RU2520145C1 - Man-made peaty soil for reclamation of oil-contaminated and disturbed lands - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: soil-sludge mixture for reclamation of oil-contaminated and disturbed lands contains a mixture obtained by treating a composition consisting of oil sludge, peat, sand and water, with the following ratio of components, wt %: vanadium oxide 32.5; carbon 31.4; aluminium oxide 7.5; silicon oxide 7.5; nitrogen oxide 6.8; iron oxide 5.3; hydrogen 4.4; magnesium oxide 1.5; manganese oxide 0.8; lead oxide 0.4; chromium oxide 0.4; zinc oxide 0.4; nitrogen 0.4; related impurities 0.7. Components of the composition of oil sludge, peat, sand and water are in the following ratio, wt %: oil sludge 30-40%; peat 30-35%; sand 30-35%; water - the balance. The related impurities include a proppant which contains ceramic spheres, a cut of the oil-contaminated soil layer containing crushed stone, and fine wastes of ferrous and nonferrous metals. Treatment involves mixing the composition of oil sludge, peat, sand and water in a hopper of an UZN-1MGZH apparatus.

EFFECT: improving environmental conditions, restoring fertility of oil-contaminated and disturbed lands, higher fertility as a result of enrichment of contaminated soil with oxygen and mineral fertilisers during treatment and reducing oil-contaminated areas.

4 cl, 1 tbl

Description

The invention relates to the protection of the natural environment, in particular to peat soot peat for reclamation of oil-contaminated and disturbed lands, obtained as a result of processing (neutralization) of drilling waste contaminated with oil and oil products of soils, sludge for cleaning pipelines, tanks, and is intended for use in the reclamation of disturbed land during the construction of linear structures and site facilities; the elimination of drilling sludge pits, sludge collectors, oil sludge collectors (making an insulating layer); the creation of a reclamation layer during the reclamation of oil-contaminated lands; securing the embankment and slopes of infield roads, site facilities on the territory of licensed subsoil users; reclamation of quarries of common minerals, ores during open cast mining, overburden dumps to create a fertile soil layer; dumping of peripheral parts of bush bases; dumping of short-term lease territories provided for the period of construction of field development facilities; Strengthening the embankment of boning of cluster sites, sludge barns the device of the bases of roads, pipelines in trenches, the bases of vertical steel tanks (PBC), etc .; shelter and isolation of waste during the reclamation of landfills.

The prior art soil binder and reclamation composition, including mixture products: water; carbohydrate; protein; iron compounds; strong base and fibrous material (US 7005005, 02/28/2006).

Known soil binder and reclamation composition, suitable for application to bare soil to prevent or slow down soil erosion, and includes mixture products: part of the soil binder, necessary for binding soil particles and containing: water; carbohydrate; protein; iron compounds; and a solid base for increasing the solubility of carbohydrates and proteins in water, making the composition a strongly alkaline pH, at least initially; and a part of the soil reclamation of disturbed lands, including: fibrous material containing at least two different types of fibers, one type of fiber that promotes adhesion of the soil composition, and another type of fiber that contribute to the emergence of new sprouted seeds or plants through the fibrous material in soil (US 7021864, 04/04/2006).

A known composition for the remediation of oiled soils, in which finely dispersed sulfur is used as the oil-oxidizing component, activated sludge or organic and adsorbent is added to intensify the biodegradation process, and non-degassed or insufficiently degassed sulfur can be used as the oil-oxidizing component (RU 2009101698, 07.27.2010).

Disadvantages are insufficient decontamination of oil sludge and other contaminants.

The problem to which the proposed invention is directed, is to create a sludge mixture for the restoration of oil-contaminated and disturbed lands, which would eliminate the above disadvantages.

The technical result of the invention is to improve environmental conditions, restore the productivity of oil-contaminated and disturbed lands, increased fertility as a result of enrichment in the treatment of contaminated land with oxygen and mineral fertilizers and, accordingly, reduce oil-contaminated sites.

