RU2508170C1 - Method of drilling wastes reclamation - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to oil-and-gas production and reclamation. Proposed method comprises mixing the cuttings, quicklime, peat, cement and sand. Additionally, said cuttings are mixed with industrial carbon and quick lime. Then, obtained mix is mixed with peat, cement and sand. Then, obtained mix is cured for 2-3 days at the following ratio of components, in wt %: cuttings - 40-60, industrial carbon - 2-5, cement - 10-15, sand - 10-15, peat - 15-20, quick lime making the rest.

EFFECT: better decontamination, non-polluting soil suitable for mulching.

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 disposal of oil-containing drill cuttings.

The Known Method of neutralizing oil-containing sludge, comprising mixing natural peat in an amount of 50-70% and Portland cement in an amount of 30-50%, then a mixture of natural peat and Portland cement in a ratio of 1: 1 to the oil-containing drilling mud is added to the oil-containing drill cuttings with continuous or periodic mixing, 25 (RF Patent No. 2120456, C09K 7/00, publ. 20.10.98).

The disadvantage of the above Method is low efficiency in the neutralization of toxic components of drill cuttings due to the lack of a sufficient amount of effective oil-absorbing and oil-neutralizing components and the natural peat used, as a rule, is highly poorly decomposed or transitional with an average degree of decomposition of plant residues, is not effective enough to neutralize toxic components of drill cuttings.

The closest is the method of disposal of drill cuttings, comprising mixing oil-containing drill cuttings, calcium and organic additives, followed by mixing with cement and oxides, in the following ratio, wt.%:

oily drill cuttings - 30-50

urea and / or formaldehyde resin - 2-5

calcium supplements - 2-3

organic additives - 1-10

cement - 3-5

oxides the rest.

(RF patent No. 2323293, E01C 3/04 publ. 04/27/08, prototype).

The disadvantage of the above method is the presence in the prepared mixture of a component in the form of a formaldehyde resin having high toxicity and environmental hazard due to the release of phenolic compounds into the environment.

The proposed method of disposal of drill cuttings eliminates the above disadvantages, increase the degree of neutralization of oil-containing drill cuttings by neutralizing the toxic components of drill cuttings and through the use of non-toxic components, provides the possibility of processing oil-containing drill cuttings into building materials with increased strength, into environmentally friendly soil suitable for compact storage or for use as an ameliorant for mulching section with improved environmental properties, for this it involves mixing drill cuttings with commercial carbon, followed by mixing with quicklime, after which sequential mixing with peat, cement and sand is carried out, then the resulting mixture is kept for 2 or 3 days with the following ratio of components , wt.%:

drill cuttings 40-60

technical carbon 2-5

cement 10-15

sand 10-15

peat 15-20

quicklime rest.

Drill cuttings for the most part contain oil and oil products that contain a solid phase of 40-65%, oil and oil products of not more than 7% and water, and which, after processing, by the proposed method migrate into the environment without polluting the soil.

The drill cuttings to be processed have the following composition% vol .:

drilled rock (clay minerals, sandstone) - 40-50%,

drilling fluid - 30-40%

oil or petroleum products - 5-7%

water the rest.

Technical carbon (soot) is an industrial waste that is disposed of in this technical solution and used as a sorbent with properties similar to the sorbing properties 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.

From a technical point of view, carbon black is a material that is used in almost all industries. It consists mainly of carbon, but always contains impurities of other substances in the form of ash, volatile substances, moisture. The density of pure and large crystals of graphite is 2.23 + 0.01 g / cm ³ . The density of artificial graphite materials ranges from 1.5-2.25 g / cm ³ . The reduced density is explained by incomplete molecular ordering and porosity of graphite.

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

Cement is used as a hardener of the mixture and is, for example, Portland cement, which is produced by industry, for example, according to GOST 4.204-79, GOST 10178-85, and which allows its use in the temperature range from -30 ° C to + 40 ° C, which leads to a thickening of the mixture, the binding of the components of drill cuttings.

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

Peat according to TU 0391-001-02069355-2004.

The use of peat and technical carbon in the proposed Method allows the mixture obtained to be used as soil for the restoration of oil-contaminated lands, quarries and excavations and used as soil for growing vegetation in it, since peat is an organic fertilizer, and industrial carbon is a cheap and affordable sorbent which adsorbs mobile contaminants in drill cuttings, such as petroleum products, heavy metals, salts, thereby preventing their migration to the soil, and due to this to provide neutralization of the toxic effect of cuttings on the soil biota and vegetation.

The proposed Method for the disposal of drill cuttings is as follows.

For this, drill cuttings are taken in an amount of from 40% to 60%, mixed in a container with technical carbon in an amount of from 2% to 5%. Then, quicklime is introduced into this mixture in an amount of 3% to 5% and is mixed with a known mixing device, for example, moving soil mills.

Then add peat in an amount of 15% to 20%, cement in an amount of 10% to 15% and sand in an amount of 10% to 15%. The whole composition is thoroughly mixed for 5-15 minutes.

After mixing all the ingredients, the mixture is kept for 2 or 3 days at the place of preparation.

The resulting mixture is taken out on a motor vehicle, for example, on a dump truck, to a place of location, for example, to a flare embankment, to a road embankment covered with road slabs on a sand cushion, then leveled by a vehicle, for example, an excavator bucket or grader units, and where after 2 -3 days a hard coating in the form of a hard crust is formed on the surface, which prevents the destruction of the sand embankment of the torch, sand slope by water-erosion processes, or is transported to the venue ivatsionnyh excavation, then the vehicle is leveled, forming a mulch layer melirativny recultivated surface portion.

