RU2646882C2 - Method for ground production in sludge decantation and subsequent reclamation - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method for sludge decantation woth susequesnt reclamation of sludge pits comprises oil extraction from the pit, mud pumping from the pit, and then sludge is neutralized using limestone, then sludge is subjected to stirring in the pit with mineral fertilizers. Further biodestructor is introduced to remove residual oil products content in the ratio 1:1, or coko absorbent in a ratio of 1:0.5, or a composition containing calcium oxide in the amount of 70-75%, and the spent silica in the amount of 25-30%.

EFFECT: obtaining of environmentally safe ground.

2 cl

Description

The invention relates to a method for processing waste and is intended for the processing of various waste arising from the drilling of oil and gas wells, oil production, coal mining, wastewater treatment, and in particular to a method for the treatment of sludge, the elimination of sludge pits during drilling operations.

Known document RU 2162918, publ. 02/10/2001, from which a method for eliminating an earthen barn-accumulator of drilling waste is known, but the known method can be implemented exclusively in a sludge barn.

From document RU 2347629, publ. 02/27/2009, there is a known method for the disposal of drill cuttings, including mixing drill cuttings and peat in the amount of 10-60% by weight of drill cuttings, forming an artificial turf on a designated site or on a slope of the highway, consisting of a reinforcing, multilayer mesh-like base, as well as a mixture of drill cuttings, peat and a mixture of plant seeds.

The disadvantage of this method is the mixing of sludge with peat without removing the contained petroleum products that are necessarily present in the waste, in addition, mixing by this technology takes place directly on the slope of their roads, which is impossible without preliminary engineering and environmental surveys, as well as without the permission of the FS Rosprirodnadzor, because the road is not a specially designated place for carrying out these works.

From document RU 2379137, publ. 01/20/2010, a method for the disposal of waste drill cuttings is known. The method includes dehydration in natural conditions, in which the spent drill cuttings are removed by excavator from the barns to a flat surface, dried in the sun, gypsum is applied to bind and convert readily soluble salts to sparingly soluble forms and to thicken the cuttings, then manure or peat is added to the dried gypsum mass. activated by mineral fertilizers, dry the mass in natural conditions until a moisture content of 8-14% is reached, which leads to a decrease in its volume by 6-8 times, after which the bulldozer is cut m and on soils with a heavy mechanical composition, with a thickness of the underlying layer of at least 15-20 meters, they are again placed in barns and compacted, then they are covered with mineral soil with a layer of 1.5-2.5 m thick, and a fertile layer is poured on top with a layer of 20-40 cm , and in case of soft soils, the neutralized and dried drill cuttings are transported to industrial waste landfills for disposal.

The disadvantage of this method is the dehydration process, which is not carried out on a specially designated territory, which is a violation of the legislation of the Russian Federation, backfilling with mineral soil, a fertile layer without prior removal of the contained oil products that are necessarily present in the waste.

The closest option to the proposed method is described in patent RU 2323293, publ. 04/27/2008, from which the method of disposal of drill cuttings is known. This patent uses the mixing of drill cuttings with pre-foamed and cured urea and / or formaldehyde resin, the additional introduction of calcium-containing and organic additives, followed by mixing with cement and oxides in the following ratio, wt. %: drill cuttings - 30-50; urea and / or formaldehyde resin - 2-5; calcium-containing additives - 2-3; organic additives - 1-10; cement - 3-5; oxides - the rest.

However, only certain components are used to neutralize the sludge, without taking into account the fact that the oil content is retained at the outlet, which is not permissible in accordance with the current legislation in the Russian Federation. In the proposed method, depending on the composition of the waste, it is possible to vary with various reagents in order to achieve the best result in the disposal of oil sludge, which cannot be said about existing disposal technologies.

The technical result of the present invention is the production of environmentally friendly soil suitable for use in various fields, including agriculture.

The technical result is achieved due to the method of obtaining soil during the treatment of sludge with subsequent reclamation, including the extraction of petroleum products from the barn or from the reservoir, which is carried out with subsequent pumping of drilling mud from it, neutralization of the sludge with limestone, after which the sludge in the barn is mixed with mineral fertilizers and a biodestructor is added to remove the residual oil content in a ratio of 1: 1, or coconut absorbent in a ratio of 1: 0.5, or a composition, soda rusting calcium oxide in an amount of 70-75% and spent silica gel in an amount of 25-30%, then the sludge is mixed with activated peat chips and / or sand and / or loam and / or sawdust, after which the resulting mixture is subjected to aeration with subsequent moisturizing.

This technology provides the ability to use two options for the method of disposal of sludge, namely the subsequent reclamation of sludge pits (if the work is carried out during pit drilling) or the method for pitless drilling.

In the first case, after extraction of oil products, the drilling fluid is pumped out of the barn for further use.

After collecting oil products and pumping out the drilling fluid, the sludge is neutralized using limestone.

Reclamation of sludge pits is also ongoing.

With barnless drilling, all the same actions are performed in a special tank (tank).

After all the above actions, the drill cuttings in the barn or in the tank are mixed with Nitroammophos mineral fertilizers or an analogue of similar composition into an aqueous solution prepared in the form of a suspension, which is determined by the process engineer depending on the degree of contamination of the drill cuttings.

