components, preventing the dissolution of toxic substances under the influence of environmental components and reducing the contact surface of drilling waste with the environment.

Sand of natural and artificial origin is used as a mineral filler of a mixture with a particle size of from 2.7 mm to 3.1 mm. The use of sand allows to increase the friability of the mixture and the strength properties of the material.

Diatomite, which has great porosity, the ability of the rock to adsorb, and high acid resistance, is a loose, weakly cemented, silty and finely dispersed sorbent in the form of mountain sedimentary siliceous rock, which consists mainly of the remains of various diatoms.

When applied in a given amount, Diatomite provides sand with an additional sorption effect, increasing its absorption capacity, increasing the binding and encapsulating ability of the mixture, thereby increasing the efficiency of neutralization of toxic components of drilling waste (primarily oil).

The use of cement, sand and diatomite in predetermined quantities and in a given sequence allows to improve the quality of the resulting mixture and, as a result, increase the operational capabilities of the claimed material.

At the same time, the declared Building Material acquires increased operational capabilities and increased strength characteristics in a short time.

The use of the declared Building Material as an environmentally friendly technogenic material, namely, in the form of building material in the construction and strengthening of infield roads, road slopes, debris debris for bush and construction sites, foundations of urban garbage dumps and industrial waste, in the construction and restoration of other industrial facilities, which allows you to save roads, for example, from erosion during heavy rains, including those with heterogeneous and unstable soil composition, in addition in the form of mulching material, for example, when landscaping slopes and roadsides of industrial roads, or in the form of artificial soil, for example, for the restoration of sludge storages and sludge pits, makes it possible to free oil fields from oil sludge pits, solid waste dumps, and solid waste dumps, as they are used for this purpose to reclaim the developed quarries of sand and peat, unused industrial sites and other technological facilities, which will significantly improve the ecological and sanitary situation in the field as a whole.

Building material is prepared as follows.

The estimated volume of drilling waste, for example, using an excavator bucket, is added to an isolated volume, for example a sludge barn isolated with a sand lintel, for example, then diatomite is added to this isolated volume with drilling waste in an amount of 0.1-5% of the weight of the drilling waste and carefully mix, for example, with lateral movements of the bucket of the excavator, a given period of time.

Next, cement, for example, Portland cement M400, is added to the resulting mixture in an amount of 1-15% of the weight of the drilling waste and is thoroughly mixed, for example, with the lateral movements of the excavator bucket for a specified period of time. Then, sand is added to the resulting mixture in an amount of 10-40% of the drilling waste volume and thoroughly mixed, for example, by lateral movements of the excavator bucket until a homogeneous mixture is obtained.

The ratios of the components in the claimed material have been established experimentally and vary within the claimed limits depending on the moisture content of drill cuttings included in the drilling waste, on the location of development sites, etc.

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

The resulting mixture in the form of an environmentally friendly (inert) building material is left at the place of preparation in an isolated volume or transported to the place of use with the help of a roller compacted and kept for 1-2 days at an ambient temperature of at least 40 ° C, after which the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and getting a dense solid building structure that does not allow water to pass through.

As shown by experiments (environmental monitoring) carried out during the work on the Vyngapurovskoye oil field, using the declared environmentally friendly building material obtained as a result of the above-mentioned drilling waste disposal, there was no migration of pollutants from it to the soil, while the resulting environmentally friendly Building material less hazardous to the environment than the original drilling waste of hazard class III, with a high degree of environmental protection ayuschey medium, confirming decrease in hazard class composition neutralization - defined hazard class IV (low hazardous waste), has improved operating capability and suitable for use in construction, as well as for phytomelioration sludge pits and other objects.

Laying of building material at the facilities is carried out by well-known road-building machinery, earth moving vehicles, excavators, dump trucks, loaders, bulldozers, graders, milling cutters, rollers at a temperature not lower than minus 40 ° C.

The proposed building material is illustrated by the following examples.

Example 1

Diatomite in the amount of 1,600 kg (5% of the weight of the drilling waste) is added to the isolated volume of the slurry pit 200 m ³ containing drilling waste in an amount of 20 m ³ (5% of the weight of the drilling waste) by the bucket of the excavator for a specified period of time.

Then make Portland cement ПЦ-400-Д20 in the amount of 4800 kg (15% of the weight of drilling waste) and mix with the bucket of the excavator for a predetermined period of time.

Sand is added to the resulting mixture in an amount of 8 m ³ (40% of the volume of drilling waste). The whole mixture is mixed with an excavator bucket until a homogeneous mass is obtained and left in an isolated volume of sludge barn.

After 2 days at an ambient temperature of -30 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and obtaining a dense, solid building structure that does not allow water to pass through. This site can be used as a site for the construction of the facility.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 2

Diatomite in the amount of 24 kg (0.1% of the weight of the drilling waste) is added to the isolated volume of the sludge pit 100 m ³ containing drilling waste in the amount of 15 m ³ and mixed with the bucket of the excavator for a specified period of time. Then make Portland cement ПЦ-400-Д20 in the amount of 240 kg (1% of the weight of drilling waste) and mix the bucket of the excavator.

Sand in 1.5 m ³ (10% of the volume of drilling waste) is added to the resulting mixture. The whole mixture is mixed with an excavator bucket until a homogeneous mass is obtained, transported on a dump truck to the flare embankment and leveled with an excavator.

