RU2504572C1 - Composite ameliorative material - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: composite material contains drilling wastes, portland cement in amount of 5-10% of the volume of the drilling wastes, technical carbon 0.5-1% of the volume of drilling wastes, quick lime 3-5% of the volume of drilling wastes, peat 20-40% of the volume of drilling wastes, sand 10-30% of the volume of the drilling wastes, phosphorus-containing mineral fertiliser 20-30 kg per ton of the composite material. The phosphorus-containing mineral fertiliser can be diammonium phosphate, ammonium nitrate phosphate fertiliser, ammophos with potassium sulphate or potassium chloride in ratio of 70:30 wt %, diammophos with potassium sulphate or potassium chloride in ratio of 70:30 wt %. The composite material further contains hydrocarbon-based spent or unused drilling fluid with hydrocarbon content of 3-5% of the volume of the drilling wastes.

EFFECT: use of the present composite material provides effective recultivation of disturbed soils while recycling hazardous drilling wastes and improves the environment.

8 cl, 3 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 for the biological reclamation of mineralized and contaminated lands.

Known Composite material is made of a composition comprising drilling waste, sand, cement, quicklime, peat, phosphorus-containing mineral fertilizer (RF Patent No. 2408626, C08L 61/00, С04В 28 / 04.16 / 08, 18/04, Е01С 3 / 04, published January 10, 2011).

The disadvantage of this Composite material is that it remains possible hydrocarbon migration into the environment.

The closest is the composition for the restoration of quarries and disturbed lands, which includes drill cuttings, peat, sand, quicklime and additives (RF Patent No. 2293103, С09К 17/00, А01В 79/02, publ. 02/10/2007, prototype).

The disadvantage of this composition for the restoration of quarries and disturbed lands is that for wastes containing oil and oil products, they use, including sorbent and two bacterial preparations, and the application of quicklime, which is highly hygroscopic, when it is extinguished, it will sharply reduce the titer (amount) of living microbial cells, which are the basis of the preparations "Soyleks" and "Degradoilas", thereby virtually neutralizing the ability of this composition to utilize hydrocarbons. Moreover, bacterial preparations are designed primarily for positive temperatures and high humidity of the substrate. The use of the Unipolymer sorbent, quicklime, peat and sand will significantly reduce the percentage of moisture in the finished mixture, which again will cause a sharp decrease in the effectiveness of hydrocarbon-oxidizing bacterial preparations.

The proposed Composite reclamation material eliminates the above disadvantages, improves the efficiency of reclamation of disturbed lands with the associated safe processing of harmful drilling waste, while also providing for the processing of drilling waste, including oil, oil products, and into artificial soil through which reclamation is carried out, for example dry pits and disturbed lands, with the restoration of topography and soil fertility, the elimination of pits and the restoration of plains the soil layer, in addition, contributes to the utilization of drilling waste, as well as industrial waste, and to the improvement of the environmental situation of oil and gas production areas, the reduction of the use of hydronomy and dry sand, thereby reducing the negative technological impact on landscapes during the development of hydrocarbon deposits, for this, Composite reclamation material includes drilling waste, Portland cement in an amount of 5 to 10% of the volume of drilling waste, industrial carbon in an amount of 0.5 to 1% of the volume of drill waste, quicklime in an amount of 3 to 5% of the volume of drilling waste, peat in an amount of 20 to 40% of the volume of drilling waste, sand in an amount of 10 to 30% of the volume of drilling waste, phosphorus-containing mineral fertilizer in an amount of 20 up to 30 kg per 1 ton of the obtained composite reclamation material. Phosphorus-containing mineral fertilizer is, for example, double diammophosphate, nitroammophos, ammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, Ammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%, Diammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, diammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%, while additionally contains a drilling fluid spent or unused on a hydrocarbon basis with a hydrocarbon content or hydrocarbon based solution ove in an amount of from 3 to 5% of the volume of drilling waste.

Drilling waste includes drill cuttings, drilling wastewater, and the like.

Drill cuttings for the most part contain oil and oil products from 3 to 7%, a solid phase of 40-65% and water.

Drilling waste with a particle size of up to 500 microns and a density of 1.3 to 1.6 t / m3.

Hydrocarbon-based drilling fluids are used spent or unused with a hydrocarbon content of 3 to 5%.

Portland cement, for example, Portland cement M400, is produced by industry in accordance with GOST 4.204-79, 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.

Technical carbon (carbon black) is used as a sorbent and is an industrial waste that is disposed of in this technical solution, in addition, carbon black has sorbing properties similar to the sorbing properties of activated carbon.