Next, the Econaft biodestructor is introduced to remove the residual oil content of 1: 1 or Sheltic coconut absorbent in a ratio of 1: 0.5, or a neutralizing composition is obtained by mixing 70–75% by weight of pre-crushed quicklime (calcium oxide) and spent silica gel - waste gas industry at the stage of drying natural gas, in an amount of 25-30% by weight for 15-20 minutes.

As additional components in the microbiological disposal of drill cuttings, it is possible to use a fermented complex of indigenous oil-oxidizing microorganisms.

- Bacteria Pseudomonas aeruginosa (included in the biological products "Devoroil" and "Simbinal") in the clinical material are regarded as pathogens of medium priority. The P.aeruginosa bacteria are ecologically closely related to human habitats. Their ingestion into water and soil is associated with contamination with human waste products.

- Bacteria Pseudomonas. putida (part of the biological products "Putidul" and "Simbinal") cause inflammatory processes in obstetrics and gynecology. Sporadic cases of inflammatory processes of other organs, single nosocomial (nosocomial) infections are described.

- Bacillus subtilis (part of the biological product "Simbinal") until recently, was regarded as apatogenic microorganisms.

- Yeast-like fungi of the genus Candida (part of the biological product "Devoroil") belong to the group of conditionally pathogenic microorganisms.

- Bacteria of the genus Acinetobacter (part of the biological product "Destroyl") belong to opportunistic microorganisms.

- Bacteria of the genus Citrobacter (part of the biological product "Simbinal") often cause urinary tract infections, gastrointestinal dysfunction in children, and less commonly other diseases.

- Bacteria of the genus Nocardia (are part of the biological product "Simbinal") - conditionally pathogenic microorganisms.

- Mold fungi of the genus Aspergillus (part of the biological product "Simbinal") - cause diseases of the group of mold mycoses.

Next is the mixing process, where the estimated rate of application of cooked and activated peat chips / sand / / loam / sawdust brought into the drill cuttings is on average about 75 m ³ per 0.1 ha of the reclaimed surface at a projective capacity of the created remediation layer of 15- 20 cm

Drill cuttings are subjected to agro-processing - aeration, by loosening the excavator bucket and every 2-3 days moistened (if necessary) to 60-70% of the total soil moisture capacity.

If necessary, the process of rejection of drill cuttings is carried out, which is carried out after extraction of oil products from the surface of the drilling fluid.

One of the priorities in the technology of neutralizing drilling waste is its curing with subsequent disposal in a sludge barn. The neutralizing effect is achieved by converting drilling waste into an inert consolidated mass and binding pollutants in its structure.

Application of the technology of hydrophobization of drill cuttings (imparting water-repellent properties by consolidating its mass and binding to a solid inert mass) by curing drill cuttings eliminates the migration of contaminants outside the body of the cured material (Portland cement, phosphogypsum hemihydrate, magnesia cement and cement provide a high detoxifying effect dolomite flour - the composition of “Dew”) through a layer of the anti-filter screen of the sludge barn. The advantage of the technology for curing drill cuttings is the great ability of the cured mass to withstand the load created by a working technique compared to the technology that does not provide for the curing of drill cuttings, which facilitates the process of further filling and planning the barn. The use of curing technology for drill cuttings is also required in case of detection of migration of pollutants from the slurry barn in violation of the integrity of the anti-filter screen.

The most technologically available, as a curing material is Portland cement or ordinary cement as a building material.

When using the technology for curing drill cuttings, a standard design provides for the use of two schemes for using mineral binders for building materials for curing:

- grouting cement in the form of a product - Portland cement or ordinary cement;

- a curing mixture based on Portland cement with the addition of dolomite flour - the composition of "Dew".

The application of the technology of mechanical decontamination of drill cuttings and the production of technogenic soil is achieved through thorough mixing of drill cuttings, with the uniform application of sandy soil, peat, loam, cement (or other previously prepared technogenic soil, building material obtained by the same disposal) and active additives substances (materials).

The man-made soil ultimately obtained is certified and used in the future both for filling road networks, construction, and for reclamation of the same slurry barns.

In the proposed method, the materials used are safe for the environment, sorbents have the ability to absorb the maximum amount of oil products, deoxidants help normalize the state of the soil cover to a level that allows vegetation to grow on the territory of reclaimed barns and neutralized sludge. Added reagents contribute to the improvement of the soil, while changing its physical properties to safe.

Claims (2)

1. The method of obtaining soil during the disposal of sludge with subsequent reclamation, including the extraction of petroleum products from the barn or from the reservoir, which is followed by pumping out drilling mud from it, neutralizing the sludge with limestone, after which the sludge in the barn is mixed with mineral fertilizers and a biodestructor is introduced to remove residual oil products in a ratio of 1: 1, or coconut absorbent in a ratio of 1: 0.5, or a composition containing calcium oxide in an amount of 70-75% and from y to earn silica in an amount of 25-30%, and oil-oxidizing microorganisms, and then stirring was performed with activated sludge and peat grit sand and loam and sawdust, and the resulting mixture was subjected to aeration followed by moistening. 2. The method of obtaining soil during the disposal of sludge with subsequent reclamation according to claim 1, characterized in that bacteria of the genus Pseudomonas aeruginosa and Pseudomonas are used as oil-oxidizing microorganisms. putida, and Bacillus subtilis, and yeast-like fungi of the genus Candida, and bacteria of the genus Acinetobacter, and bacteria of the genus Citrobacter, and mold fungi of the genus Aspergillus.