RU2075447C1 - Process line for collecting and processing petroleum slimes and for decontaminating soils - Google Patents

Abstract

FIELD: environment control. SUBSTANCE: process line comprises units 2 and 3, comprising each turnable frame with boom, apparatus for wash-out of bottom deposit, mechanism for controlling wash-out intensity, mechanism for swinging frame and boom, and boom lifting mechanisms. Line comprises units 4 and 8 for separating petroleum slime and bottom deposit. These units comprise each reservoir for receiving and separating petroleum slime by means of water steam. Reservoir is provided with means for admission of water steam and for discharging water-sludge suspension. Units 5 and 6 are intended for cleaning water-sludge suspension and for cultivating biological bacterial strains. They comprise means for introduction of nutritional additives, means for feeding water-sludge suspension, means for supply of compressed air and water steam. Line also comprises unit 11 for complex decontamination of soils with aerobic and anaerobic microorganisms. Unit 11 comprises tank for treatment of mechanical impurities, means for feeding nutritional additives, means for feeding water-sludge suspension together with microorganisms, means for stirring and discharging decontaminated mechanical impurities, and heater. Unit 12 is intended for recovery of resulting biomass and is provided with tank for treatment of soils, means for feeding nutritional additives, stirring means, means for discharging decontaminated soil, apparatus 79 for cultivating colonies of spore organisms, and heater. Line also comprises means for supply of deemulsifying agents. EFFECT: reliable and effective means for environment control at oil fields. 2 dwg

Description

 The invention relates to the field of oil refining industry and, in particular, to installations for oil sludge processing and soil neutralization.

Known treatment of oil sludge using alluvial filters, devices for treating sludge with a hydrocarbon solvent and water vapor [1]
A well-known installation of the Swedish company Alfa Laval [2] for the treatment of oil sludge, the main purpose of which is the separation of refined oil from a fresh trap oil product.

 Known equipment for wastewater [3] and equipment for processing soil and sludge [4] This equipment allows for the processing of waste by aerobic microorganisms at a humidity of 80%. The equipment used for cleaning aqueous suspension allows you to effectively work with only one type of soil with sand and does not allow to remove suspended particles of silt. Upon completion of the treatment, the entire mass of accumulated microorganisms together with the sand is brought to nature, creating a danger to it and causing damage to the environment.

 A known line [5,6] containing installations for the collection, separation, processing of oil sludge in which pumps, intake devices, sedimentation tanks, filters, heaters, a centrifuge, separators, devices for feeding demulsifiers are installed, adopted as a prototype [6] The disadvantage of this line is that the neutralization of oiled mechanical impurities is carried out on the installation of thermal neutralization. The manufacture and installation of a thermal decontamination unit requires large capital costs and is carried out in a stationary version due to the significant overall dimensions of the equipment. The collection of bottom sediment of large sludge collectors is difficult and is associated with the presence of a large number of flexible hoses for air supply to the pump, intake device and removal of the collected sediment from the pump.

 The aim of the invention is to ensure the collection of bottom sediment of large sludge collectors, increase the degree of purification of oil products and water obtained during the processing of oil sludge, ensure the neutralization of sludge, reduce capital costs for the construction of the line, increase the degree of neutralization of waste, soil, reduce possible imbalance in the bioflora from the effects of excreted microorganisms , the number of which is millions of times higher than the natural background.

 This goal is achieved by the fact that the line containing installations for the collection, separation, processing of oil sludge in which pumps, intake devices, heat traps, coarse and fine filters are installed, mixers, a hydrocyclone, a centrifuge, separators, devices for supplying demulsifiers, according to the invention, is equipped with an installation collecting and pumping bottom sediment, an installation for the purification of water-silt suspension and cultivation of biological strains, an installation for complex soil treatment with aerobic and anaerobic microorganisms , a biomass utilization installation, and a sludge and bottom sediment separation unit is equipped with a device for discharging a sludge suspension, while the bottom sediment collection and pumping unit is equipped with a rotary frame with an arrow of varying geometry, a sediment erosion device with water and a mechanism for regulating erosion intensity, and swivel frame mounted rotation mechanisms, boom lifting and collecting pump, pumping bottom sediment, installation of water-silt slurry treatment and biological cultivation their strains are equipped with devices for introducing nutrient additives, a capacity for processing water-silt suspension, cultivation of biological strains, which is equipped with devices for introducing water-silt suspension, introducing water vapor, introducing compressed air, removing purified water and removing water-silt suspension together with microorganisms, installation complex soil treatment with aerobic and anaerobic microorganisms equipped with input devices for nutritional supplements, soil treatment capacity, which is equipped with soil receiving devices, introducing a sludge-water suspension with microorganisms, introducing compressed air, mixing and removing soils, the biomass utilization unit is equipped with devices for introducing nutrient additives, a soil treatment tank, which is equipped with devices for receiving soils, removing flexible biomass, mixing and removing neutralized soils.