Lime (quicklime) according to GOST 4.204-79 is produced by industry and is a powdery product of fine grinding of lump lime. Lime (quicklime) promotes the formation of chelating compounds, which contribute to the formation of complex compounds of organic substances (petroleum organic and fulvic and humic acids contained in peat) with metals, which are also stimulators of growth not only for higher plants, but also for natural carbon-oxidizing microflora of peat (the composition of peatlands of Western Siberia contains up to 10 million living cells of carbon-oxidizing microorganisms per 1 g of peat, which is comparable to the titer of introduced bacterial preparations).

When a given amount of lime is added, the alkalinity of the mixture increases, which contributes to the deoxidation of the peat component, thereby increasing the efficiency of the biological stage of reclamation.

Peat has an acid pH characteristic according to, for example, TU0391-001-02069355-2004, and drilling waste has an alkaline environment. Thus, peat neutralizes 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.

Sand 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 you to increase the friability of the mixture, to avoid excessive curing of the mixture in a continuous monolith and to give the mixture a granular, pasty state.

Phosphorus-containing mineral fertilizer provides a balance of nutrients in the composite reclamation material and is, for example, nitroammophoska, ammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, Ammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%, Diammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, Diammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%.

Nitroammophosk is produced by industry, for example, according to GOST 19691-84.

Double diammophosphate is produced by industry, for example, according to GOST.

Fertilizer diammophos is produced by industry, for example, according to TU 113-08-468-90 and TU 113-08-556-93. Ammophos is produced by industry, for example, according to GOST 18918-85.

Potassium chloride is produced by industry, for example, according to GOST 4568-95, potassium sulfate - K ₂ SO _{4 is} produced by industry, for example, according to GOST 4145-74.

The use in the proposed composite reclamation material of peat and technical carbon in specified quantities allows you to reclaim, for example, oil-contaminated land, quarries and excavations, and use composite reclamation material as a soil for growing vegetation in it, and in this case, peat and technical carbon are sorbed mobile contaminants in the drilling waste, such as oil products, heavy metals, salts, thereby preventing their migration to the soil, and thereby improves the elm bone and quality of the material obtained.

Composite reclamation material is prepared as follows.

Drilling waste is taken in the calculated amount and filled into the tank, after which technical carbon is added into the tank in an amount of 0.5 to 1% of the volume of drilling waste, quicklime in an amount of 3 to 5% of the volume of drilling waste and everything is mixed with a mixer in within 5-15 minutes.

Quenching of lime is carried out with water, which is in drilling waste in sufficient quantities and before making peat, which allows you to keep live native hydrocarbon-oxidizing microflora of peat.

Then peat is poured in an amount of 20 to 40% of the volume of drilling waste, Portland cement in an amount of 5 to 10% 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.

Phosphorus-containing mineral fertilizer is poured into the mixture in an amount of from 20 to 30 kg per 1 ton of the mixture, for example, nitroammophos, ammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, Ammophos with potassium chloride, taken in the ratio 70 wt.%: 30 wt.%, Diammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%, Diammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%, And all this is mixed mixing device for 5-15 minutes.

The drilling fluid is additionally injected with a used or unused hydrocarbon-based drilling fluid with a hydrocarbon content of 3 to 5% of the volume of drilling waste.

The resulting composite reclamation material is transported, for example, by road to a worked-out sand pit, and placed, for example, using an automatic mixer into grooves 0.3 m wide and 0.3 m deep prepared in advance by a two-plow plow.

On the same day, zoned seedlings or seedlings of tree species of woody plants are planted.

The mixing processes are carried out by known means, for example, using 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 reclamation material on objects is carried out by well-known road-building machinery, earthmoving and transporting machines, excavators, dump trucks, milling cutters, loaders, bulldozers, graders, rollers.

As shown by experiments conducted during the work on the Yety-Purovsky oil field, the composite reclamation material obtained allowed the reclamation of oil-contaminated lands.

The proposed composite reclamation material is illustrated by the following examples.

Example 1

Drilled waste in the amount of 600 kg, containing oil and oil products 7%, solid phase 65% and water, industrial carbon in the amount of 6 kg (1% of the volume of drilling waste), quicklime in the amount of 30 kg (5% of volume of drilling waste), and everything is mixed with a mixer for 10 minutes.

After that, peat in the amount of 240 kg (40% of the volume of drilling waste), Portland cement M400 in the amount of 60 kg (10% of the volume of drilling waste) and sand in the amount of 180 kg (30% of the volume of drilling waste) are added to the tank, all ingredients stirred with a mixing device for 15 minutes.

Nitroammophoska is added to the resulting mixture in an amount of 30 kg per 1 ton of the resulting mixture, all this is mixed with a mixing device for 10 minutes, and an unused hydrocarbon-based drilling mud is added in an amount of 3 to 5%. The mixing device is thoroughly mixed for 15 minutes.