The method of utilization of drill cuttings involves the introduction of quicklime before adding peat, which helps to prevent the death of hydrocarbonaceous natural microfra contained in peat. When quicklime is added, the alkalinity of the mixture increases, which contributes to the deoxidation of the peat component.

As shown by experiments conducted during the performance of work at the Yety-Purovsky field in 2011, technical carbon has significantly reduced the harmful effects on the environment.

At the same time, the high relative surface of carbon technical increases its sorption ability with respect to such pollutants as oil.

The introduction of quicklime leads to a decrease in the influence of clay components of drill cuttings, which reduce the cementing ability.

Peat is capable of slightly absorbing mobile contaminants in drill cuttings, such as petroleum products, heavy metals, salts, thereby preventing their migration to the soil, and thereby reduce the harmful effects on the environment.

Peat also has an acidic pH characteristic, and drill cuttings have an alkaline environment. Thus, peat neutralize the alkaline environment of drill cuttings. 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.

As practice shows, the use of peat in the proposed method allows to reduce the harmful effects on the environment by stimulating the biological oxidation of petroleum products, partial adsorption of toxic components of drill cuttings and as an organic fertilizer during reclamation land works.

Sand allows you to increase the friability of the mixture, to avoid excessive curing of the mixture in a monolithic monolith and give the mixture a granular-paste state.

The mixture resulting from the disposal of drill cuttings is low-flowing, which allows it to be transported in open vehicles without sealing the body and thereby reduce the cost of its transportation and eliminate environmental pollution during its transportation.

The increase in the amount of drill cuttings over 60% in the proposed method leads to a deterioration of the environmental properties of the mixture obtained by the disposal of drill cuttings, and the use of drill cuttings of less than 40% is environmentally and economically disadvantageous.

To implement the proposed Method for the disposal of drill cuttings, well-known technical devices, including transport ones, were used.

The essence of the proposed solution can be illustrated by the following examples.

Example 1

To do this, take an oil-containing drill cuttings containing a solid phase of 55% and oil 7%, in an amount of 60 kg (60%), technical carbon 2 kg (2%) and put into a container, mixing them with a mixing device for 5 minutes.

Then quicklime 3 kg (3%) is added to this mixture and mixed with a mixing device for 10 minutes.

Then peat 15 kg (15%), Portland cement 10 kg (10%) and sand in the amount of 10 kg (10%) are filled in and the composition is mixed with a mixing device for 15 minutes.

After mixing all the ingredients, the mixture is kept for 3 days.

The resulting mixture is taken out on a dump truck to the place of use - to the flare embankment, then leveled with an excavator.

After 3 days, a hard crust forms on the surface, preventing the destruction of the sandy embankment of the torch.

Example 2

To do this, take an oil-containing drill cuttings containing a solid phase of 45% and oil 5%, in an amount of 40 kg (40%), technical carbon 5 kg (5%) and pour into a container, mixing them with a mixing device for 5 minutes.

Then quicklime 5 kg (5%) is added to this mixture and mixed with a mixing device for 15 minutes.

Then, peat 20 kg (20%), Portland cement 15 kg (15%) and sand in the amount of 15 kg (15%) are filled in and the composition is mixed with a mixing device for 10 minutes.

After mixing all the ingredients, the mixture is kept for 3 days.

The resulting mixture is transported on a dump truck to the place of use in the quarry for reclamation, then leveled by a vehicle, such as an excavator.

After 3 days, a reclaimed layer forms on the surface.

Example 3

To do this, take oil-containing drill cuttings containing a solid phase of 45% and oil 5%, in an amount of 50 kg (50%) and technical carbon 3.5 kg (3.5%) are poured into a container and mixed with a mixing device for 9 minutes.

Then, quicklime 4 kg (4%) is added to this mixture and mixed with a mixing device for 10 minutes.

Then peat 17.5 kg (17.5%), Portland cement 12.5 kg (12.5%) and sand in the amount of 12.5 kg (12.5%) are covered with peat and the composition is mixed with a mixing device for 7 minutes.

After mixing all the ingredients, the mixture is kept for 2 days.

The resulting mixture is taken out on a dump truck to the place of use - to the road embankment, covered with road plates on a sand cushion, then leveled by a vehicle, such as an excavator.

After 2 days, a hard crust forms on the surface, preventing the destruction of the sandy slope by water-erosion processes.

During the operation of the mixture resulting from the disposal of drill cuttings, there was no migration of pollutants from it to the soil.

The proposed method of disposal of drill cuttings has allowed to utilize drill cuttings. Recycled by the proposed method, drill cuttings are compatible with the environment, are not subject to erosion and leaching of oil products from it, and are environmentally friendly.

The application of the claimed Method for the disposal of drill cuttings allows the use of neutralized drill cuttings as a secondary raw material, a universal mixture in the form of a building material with increased strength for use in road construction or ameliorant for mulching the reclaimed area with improved environmental properties.

The work carried out according to the claimed Method for the disposal of drill cuttings showed that a universal mixture with an increased degree of neutralization due to the neutralization of toxic components of drill cuttings and through the use of non-toxic components that have improved environmental properties is suitable as a building material with increased strength, as an environmentally friendly soil suitable for compact storage or as an ameliorant suitable for mulching the cultivated area with improved ecological properties.

Claims (1)

A method for utilization of drill cuttings, including mixing drill cuttings, quicklime, peat, cement and sand, characterized in that they further mix drill cuttings with technical carbon, followed by mixing with quicklime, followed by sequential mixing with peat, cement and sand, then the resulting mixture is kept for 2 or 3 days in the following ratio of components, wt.%:
drill cuttings 40-60 carbon technical 2-5 cement 10-15 sand 10-15 peat 15-20 quicklime rest