The specified technical result is achieved in a sludge mixture for the rehabilitation of oil-contaminated and disturbed lands, containing, obtained by processing the composition of oil sludge, peat, sand and water, the mixture in the following ratio of components, wt.%:

Vanadium oxide 32,5 Carbon 31,4 Aluminium oxide 7.5 Silica 7.5 Nitrogen oxide 6.8 Iron oxide 5.3 Hydrogen 4.4 Magnesium oxide 1,5 Manganese Oxide 0.8 Lead oxide 0.4 Chromium oxide 0.4 Zinc oxide 0.4 Nitrogen 0.4 Associated Impurities 0.7

The ratio of the composition of oil sludge, peat, sand and water is, wt.%:

Oil sludge 30-40% Peat 30-35% Sand 30-35% Water rest

Associated impurities include proppant containing ceramic balls, cutting of an oil-contaminated layer of earth containing crushed stone, and small wastes of ferrous and non-ferrous metals, namely alloys of metal, steel, aluminum, copper, brass, lead, zinc, chromium.

Processing includes mixing the composition of oil sludge, peat, sand and water in the bunker of the UZN-1MGZH installation. The sludge mixture for reclamation of oil-contaminated and disturbed lands is a homogeneous soil-like mixture from a fluid-plastic to loose consistency, depending on the moisture content of the feedstock.

Humidity of freshly prepared material is in the range of 40-70%. In the process of production and storage of the mixture, with stirring and exposure to air for 1 to 30 days, the moisture levels out in the stack of the mixture, the material acquires a loose or viscous-plastic consistency. Immediately before installation, the moisture content of the mixture should be brought to values close to optimal during compaction, i.e. from 20 +/- 5% to 40 +/- 10%.

The material delivered to the place of use is laid in structural layers 0.3-0.5 m thick for the reclamation of quarries and a layer of 0.20-0.30 m for the reclamation of disturbed lands.

After laying and distribution in the structural layer, the material is compacted to a compaction factor of at least 0.9 at a depth of 1 m from the ground and at least 0.8 at a laying depth of more than 1 m from the ground.

On a sealed structural layer of this material, laying of higher layers is allowed immediately after its rolling.

The sludge mixture for the restoration of oil-contaminated and disturbed lands contains the composition of oil sludge, peat, sand and water (oil sludge - 30-40%, peat - 30-35%, sand - 30-35%, water obtained by processing in the bunker of the UZN-1MGZH installation) - the rest), the mixture in the following ratio of components, wt.%:

Vanadium oxide 32,5 Carbon 31,4 Aluminium oxide 7.5 Silica 7.5 Nitrogen oxide 6.8 Iron oxide 5.3 Hydrogen 4.4 Magnesium oxide 1,5 Manganese Oxide 0.8 Lead oxide 0.4 Chromium oxide 0.4 Zinc oxide 0.4 Nitrogen 0.4 Associated Impurities 0.7

which includes a proppant containing ceramic balls, a cut of the oil-contaminated layer of the earth containing crushed stone, and small wastes of ferrous and non-ferrous metals, namely alloys of metals of steel, aluminum, copper, brass, lead, zinc, chromium.

In addition to the slurry mixture, small doses of the following types of substances may be contained as an improving additive:

- drugs that accelerate the destruction of petroleum products, and other harmful substances for the environment;

- sorbents, encapsulating preparations, providing binding and inactivation of toxicants;

- fertilizers (mineral, organic), deoxidants that improve the quality of the material during biological reclamation.

Physico-mechanical properties of the sludge mixture

The properties Indicators GOST determination method 1. Humidity 20-40 / 30-50 5180-84 2. The density of the mixture, g / cm ³ , t / m ³ 1.60-2.00 / 1.40-1.60 5180-84 3. The density of dry soil, g / cm ³ , t / m ³ 1.45-1.75 / 1.25-1.50 5180-84 4. The strength of the soil
shear resistance kgf / cm ² (MPa) ≥1.0 (0.1) / - 30416-96 5. The coefficient of compaction 0.80-0.90 / - 5180-84

Oil sludge - wastes from oil production, oil preparation and transportation processes obtained during the cleaning of tank farms of oil pumping stations, which are a difficult to separate mixture of oil products boiling over a wide temperature range, include water, fur. impurities - clay, sand, iron sulfides and more. Intervals of boiling 80% of the mass from 216 to 350 ° C. The water content of -18% of the mass, the content of sand, clay and iron sulfide -10% of the mass. The oil sludge taken from the tank is a black gelatinous paste, which, when heated to 57 ° C, passes into an easily flowing liquid at a density of 0.854 g / cm ³ .

