RU2601973C1 - Method cleaning oil sludge and oil contaminated soil - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to oil industry, specifically to improvement of ecological condition and reclamation of lands contaminated with oil products, in particular, oil sludge and soil contaminated with oil products (oily soil). Proposed method comprises selection of composition of oil sludge with water content from 0.01 to 99.9 %, adding to oil sludge organic components, formation of porosity of processed material, creation of conditions of penetration of oxygen into material, completion of multicomponent interaction of oil-oxidising microorganisms with structure-variable compost composition, conversion of said composition of oil sludge and oil contaminated soil into high-humus soil. In oil slime organic components added are plant residues, which can be milled above-ground part weeds and crops, straw, chaff, husks, straw manure, peat, spent compost of champignons, active sludge of treatment facilities of industrial enterprises, in which prior to adding to oil sludge or oily soil glauconite or compound mineral-organic granular fertiliser is added based on glauconite in amount of 0.8-1.0 kg per 1 ton of plant residues to boost nourishment and speed up active propagation of soil microflora, primarily hydrocarbon-decomposing microorganisms, closing volume weight of processed oil sludge or oily soil by adding said plant residues in ratio of 1:1, to achieve acidity (pH) of medium less than 8.0, method includes adding to obtained material phosphogypsum in a volume defined by relationship:

, where V_f, V_s respectively denote volume of phosphogypsum and oil sludge, m³; ρ_f, ρ_s respectively denote density of phosphogypsum and oil sludge, kg/m³; pH_f, pH_s respectively denote acidity of phosphogypsum and oil sludge. Then produced mass is laid in piles with height up to 4 m and width of base of up to 7 m, in which is placed in staggered order every 1-1.5 m in horizontal and vertical planes perforated pipes, intended for removal of carbon dioxide, released during biodegradation of hydrocarbons.

EFFECT: use of present invention reduces cost of cleaning oil sludge and soil purification from oil contaminated soil.

1 cl, 1 dwg

Description

The invention relates to the field of the oil industry, and in particular to methods of improving the ecological condition and returning to the economic turnover of lands contaminated with oil products, in particular oil sludge and land contaminated with oil products.

Currently, the problem of cleaning (processing) oil sludge and oil contaminated soil is very relevant.

A known method of processing oil sludge, including adding a natural sorbent to it with a biological product to achieve a given concentration of a pollutant in pounds, using glauconite as a sorbent, and polyculture as a biological product, before adding a sorbent to a soil with a biological product, measures the concentration of a polluting substance, determine the volume of the sorbent, at the border of the penetration of pollution into the soil in the lower part of the contaminated layer is placed a shielding layer of vermicompost, moistening the contaminant After the distribution of the volume of the sorbent with the biological product by effective microorganisms and fermented compost on the surface of the contaminated soil with simultaneous mixing, the concentration of the pollutant is determined in layers, and the number of layers of contaminated soil with a concentration of layer pollution of at least two times different from each other is made at least two, characterized in that in order to maintain a given humidity regime corresponding to the effective operation of microorganisms in the screen a water swelling polymer is introduced into the contaminated soil, and the temperature regime for activating biological processes is maintained by introducing organics into the contaminated soil, and the volume of organic matter in the shielding layer should be at least twice as much as in the contaminated soil (patent RU No. 2528198, IPC B09C 1/10, C12N 1/00, A62D 3/00, publ. 09/10/2014, bull. No. 25).

The disadvantage of this method is its high cost associated with the use of a special water-swelling polymer, the complexity of technological operations, the need for a large amount of manure, the need to perform this technology near livestock farms.

Closest to the proposed invention (prototype) is a method of processing oil sludge and cleaning contaminated soils, containing operations of selecting the composition of oil sludge with a water content of from 0.01 to 99.9%, introducing organic components into the oil sludge, forming porosity of the processed material, creating conditions for penetration into oxygen material, reducing the volume of water, completing the multicomponent relationship of oil-oxidizing microorganisms with a structure-changing compost composition, transforming said composition sludge and contaminated soil in vysokogumusirovanny soils. Moreover, plant residues are introduced into the oil sludge as organic components, which can be ground aboveground parts of weeds and cultivated plants, straw, straw manure, peat, spent champignon compost, biologically active sludge from sewage treatment plants of industrial enterprises, etc., into which introducing into the oil sludge or contaminated soil add chicken droppings or multicomponent mineral fertilizer in the amount of 0.5-1.5 kg per 1 ton of plant residues to enhance nutrition and accelerated active p multiplication of soil microflora, primarily hydrocarbon-decomposing microorganisms, block the bulk of the processed oil sludge or contaminated soil by adding vegetable residues in portions of 75-125%, add lime or gypsum to the resulting material in an amount of up to 1% by weight of oil sludge or soil to achieve a pH of equal to 5.5-8.0, put the resulting mass into heights up to 4 m high and a base width up to 7 m, every 5-10 days for 1-3 months aerate the compost by shifting the bead to create conditions penetration of oxygen into the resulting structure and removal of carbon dioxide released during biodegradation of hydrocarbons (patent RU No. 2376083, IPC B09C 1/10, publ. December 20, 2009 Byul. No. 35).