After 2 days at an ambient temperature equal to -20 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing the destruction of the sand embankment of the torch and getting a dense, solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 3

Diatomite in the amount of 1000 kg (2.5% of the weight of the drilling waste) is added to the isolated volume of the dry pit 300 m ³ containing drilling waste in an amount of 25 m ³ and stirred for a predetermined period of time by the bucket of the excavator. Then make Portland cement ПЦ-400-Д20 in the amount of 3000 kg (7.5% of the weight of the drilling waste) and mix the bucket with an excavator for a predetermined period of time.

To the resulting mixture add sand in an amount of 5 m ³ (20% of the volume of drilling waste).

The entire mixture is mixed with an excavator bucket until a homogeneous mass is obtained and left in a dry mine for use as a site for the construction of an object.

After 1 day at an ambient temperature of -30 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and obtaining a dense, solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 4

Diatomite in the amount of 128 kg (0.1% of the weight of the drilling waste) is added to the isolated volume of the sludge pit of 1000 m ³ containing drilling waste in the amount of 80 m ³ and mixed with the bucket of the excavator for a specified period of time. Then make Portland cement PC-400-D20 in the amount of 1280 kg (1% of the weight of drilling waste) and mix the bucket of the excavator for a predetermined period of time. Sand is added to the resulting mixture in an amount of 32 m ³ (40% of the drilling waste volume). The entire mixture is mixed with an excavator bucket until a homogeneous mass is obtained.

The resulting mixture is left in an isolated volume of sludge pit.

After 2 days at an ambient temperature of -30 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and obtaining a dense, solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 5

Diatomite in the amount of 128 kg (0.1% of the weight of the drilling waste) is added to the isolated volume of the sludge storage facility of 1000 m ³ containing drilling waste in an amount of 80 m ³ and mixed with a bucket of an excavator for a specified period of time. Then make Portland cement PC-400-D20 in an amount of 19,200 kg (15% of the weight of drilling waste) and mix the bucket with an excavator for a specified period of time. Sand is added to the resulting mixture in an amount of 8 m ³ (10% of the volume of drilling waste).

All ingredients are mixed with an excavator bucket until smooth.

The resulting mixture is left in a dry pit, the site is left under the construction site and leveled with an excavator.

After 1 day at an ambient temperature of -25 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and obtaining a dense, solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 6

Diatomite in the amount of 128 kg (0.1% of the weight of the drilling waste) is added to the isolated volume of the sludge pit of 1000 m ³ containing drilling waste in the amount of 80 m ³ and mixed with the bucket of the excavator for a specified period of time. Then make Portland cement PC-400-D20 in an amount of 19,200 kg (15% of the weight of drilling waste) and mix the bucket with an excavator for a specified period of time. Sand is added to the resulting mixture in an amount of 32 m ³ (40% of the drilling waste volume). All ingredients are mixed with an excavator bucket until smooth.

The resulting mixture is left in an isolated volume of sludge pit.

After 2 days at an ambient temperature of -30 ° C, the building material acquires increased strength and resistance to wind and water erosion, preventing destruction and obtaining a dense, solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

Example 7

Diatomite in the amount of 8000 kg (5% of the weight of the drilling waste) is added to the isolated volume of the sludge pit of 1000 m ³ containing drilling waste in an amount of 100 m ³ and mixed with a bucket of an excavator for a specified period of time. Then make Portland cement ПЦ-400-Д20 in the amount of 1600 kg (1% of the weight of the drilling waste) and mix with the bucket of the excavator for a predetermined period of time. Sand in 10 m ³ (10% of the volume of drilling waste) is added to the resulting mixture. All ingredients are mixed with an excavator bucket until smooth.

The resulting mixture 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 2 days at an ambient temperature of -35 ° C, the building material gains increased strength and resistance to wind and water erosion, preventing the destruction of the road embankment and getting a dense solid building structure that does not allow water to pass through.

The obtained RESOIL Construction Material corresponds to hazard class IV (low hazardous waste).

The proposed RESOIL building material allows you to utilize drilling waste, including oil-containing oil products, by obtaining safe man-made material, the use of which allows you to reduce the negative man-caused impact on the development of hydrocarbon deposits on the environment, in addition, reduces its production cost while increasing environmental protection environment and saving of natural resources, and suitable, for example, for road construction, construction of sites, as well as for itomelioratsii sludge pits and other facilities as the recultivation of soil reclamation.

When using environmentally friendly building material resulting from the disposal of drilling waste, there was no migration of pollutants from it to the soil.

The proposed RESOIL Construction Material utilizes drilling waste, including oil-containing, oil products, ensuring a high degree of solidification of drilling waste, thereby reducing the negative environmental impact during the development of hydrocarbon deposits and contributing to the improvement of the environmental situation of oil and gas production areas, making it possible to process oil-containing drill cuttings in the building material, in addition, ensuring a reduction in the toxicity of the resulting composition, suitable including for phytomelioration of sludge pits, reducing soil restoration time, reducing soil phytotoxicity, obtaining inexpensive inert safe building material with increased strength and resistance to wind and water erosion, reinforcing road slopes, sandy embankments of technological sites (well bush sites, etc.) ), for example, from erosion during torrential rains and floods, strengthening construction sites, including those with heterogeneous and unstable soil composition, with low cost at the same time Increasing environmental protection.

Claims (1)

Building material includes drilling waste, cement, sand and an additive, characterized in that it contains diatomite as an additive, in the following ratio of components:
cement 1-15% by weight of drilling waste sand 10-40% of the volume of drilling waste diatomite 0.1-5% by weight of drilling waste,
in this case, diatomite is first introduced, and then cement and sand.