RU51538U1 - SITE FOR MICROBIOLOGICAL CLEANING OF OIL SLUDGES AND OIL CONTAMINATED SOIL - Google Patents

Abstract

Usage: soil recovery devices, the design of landfills for microbiological treatment of oil sludge and oil-contaminated soil. SUBSTANCE: creation of a landfill for the biological treatment of oil sludge and oil-contaminated soil on the basis of a complex effect on contaminated soil through microbiological treatment and phyto-reclamation tertiary treatment with constant monitoring of its cleaning throughout the entire process, from storage of oil-contaminated soil and oil sludge to sending the treated soil to meet technical goals or on agricultural land. EFFECT: increased degree of purification of oil-contaminated soil and oil sludge, ensuring a complete cycle of neutralization of contaminated soils with their transformation into a viable soil with a hydrocarbon concentration of less than 0.01%, restoration of ecosystems.

Description

The technical solution relates to devices for the restoration of contaminated soil and can be used in the design of landfills for microbiological treatment of oil sludge and oil-contaminated soil.

Petroleum hydrocarbons are the most common environmental pollutants. Among the well-known methods of purification from oil pollution of soils (mechanical, thermal, physico-chemical, microbiological), microbiological cleaning technology is most natural for natural ecosystems. The microbial oxidation pathway is a natural pathway for the destruction of petroleum products with their subsequent inclusion in the cycle of substances in nature, since the end products of hydrocarbon oxidation are environmentally friendly substances: carbon dioxide and water, and the resulting biomass of microorganisms serves as organic fertilizer.

In recent years, a number of [1-15] new technologies and devices have been patented for waste disposal and for cleaning and restoring oil-contaminated soils: technologies [13-15] for detoxifying oil-contaminated soils using new compositions, adsorbents and degraders of hydrocarbons; technology [10, 12] purification of oil-contaminated soil by mixing with heated water and the introduction of sorbents

on the basis of husks of cereal plants, or by sowing [11] on the contaminated territory of green manure crops; technology [9] for preliminary preparation of sludge for treatment; landfill [6] for waste; devices for cleaning soil from oil products by means of water vapor [5, 8]; waste collection and processing complex [4]; production line [3] for the disposal of domestic and industrial waste; technology of remediation [2, 7] of oil-contaminated soils; technological system [1] for the rehabilitation of oil-contaminated soils.

Thus, well-known complexes [3, 4] for the collection and processing of waste include sites for the accumulation of contaminated soil, units for preparing waste for treatment, units for processing waste (units for cleaning), units for storing treated material. In a number of cases [4], it is envisaged to use a processing section and issue control data on waste disposal.

However, the complexes [3, 4] do not specify the features of technological waste treatment by biological treatment.

The known technology [2, 7] describes a method of microbiological cleaning and remediation of oil-contaminated soils, which can be used in the implementation of a landfill, including a storage hopper of contaminated soil, a technological section of microbiological treatment (biologically active compost), a platform for storing purified soil and means of monitoring cleaning process. At the same time, sections of the landfill are connected by transport lines.

However, technology [2] does not provide for the stage of final post-treatment of oil-contaminated soil (described, for example, in [11] by phyto-reclamation treatment, which limits the possibilities of the landfill [2] for cleaning soil from oil products to their minimum concentration.

The known system (landfill) [1] for the rehabilitation of oil-contaminated soils, taken as a prototype, includes storage hopper located on an open area and interconnected by transportation sections

intended for the cleaning of soils and sludges, a technological section for cleaning, a section for analysis and control of the cleaning process and a site for storing treated soil.

However, as in the device [2], the landfill [1] does not provide phytomeliorative tertiary treatment of the soil remediation worked out during the microbiological stage, which limits the landfill [1 ]'s ability to achieve the minimum concentration of hydrocarbons in the soil and the use of reclaimed soil on agricultural lands. The facility of the landfill cannot provide synergy for the combined use of microbiological and phyto-reclamation treatment of oil and gas contaminated sludge and soils.

The essence of the proposed technical solution is to create a landfill for the biological treatment of oil sludge and oil-contaminated soil on the basis of a complex effect on contaminated soil through microbiological treatment and phyto-reclamation tertiary treatment with adequate primary treatment of contaminated soil.

The main technical result is an increase in the degree of purification of oil-contaminated soil and oil sludge by sequential stepwise aggregate cleaning during microbiological and phytomeliorative soil treatment, as well as constant monitoring of cleaning throughout its entire process, from storage of oil-contaminated soil and oil sludge to sending the treated soil to meet technical goals or on agricultural land. Integrated biological treatment through the synergy of microbiological and phyto-reclamation treatment provides a complete cycle of neutralization of oil-contaminated soils, turning them into a viable soil (with a hydrocarbon concentration of less than 0.01%) and restoration of ecosystems.