Sand, as a filler for sludge mixtures, in accordance with GOST 25100-95 refers to the following taxometric units:

- Class II - natural dispersed soils.

- Group - incoherent soils.

- Subgroup - sedimentary soils.

- Type - silicate rocks.

- The view is sands.

- Varieties - almost all varieties of sand available in the region can be used.

Peat in the composition of the mixture acts as a filling and sorbing material, binding, degrading oil and other pollutants and preventing their migration to the environment, as well as the role of a humified substrate, which determines the fertility of the mixture, creating optimal conditions for the growth of plants - grasses, shrubs and trees on biological stage of reclamation.

Peat is dispersed, sedimentary, organic soil, formed as a result of natural dying and incomplete decomposition of marsh plants in conditions of high humidity with a lack of oxygen and containing 50% (by weight) and more organic substances.

According to the degree of decomposition, peat can be used from weakly decomposed (less than 20) to highly decomposed (more than 20).

According to the ash content of peat, normal-ash (less than 20) and high-ash (more than 20) can be used.

Peat is extracted from specially prepared quarries, the withdrawal and development technology of which is agreed with the environmental authorities.

The use of peat with an acidic reaction at a pH of at least 3-4 is allowed.

Before the development of the peat deposit section, it is preliminarily drained by dividing the drainage ditches into maps to ensure water flow.

After excavation, peat is stored in a pile at the site for grinding and drying for up to 1 month at a positive temperature by aging, mixing or milling.

Humidity of peat before use in a mixture for reclamation, as a rule, should not exceed 10-15%.

Suitable for use are peat grades A and B:

- brand A corresponds to lowland peat of the grass and wood-grass groups with a degree of decomposition of up to 20% and acidity in pH above 4.5;

- brand B corresponds to peat of the upper, lowland and transitional groups with a degree of decomposition of up to 20% and an acidity of at least 3.

To increase the environmental indicators of oil sludge utilization in reclamation mixtures, it is recommended to use additives of active substances and sorbents that contribute to more complete binding of toxicants and their retention in the material structure, eliminating the residual migratory ability of pollutants and allowing to obtain the IV-V hazard class of the composition.

Such reagents that activate the processes of interaction of cementitious soils and oil sludge components and binders that destroy oil and other hydrocarbons include a number of known substances: lime, crushed peat, sawdust, Rosa preparation, Miksoil oil absorbing sorbent, MIU-S sorbent, aluminosilicate sorbents, biodestructors of hydrocarbons “Soylex”, “Degradoilas”, “Centrin”, encapsulating preparation “Rizol” and others.

The general fertility of the mixture is ensured by the presence of humified plant components in peat soils, as well as by the presence of a number of nutritious organic and mineral compounds in drill cuttings — phosphorus, nitrogen, and potassium compounds. At the same time, when creating a root habitat restoration layer to provide plants with the necessary amount of nutrients, the estimated amount of nutrients and deoxidizer is added to the soil-slurry mixture according to the results of the analysis of the samples.

Waste utilization at the UZG-1MGZh installation (an installation for the utilization of oil-contaminated soils-1MGZh) provides a 99.9% reduction in the concentration of oil products in the oil sludge, and an exhaust gas treatment unit with an irrigation unit used in the installation can minimize harmful emissions into the atmosphere (coefficient purification by suspended solids 97.3%, purification efficiency 88.4%).

The unit operates from an alternating current main with a nominal voltage of 380 V, a frequency of 50 Hz and can be used in the field, powered by a generator or on specially equipped sites.

The installation kit includes:

- loading device for supplying oily waste to the disposal chamber;

- high temperature recycling chamber;

- ejector liquid fuel burner GZH-300;

- fuel tank V 400 dm ³ ;

- unloading device;

- exhaust gas treatment device;

- irrigation unit;

- Remote Control;

- electric drive.

Disposal of waste occurs in a high-temperature chamber, which is a rotating drum mounted on track rollers driven by a gear motor.

The temperature required for the disposal of oily waste is created by burning liquid fuel in an ejector liquid fuel burner, as well as by burning organic compounds in neutralized waste.