The disadvantage of this method is the high energy costs associated with the transfer of the collar, the absence of specific humidity values, at which microorganisms work effectively, the introduction of manure and mineral fertilizers in the indicated amounts without preliminary use of ballast does only harm, the oiled soil is not able to turn into a highly humus soil due to biological features of the latter, low aeration efficiency due to the collar configuration indicated in the patent.

An object of the invention is to reduce the cost of cleaning oil sludge and contaminated soil, while reducing the consumption of manure and other components for cleaning, as well as reducing the cost of work due to better aeration.

The problem is solved by the proposed method for cleaning oil sludge and oil-contaminated soil, containing operations of selecting the composition of oil sludge with a water content of from 0.01 to 99.9%, introducing organic components into the oil sludge, forming porosity of the processed material, creating conditions for the penetration of oxygen into the material, completing the multicomponent relationship oil-oxidizing microorganisms with a varying structure of the compost composition, the conversion of the aforementioned composition of oil sludge or oil-contaminated soil into highly humus soil, moreover, plant residues are introduced into the oil sludge or oil-contaminated soil as organic components, which can be ground ground part of weeds and cultivated plants, straw, floor, husk, straw manure, peat, spent champignon compost, activated sludge from sewage treatment plants industrial enterprises in which glauconite or complex mineral-organic granular fertilizer based on glauconite in the amount of 0.8-1.0 is added to the sludge or oil-contaminated soil before entering into oil sludge g per 1 ton of plant residues to enhance nutrition and accelerated active reproduction of soil microflora, primarily hydrocarbon-decomposing microorganisms, cover the bulk of the processed oil sludge or oil contaminated soil by adding these plant residues in a 1: 1 portion to achieve an acidity (pH) of less than 8.0, phosphogypsum is added to the obtained material in a volume determined by the dependence:

,

,

where V _f , V _n - respectively, the volume of phosphogypsum and oil sludge, m ³ ;

ρ _f , ρ _n - respectively, the density of phosphogypsum and sludge, kg / m ³ ;

pH _f , pH _n - respectively, the acidity of phosphogypsum and oil sludge.

Then layer-by-layer the resulting mass is laid in pile up to a height of 4 m and a base width of up to 7 m, in which perforated pipes are designed to remove carbon dioxide released during the biodegradation of hydrocarbons in a checkerboard pattern at intervals of 1-1.5 m in horizontal and vertical planes as well as the addition of oxygen and moisture for better development of microorganisms.

In FIG. 1 shows a general view and a longitudinal section of a collar with installed pipes.

The proposed method for cleaning oil sludge and oil contaminated soil is implemented as follows. Oil sludge or contaminated soil with a moisture content of from 0.01 to 99.9% is mixed in a ratio of about 1: 1 with plant residues, to which glauconite or a complex mineral fertilizer based on glauconite are added in an amount of 0.8-1.0 kg per 1 a ton of plant debris. As plant residues, crushed aboveground parts of weeds and cultivated plants, straw, straw manure, peat, spent compost from mushrooms, biologically active sludge from sewage treatment plants of industrial enterprises are used. As a complex mineral-organic granular fertilizer, fertilizer is used (RF patent No. 2512165, IPC C05G 1/00, publ. 04/10/2014 Bull. No. 10), consisting of enriched glauconite from 70% to 90%, the organic part is mineral fertilizers in aqueous solution - 10-30%. As mineral fertilizers, nitrogen fertilizer (urea), potassium fertilizer (potassium chloride), ammonium nitrate (ammonium nitrate, ammonium nitrate), phosphorus fertilizer (superphosphate), a combination of all of the above substances can be used.