The technical result is achieved as follows.

The landfill for microbiological treatment of oil sludge and oil-contaminated soil is made in the form of an open area equipped with transport sections installed in the course of the technological process and sequentially interconnected with a storage hopper for cleaning soils and sludges, a cleaning technological section, a storage area for storing cleaned soil and sludge , as well as a site for analysis and control of the cleaning process.

A distinctive feature of the landfill is that the technological treatment section includes a unit for primary processing of oil-contaminated soil and oil sludge, a node for microbiological treatment and a node for phytomeliorative post-treatment, sequentially located and interconnected by transport lines, and the node for primary processing of oil-contaminated soil and oil sludge is connected by a transport line to the site of clean soil , the microbiological treatment unit is equipped with an associated capacity for the preparation of biological products, microbiological treatment and phyto-reclamation treatment unit are connected by transport lines to the storage site for treated soil and sludge, and the process analysis and control section is connected to the storage hopper intended for cleaning soil and sludge, to the primary processing unit, to the microbiological treatment unit, to the unit phyto-reclamation tertiary treatment, as well as with a platform of clean soil and a capacity for the preparation of biological products.

At the same time, the landfill is characterized in that the storage hopper intended for cleaning soil and sludge is made in the form of an open sludge collector with concrete walls and an anti-filtration clay bottom with a storage height of 0.4-0.8 m.

In addition, the landfill is characterized in that the primary processing unit is made in the form of a unit for mixing oil-contaminated soil and

oil sludge in excess of the concentration of oil products in them more than 300 g / kg with clean soil in a ratio of 1: 1 or 1: 2 and is a flat area, fenced with concrete blocks and equipped with loosening, mixing and moistening of oil-contaminated soil and oil sludge.

The landfill is also distinguished by the fact that the site of microbiological treatment of soil and sludge is made in the form of a site with clay walls and a horizontal base, which has a bunion 0.8-1.0 m high and drainage ditches, and is a site for processing oil-contaminated soil and oil sludges up to reducing hydrocarbon concentrations of less than 30 g / kg by oil-oxidizing microorganisms periodically coming from the tank for preparing a biological product, while the microbiological treatment unit is equipped with loosened technical equipment I, mixing, pouring, and entering into the polluted soil and oil sludge nitrogen-phosphorus fertilizer and / or structuring elements in the form of sawdust, rice or sunflower husks in a ratio of 1: 100.

A distinctive feature of the landfill is also that the phyto-reclamation tertiary treatment unit is made in the form of a flat platform fenced with concrete blocks to a height of 0.7 m, on which oil-resistant and sideral plant crops are sown on the reclaimed soil removed from the microbiological treatment unit, which provide post-treatment of oil-contaminated soil and sludge at the final stage of bioremediation to a decrease in the concentration of oil products less than 1 g / kg

In a specific case, the landfill is characterized in that the treatment analysis and control section contains means for microbiological analysis of oil-contaminated soils and oil sludge, as well as means for constant monitoring of pH and concentration of oil products at each of the treatment units and includes fluorometric, gas-chromatic and IR spectrometric

hardware units for the analysis of hydrocarbon composition during the entire cleaning process.

Moreover, the transport lines between the landfill cleaning nodes include trucks, a bulldozer, an excavator and / or conveyors, and soil or sludge is mixed by an excavator or a tractor with a plow.

All treatment units are equipped with drainage channels and equipped with water collectors for receiving oil-contaminated wastewater, which are used to irrigate the treated sludge and soil.

In special cases of execution, the landfill can be located on the territory of an exhausted quarry or on the territory of an oil producing and oil transporting enterprise, while the treated soil at a hydrocarbon concentration of 1-30 g / kg is returned to the excavation site, used for reclamation of the used quarry, for dumping oil pipelines, for construction and repair work and other technical purposes, and when the concentration of hydrocarbons is not more than 1 g / kg - on agricultural land.

The drawing shows a general structural diagram of a landfill for microbiological treatment of oil sludge and oil-contaminated soil.

The landfill contains a storage hopper 1 intended for cleaning soils and sludges (sludge collector), a cleaning technological section 2, a storage area 3 for storing cleaned soil and sludge, and a cleaning and analysis process control section 4. Technological section 2 includes a node 5 for the primary processing of oil-contaminated soil and oil sludge, a microbiological treatment unit 6, a phyto-reclamation tertiary treatment unit 7, a clean ground area 8 and a container 9 for preparing a biological product.