Fuel is supplied to the burner by gravity from the fuel tank.

Neutralized waste enters the high-temperature chamber from the storage hopper using a conveyor.

The installation is mounted on a frame having an adjustment device for changing the angle of inclination of the drum along its axis.

The neutralized material is discharged into a removable hopper. Flue gas treatment is carried out in a Cyclone type plant (9) with an irrigation unit.

Starting the installation, bringing it to operating mode and stopping is done from the control panel.

Preparatory work

In the preparatory period, the following work:

- sites for the preparation of mixtures are selected and examined;

- the volumes and sequence of work, the composition, properties and volume of oil sludge waste, the characteristics of soils and additives are determined;

- the composition of the mixtures is selected, their physical and mechanical characteristics and the degree of binding of the polluting components are determined;

- process equipment and access roads are being prepared;

- determined by economic efficiency;

- work is coordinated.

Design of compositions of soil slurry mixtures

Properly selected sludge mixture must comply with the requirements of this regulation and have a V hazard class for the environment.

For use, a composition is adopted that has the required physical and mechanical properties at the highest dosage of oil sludge, and also meets the requirements of the biological stage of reclamation and environmental safety.

If necessary, additional treatment of oil sludge and sludge mixture with active additives is carried out with a specification of their dosage.

Preparation of slurry mixtures

Preparation of the mixture is possible at a specialized landfill, prepared site, in a sludge barn.

The device platform for processing drill cuttings and mixing with peat and sand:

- alignment work, planning the base of the site, soil compaction;

- waterproofing the site by laying a polyethylene film in 2 layers over the base area;

- filling the site with soil at design elevations with a protective layer thickness of at least 0.5 m to the groundwater level;

- the site waterproofing can be provided by the clogging of the pores of the sandy soil with a clay-colloidal phase, which occurs during the work, when the soil surface is impregnated with a suspension, or after mixing in a layer with a thickness of 15-20 cm.

Oil sludge processing into building material - soil sludge mixture:

- transportation of sludge to the place of processing in equipped dump trucks;

- development, loading and transportation of prepared peat and sand or a finished peat-sand mixture;

- unloading the components of the mixture on the working platform with the formation of shafts (when mixing with excavators) or layers (when mixing with cutters).

It is also possible to pre-import soil, prepare and sequentially spread out peat, sand and sludge with a bulldozer in layers of 15-20 cm in lengths of 100 m with a strip width of 2.0 - 2.5 m, followed by mixing the layers with an FBN-2 mill in an aggregate with tractor DT-75B.

Sampling for testing and confirming the suitability of the material for use.

Adding, if necessary, additives to bring the mixture to hazard class 5, giving it the necessary water-physical and agrochemical properties, followed by strip milling.

Collection of the prepared mixture from the grips in the pile-stacks with a bulldozer, storage of the mixture.

The preparation of the mixture in the sludge barn is carried out according to the technology described above with preliminary reinforcement and isolation with a polymer film of the sludge contained in the barn. Mixing the mixture is carried out by an excavator.

Claims (4)

1. A sludge mixture for the restoration of oil-contaminated and disturbed lands, characterized in that it contains a mixture obtained from processing oil sludge, peat, sand and water in the following ratio of components, wt.%:
Vanadium oxide 32,5 Carbon 31,4 Aluminium oxide 7.5 Silica 7.5 Nitrogen oxide 6.8 Iron oxide 5.3 Hydrogen 4.4 Magnesium oxide 1,5 Manganese Oxide 0.8 Lead oxide 0.4 Chromium oxide 0.4 Zinc oxide 0.4 Nitrogen 0.4 Associated Impurities 0.7 2. The mixture according to claim 1, characterized in that the ratio of the composition of oil sludge, peat, sand and water is, wt.%:
Oil sludge 30-40% Peat 30-35% Sand 30-35% Water rest 3. The mixture according to claim 1, characterized in that the accompanying impurities include a proppant containing ceramic balls, a cut of an oil-contaminated layer of earth containing crushed stone, and small waste of ferrous and non-ferrous metals. 4. The mixture according to claim 1, characterized in that the processing includes mixing the composition of oil sludge, peat, sand and water in the bunker of the UZN-1MGZH installation.