Glauconite or a complex mineral-organic fertilizer serves to enhance nutrition and accelerated active reproduction of soil microflora, primarily hydrocarbon-decomposing microorganisms (actinomycetes). This leads the treated mass to a state of biochemical interaction of microorganisms. Then oil sludge or oil-contaminated soil is mixed, in the resulting composition to bring the acidity necessary for the normal development of microorganisms, pH less than 8.0, phosphogypsum is added in the amount of:

where V _f , V _n - respectively, the volume of phosphogypsum and oil sludge, m ³ ;

ρ _f , ρ _n - respectively, the density of phosphogypsum and sludge, kg / m ³ ;

pH _f , pH _n - respectively, the acidity of phosphogypsum and oil sludge.

After that, the resulting mass is laid in a pile up to 4 meters high and a base width of up to 7 meters. The indicated maximum collar sizes and the amount of glauconite, mineral fertilizers and phosphogypsum added are optimal and established experimentally (a larger amount of phosphogypsum worsens the soil structure and slows the biological activity of microorganisms). The use of phosphogypsum instead of gypsum allows you to reduce the cost of the process of cleaning oil sludge or oil contaminated soil, since its price is several times lower than the price of gypsum.

Dumping of the shoulders is carried out in layers and is accompanied by the installation of perforated pipes in their body (Fig. 1) to ensure aeration of the resulting mass, to remove the products of biodegradation of hydrocarbons (carbon dioxide) and to supply water in order to maintain optimal humidity for the development of microorganisms. Perforated pipes in the transverse plane of the collar are staggered at a distance of 1 to 1.5 m in both horizontal and vertical planes. To ensure aeration in the pipeline, oxygen can be supplied from the compressor station. The presence of a perforated pipeline eliminates the need for relocation of the shoulder every 5-10 days for 1-3 months, as indicated in the prototype.

Maintaining a pH of less than 8.0 is necessary to reduce the aggressive properties of the soil in relation to microflora and create conditions for acidity for its active reproduction. Water generated during biodegradation in the proposed method is used by microflora to maintain vital functions. Thus, a decrease in the volume of water generated during biodegradation occurs due to its assimilation by microorganisms and it is not necessary to artificially increase evaporation. Using aeration, porosity and conditions for the penetration of oxygen into the formed structure are created, completing the multicomponent relationship of oil-oxidizing microorganisms with a compost composition that varies in structure.

The process of cleaning oil sludge or oiled soil is carried out within 1-3 months (depending on weather conditions and temperature). At the end of the specified period (1-3 months), oil sludge or contaminated soil turns into a high-humus soil.

The invention allows to clean oil sludge and contaminated soils with the lowest energy consumption, eliminating the operation associated with the transfer of the pile, to reduce the consumption and cost of the materials used for cleaning, as well as to speed up and improve the quality of cleaning.

Claims (1)

A method for cleaning oil sludge and oil-contaminated soil, comprising the steps of selecting the composition of oil sludge with a water content of from 0.01 to 99.9%, introducing organic components into oil sludge or oil-contaminated soil, forming porosity of the processed material, creating conditions for the penetration of oxygen into the material, completing the multicomponent relationship of oil-oxidizing microorganisms with a varying compost composition, the conversion of the aforementioned composition of oil sludge or oil contaminated soil into a highly humus soil, m in oil sludge or oil-contaminated soil, plant residues are introduced as organic components, which can be crushed aboveground part of weeds and cultivated plants, straw, straw manure, peat, spent compost from champignons, activated sludge from sewage treatment plants of industrial enterprises, into which glauconite or complex mineral-organic granular fertilizer based on glauconite in the amount of 0.8-1.0 kg per 1 ton of plant residues is added to oil sludge or contaminated soil enhancing nutrition and accelerated active propagation of soil microflora, primarily hydrocarbon-decomposing microorganisms, block the bulk of the processed oil sludge or oil-contaminated soil by adding these plant residues in a 1: 1 portion, to achieve an acidity (pH) of less than 8.0, phosphogypsum is added to the resulting material with a volume determined by according to

,
where V _f , V _n - respectively, the volume of phosphogypsum and oil sludge, m ³ ;
ρ _f , ρ _n - respectively, the density of phosphogypsum and sludge, kg / m ³ ;
pH _f , pH _n - respectively the acidity of phosphogypsum and oil sludge,
then layer-by-layer the resulting mass is laid in pile up to a height of 4 m and a base width of up to 7 m, in which perforated pipes are designed to remove carbon dioxide released during the biodegradation of hydrocarbons in a checkerboard pattern at intervals of 1-1.5 m in horizontal and vertical planes as well as the addition of oxygen and moisture for better development of microorganisms.

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