Microbiological treatment of oil sludge and oil contaminated soil is as follows.

The soil intended for cleaning is placed in the storage hopper 1 of the contaminated soil (sludge collector). From the sludge collector 1, oil-contaminated soils or oil sludges go to the technological treatment area 2: through the transport line using an excavator, a bulldozer and / or conveyors, the soil is transferred in portions to the primary processing unit 5, where, at an oil concentration of more than 300 g / kg, the contaminated soil is mixed with clean, fed from the site 8 of clean soil. Mixing of soil and sludge is carried out by an excavator, a tractor with a plow or other means of cultivation with a volume ratio of contaminated and clean soils of 1: 1 or 1: 2. If necessary, humidified soil is moistened, for which sewage drainage water from the reservoirs with which the treatment areas are equipped is used.

For subsequent cleaning, the soil from the primary processing unit 5 is transported along the transport line to the microbiological treatment unit 6, where it is remediated to reduce the hydrocarbon concentration below 30 g / kg. Bioremediation of oil-contaminated soil and oil sludge is carried out in node 6 by oil-oxidizing microorganisms-decomposers of oil hydrocarbons, periodically coming from the tank 9 for the preparation of a biological product that activates the natural microflora. If it is necessary to additionally activate the treatment, nitrogen-phosphorus fertilizers or structuring elements (sawdust, rice or sunflower husk) are added to the cleaned soil at the rate of 1 ton per 100 ton of oil-contaminated soil, and in dry weather the soil is loosened and irrigated, similar to the technology used in the area 5 primary processing.

When further intensive microbiological cleaning in node 6 becomes economically disadvantageous (which is determined in section 4 of the analysis and control of the cleaning process), the soil from section 6 is transferred to node 7 for phytomeliorative reclamation, where the final

Phytomeliorative reclamation stage - sowing and cultivation of oil-resistant and green manure (hereinafter further smelled into the soil) plants, for example, clover groups that provide the final bioremediation of the soil to reduce the concentration of oil products in the soil to less than 1 g / kg.

The finally cleaned soil in node 7 is placed on the storage site 3 for storing the cleaned soil (the entire cleaning process in sections 5, 6 and 7 takes place within 3-8 months).

Section 4 of the analysis and control of cleaning, containing means of microbiological and chemical analysis of oil-contaminated soils and oil sludges, means of constant monitoring of pH and concentration of oil products (including fluorometric, gas-chromatic and infrared spectrometric blocks of the hydrocarbon composition of the soil) monitors the cleaning process throughout the process from placement in sludge collector 1 before moving to the site 3 for storage of cleaned soil.

All the main treatment units 1, 5, 6, 7 are equipped with drainage channels and are equipped with water collectors for receiving wastewater, which are used to irrigate the treated sludge and soil.

Depending on the specific situation and local conditions, bioremediation sites can be located on the territory of the oil producing and / or oil transporting enterprise (at the pollution site) or at a permanent (stationary) landfill. At the same time, the cleaned soil at a hydrocarbon concentration of 1-30 g / kg is returned to the place of excavation, used for reclamation of the worked quarry, for filling oil pipelines, for construction and repair work and other technical purposes, and at a hydrocarbon concentration of not more than 1 g / kg agricultural lands.

Thus, by phased aggregate treatment of oil-contaminated soils and oil sludges with microbiological and

phyto-reclamation treatment of soils with constant monitoring of cleaning, from storage of oil-contaminated soil to sending the treated soil to meet technical purposes or on agricultural land, an increase in the degree of purification and ensuring a complete cycle of neutralization of oil-contaminated soils, turning them into a viable soil with a hydrocarbon concentration of less than 0.01 % and ecosystem restoration.

As the experience of OOO EKOBIO, the city of Krymsk, Krasnodar Territory together with the Biotechnology Center of the Kuban State University, Krasnodar (territory of the enterprises of OOO NK Rosneft-Krasnodarneftegaz, OAO Rosneft-Termneft, OAO Chernomortransneft, CJSC Caspian Pipeline Consortium and a special landfill in a worked-out quarry near the city of Krymsk), the proposed landfill can ensure the effective return of treated soil to the natural ecosystem up to oil sludge with a 30-80-year-old age.