The resulting composite reclamation material is transported by automated mixer to a worked out sand pit and placed using an automatic mixer into furrows 0.3 m wide and 0.3 m deep prepared in advance by a two-plow plow. On the same day, regionalized larch seedlings are manually planted on contaminated soils that have been recultivated .

A month later; the survival rate of seedlings was 83%.

Example 2

Drilled waste in the amount of 600 kg is filled in, containing oil and oil products 5%, solid phase 50% and water, industrial carbon in the amount of 3 kg (0.5% of the volume of drilling waste) and quicklime in the amount of 18 kg (3 % of the volume of drilling waste) and mixed with a mixing device for 5 minutes.

After mixing, 120 kg of peat (20% of the volume of drilling waste), sand in an amount of 60 kg (10% of the volume of drilling waste) and Portland cement M400 in an amount of 30 kg (5% of the volume of drilling waste) are added to the tank, all this stirred with a mixing device for 7 minutes.

Ammophos with potassium sulfate, taken in a ratio of 70 wt.%: 30 wt.%, In an amount of 20 kg per 1 ton of the mixture, is added to the resulting material, all this is mixed with a mixing device for 10 minutes.

The resulting composite reclamation material is taken out on an automatic mixer to a worked out sand pit and placed using an automatic mixer in furrows 0.3 m wide and 0.3 m deep prepared in advance by a two-plow plow.

On the same day, regionalized spruce seedlings of spruce are planted manually on contaminated soils that have undergone restoration. After a month, the survival rate of seedlings was 76%.

Example 3

Drilled waste in an amount of 600 kg is filled into the tank, containing oil and oil products 3%, a solid phase of 60% and water, soot in an amount of 4.5 kg (0.75% of the volume of drilling waste), quicklime in an amount of 24 kg (4 % of the volume of drilling waste) and mixed with a mixing device for 5 minutes.

After mixing, peat in the amount of 45 kg (7.5% of the volume of drilling waste), sand in the amount of 120 kg (20% of the volume of drilling waste) and Portland cement M400 in the amount of 90 kg (15% of the volume of drilling waste) are added to the tank , all this is mixed with a mixing device for 7 minutes.

Then, diammophos with potassium chloride is introduced, taken in the ratio of 70 wt.%: 30 wt.%, In the amount of 25 kg per 1 ton of the mixture, and all this is mixed with a mixing device for 10 minutes.

The resulting composite reclamation material is transported by automated mixer to a worked out sand pit and placed using an automatic mixer into furrows 0.3 m wide and 0.3 m deep prepared in advance by a two-plow plow. On the same day, regionalized birch seedlings are planted manually on contaminated soils that have undergone restoration . After a month, the survival rate of seedlings was 89%.

When using Composite reclamation material obtained as a result of the disposal of drilling waste, there was no migration of pollutants from it to the sandy bottom and slope of the quarry, and agrotechnical and phyto-reclamation measures allowed to restore disturbed land, restore fertility and use the land for forestry purposes.

The use of composite reclamation material made it possible to efficiently reclamate dry-pit quarries and disturbed lands, with the restoration of topography and soil fertility, as well as improve the ecological situation of oil and gas production areas, reduce the use of hydro-washed and dry-sand, thereby reducing the negative technological impact on landscapes when developing hydrocarbon deposits.

Claims (8)

1. Composite reclamation material, including drilling waste, industrial carbon in an amount of 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 20 to 40% of the volume drilling waste, sand in an amount of 10 to 30% of the volume of drilling waste, Portland cement in an amount of 5 to 10% of the volume of drilling waste and phosphorus-containing mineral fertilizer in an amount of 20 to 30 kg per 1 ton of obtained composite reclamation material, while quenching lime carry out drilling waste. 2. Composite reclamation material according to claim 1, characterized in that it additionally contains a drilling fluid that is spent or unused on a hydrocarbon basis with a hydrocarbon content of 3 to 5% of the volume of drilling waste. 3. Composite reclamation material according to claim 1, characterized in that the drilling waste is a drilling waste containing oil and oil products in an amount of 3 to 7%. 4. Composite reclamation material according to claim 1, characterized in that the phosphorus-containing mineral fertilizer is nitroammophoska or double diammophosphate. 5. Composite reclamation material according to claim 1, characterized in that the phosphorus-containing mineral fertilizer is ammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%. 6. Composite reclamation material according to claim 1, characterized in that the phosphorus-containing mineral fertilizer is ammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%. 7. Composite reclamation material according to claim 1, characterized in that the phosphorus-containing mineral fertilizer is diammophos with potassium sulfate, taken in the ratio of 70 wt.%: 30 wt.%. 8. The composite reclamation material according to claim 1, characterized in that the phosphorus-containing mineral fertilizer is diammophos with potassium chloride, taken in the ratio of 70 wt.%: 30 wt.%.