 Supply of the line with a unit for collecting and pumping bottom sediment, a unit for cleaning water-sludge suspension and cultivation of biological strains, a unit for complex soil treatment with aerobic and anaerobic microorganisms, a plant for decomposing biomass, a separation unit for oil sludge and bottom sediment with devices for removing water-sludge suspension allows collecting bottom water sedimentation of large sludge collectors, to increase the degree of purification of oil products and water obtained during the processing of oil sludge, to ensure neutralizing of the sludge, increasing the degree of neutralization of solids (soils), eliminate an imbalance bioflora outputted from exposure of microorganisms, the number of which is a million times greater than the natural background, reduce the capital cost of construction of the line. Thus, we can conclude that there is a causal relationship between the totality of the essential features and the technical effect listed above.

 The proposed line for the collection, processing of oil sludge and soil neutralization is shown in the drawings, where in Fig.1 a block diagram of the line, in Fig.2 a General view of the line.

 The line consists of the following units: T04.01.-1 oil sludge collection and pumping unit, T04.02 bottom sediment collection and pumping unit. -2, installation of collecting and pumping bottom sediment T04.03.-3, installation of separation of oil sludge and bottom sediment T05.01.-4, installation of purification of water-silt suspension and cultivation of biological strains (T05.03.-5), installation of separation sludge and bottom sediment T05.01.-6, installation for cleaning water-sludge suspension and cultivation of biological strains T09.03.-7, installation for washing soil T08.01.-8, installation for cleaning oil sludge T06.01.-9, installation for refined petroleum products and water T07.01.-10, installation of complex soil treatment with aerobic and anaerobic microorganisms T09.01. -11, biomass utilization unit T09.02.-12.

 The line includes auxiliary equipment: receiving hopper 13, conveyor 14, unloading hopper 15, heat settler 16.

 The oil sludge collection and pumping unit T04.01.-1 provides for the collection, pulling of oil sludge, grinding of oil sludge clots, grass, branches and pumping of oil sludge. The installation T04.01 contains a pump 17, a pick-up grinder 18, a guard 19, a two-side combined winch 20, coils for laying the fence 21, 22.

 The installation of collecting and pumping bottom sediment T04.02.-2 provides for the collection of bottom sediment, grinding clots of oil sludge, garbage and pumping bottom sediment. Installation T04.02. contains a pump 23, the intake-grinder 24.

 The installation for collecting and pumping bottom sediment T04.03.-3 provides for the collection of bottom sediment, washing out the bottom sediment with water and pumping the bottom sediment. Installation T04.03. contains a pump 25, a rotary frame with an arrow 26, a device for erosion of the bottom sediment with a mechanism for controlling the intensity of erosion 27, a device for collecting bottom sediment 28, a mechanism for rotating the frame with an arrow 29, lifting mechanisms of the boom 30, 31.

The installation of separation of oil sludge and bottom sediment T05.01.-4,6 provides the separation and removal of large mechanical impurities larger than 10 mm, heating the oil sludge and bottom sediment to a temperature of 45-50 ^o C, washing demulsifier and steam sand, water separation, conclusion mechanical impurities (soil), oil and water phases, water-silt suspension. Installation T05.01. comprises a demulsifier supply device 32, a self-cleaning filter 33, a tank for receiving and separating oil sludge 34, with a conveyor for outputting mechanical impurities 35, and pumps 36, 37. The tank 34 is equipped with internal devices for separating and outputting the oil and water phases (not shown in the drawing), devices input steam 38, output water-sludge suspension 39.