BACKGROUND OF THE INVENTION

I. Prototype and analogues:

1. RU 36273 U1, 03/10/2004 (prototype).

2. RU 2224604 C1, 02.27.2004 (analogue).

3. RU 2001113001/13 A, 03/10/2004 (analogue).

4. RU 35258 U1, 10.01.2004 (analogue).

II. Additional sources of prior art:

5. RU 2221652 C1, 01.20.2004.

6. RU 2004104796/03 A, 07.20.2005.

7. RU 2002117206/13 A, 02/10/2004.

8. RU 2002120063/15 A, 02.27.2004.

9. RU 2195376 C1, 12/27/2002.

10. RU 2184626 C2, 07/10/2002.

11. RU 2003133391/12 A, 04/27/2005.

12. RU 2003129122/15 A, 04/10/2005.

13. RU 2002129689/13 A, 04/27/2004.

14. RU 2002126650/12 A, 04/10/2004.

15. RU 2175580 C1, 11/10/2001.

Claims (9)

1. A landfill for microbiological treatment of oil sludge and oil-contaminated soil, made in the form of an open area, equipped with transportation sections installed in the course of the technological process and sequentially interconnected by a storage hopper for cleaning soils and sludges, a cleaning technological section, a storage area for storing cleaned soil and sludge, as well as a section for analysis and control of the cleaning process, characterized in that the technological section for cleaning includes there is a primary processing unit for oil-contaminated soil and oil sludge sequentially located and interconnected by transport lines, a microbiological treatment unit and a phyto-reclamation treatment unit, the primary processing unit for oil-contaminated soil and oil sludge is connected by a transport line to a clean soil area, the microbiological treatment unit is equipped with an associated tank for preparation of biological products, microbiological treatment unit and phyto-reclamation treatment unit connected by transport line and with a storage site for cleaned soil and sludge, and the site of analysis and control of the cleaning process is connected with a storage hopper designed for cleaning soils and sludges, with a microbiological treatment unit, with a phyto-reclamation tertiary treatment unit, as well as with a clean soil platform and a preparation tank biological products. 2. The landfill according to claim 1, characterized in that the storage hopper intended for cleaning soil and sludge is made in the form of an open sludge collector with concrete walls and a clay bottom with a storage height of 0.4-0.8 m. 3. The landfill according to claim 1, characterized in that the primary processing unit is made in the form of a unit for mixing oil-contaminated soil and oil sludge when they exceed an oil concentration of more than 300 g / kg with clean soil in a ratio of 1: 1 or 1: 2 and represents a flat area, fenced with concrete blocks and equipped with loosening, mixing and moisturizing oil-contaminated soil and oil sludge. 4. The landfill according to claim 1, characterized in that the site of microbiological treatment of soil and sludge is made in the form of a site with clay walls and a horizontal base, which has an embankment with a height of 0.8-1.0 m and drainage ditches, and is a processing unit of oil-contaminated soil and oil sludge to a decrease in the concentration of hydrocarbons of less than 30 g / kg by oil-oxidizing microorganisms periodically coming from the tank for preparing a biological product, while the microbiological treatment unit is equipped with loosening equipment, remeshivaniya watering and entering into the contaminated soils or oil sludge nitrogen-phosphorus fertilizer and / or structuring elements in the form of sawdust, rice husks or sunflower in a ratio of 1: 100. 5. The landfill according to claim 1, characterized in that the phyto-reclamation tertiary treatment unit is made in the form of a flat platform fenced with concrete blocks to a height of 0.7 m, on which oil-resistant and green manure crops are planted that are moved to the aftertreatment site that has been removed from the microbiological treatment unit oil-contaminated soils and sludges at the final stage of bioremediation to reduce the concentration of oil products less than 1 g / kg 6. The landfill according to claim 1, characterized in that the cleaning analysis and control section contains means for microbiological analysis of oil-contaminated soils and oil sludge, as well as means for continuously monitoring the pH and concentration of oil products at each of the treatment units and includes fluorometric, gas-chromatic and IR spectrometric instruments hydrocarbon composition analysis units during the entire cleaning process. 7. The landfill according to claim 1, characterized in that the transport lines between the landfill cleaning units include trucks, a bulldozer, an excavator and / or conveyors, and the mixing of soil or sludge is carried out by an excavator or tractor with a plow. 8. The landfill according to claim 1, characterized in that all the treatment units are equipped with drainage channels and are equipped with water collectors for receiving oil-contaminated wastewater, which are used to irrigate the treated sludge and soil. 9. The landfill according to claim 1, characterized in that it is located on the territory of an exhausted quarry or on the territory of an oil producing and oil-transporting enterprise, while the treated soil at a hydrocarbon concentration of 1-30 g / kg is returned to the excavation site, used for reclamation of the used quarry , for filling oil pipelines, for construction and repair work and other technical purposes, and with a hydrocarbon concentration of not more than 1 g / kg - on agricultural land.