 The installation for the purification of water-sludge suspension and cultivation of biological strains T09.03.-5.7 provides the reception of water-sludge suspension, purification of water, sludge, the cultivation of microorganisms, the withdrawal of purified water and purified water-sludge suspension together with the grown microorganisms. Installation T09.03. contains the capacity for processing water-sludge suspension and growing biological strains 40, input devices of nutrient additives 41, 42. Capacity 40 is equipped with internal devices for cleaning water-sludge suspension (not shown in the drawing), devices for introducing water-sludge suspension 43, input of compressed air 44 water inlet 45, withdrawal of purified water 46 and withdrawal of the purified sludge suspension together with the grown microorganisms 47.

 Installation of soil washing T08.01.-8 provides the washing of oiled mechanical impurities from oil products with solvent and water vapor. Installation T08.01. contains a combined device 48 for receiving, mixing, washing the oiled mechanical impurities with a solvent, a solvent input device 49, a water vapor input device 50, a mechanical impurities washing tank 51 with a conveyor 52 for unloading the washed mechanical impurities.

Installation of oil sludge treatment Т06.01.-9 provides heating of oil sludge to a temperature of 75-80 ^o C, separation, washing and removal of mechanical impurities. Installation T06.01. contains a demulsifier feed device 53, 54, a heater-mixer 55, a centrifuge 56, a deaerator 57, a pump 58 and a filter 59.60.

The installation for the production of refined petroleum products and water T07.01.-10 ensures the heating of oil sludge to a temperature of 90-98 ^o C, separation into refined petroleum products and water, as well as the purification of petroleum products and water from mechanical impurities. Installation T07.01. contains a heater-mixer 61, separators 62, 63, a capacity for receiving and separating periodic "shots" of separators 64 with a conveyor 65 for unloading mechanical impurities.

 Installation of complex soil cleaning with aerobic and anaerobic microorganisms T09.01.-11 provides a comprehensive cleaning of water-silt suspension and mechanical impurities from complex hydrocarbon compounds, phenols and other harmful compounds using aerobic and anaerobic microorganisms. Installation T09.01. contains a container 66 for processing mechanical impurities and a device 67, 68 input nutrient additives. The tank 66 is equipped with a device 69 for receiving mechanical impurities, a device 70 for introducing a water-silt suspension together with microorganisms, a device 71 for introducing compressed air, a device 72 for mixing and unloading purified mechanical impurities together with microorganisms and a heater 73.

 The biomass utilization unit T09.02-12 provides for the decomposition of biomass, including those accumulated in the previous stages of purification of microorganisms, into carbon dioxide and water, and also additionally allows the separation of heavy metals. The decomposition of biomass is carried out by spore microorganisms (fungi). Installation T09.02 contains a capacity 74 of the reception, processing of mechanical impurities, biomass and device 75, 76 input nutrient additives. Capacity 74 is equipped with a device 77 for receiving mechanical impurities, biomass, a device 78 for mixing and unloading purified mechanical impurities, a device 79 for outputting colonies of spore bodies and a heater 80.

 The receiving hopper T18.02-13 (see figure 1) provides the reception of mechanical impurities (soil) from plants 4, 8, 9, 10 and their supply to the conveyor 14.

 The conveyor T18 / 03-14 provides transportation of mechanical impurities (soil) from the receiving hopper 13 to the installation 11.

 Thermal sump 16 provides additional purification of oil due to a longer sludge sludge settling time than installation 4.

 Unloading hopper 15 provides reception of mechanical impurities (soil) from plants 9, 10. Mechanical impurities (soil) together with the hopper are transported by a loader to the receiving hopper 13. Unloading hopper 15 unloads mechanical impurities (soil) into the receiving hopper 13.

 The line works as follows.

 A fence 19 is laid out on the surface of the sludge collector, both ends of which are fixed on a double-sided combined winch 20. Depending on the wind load, the winch 20 extends the right or left, or both ends of the fence, which are placed on coils 21, 22, as a result, an oil sludge is created inside the enclosed area load on the upper layers of oil sludge. Oil sludge is taken and pumped by pump 17, on the suction pipe of which there is a pick-up grinder 18 for grinding clots of oil sludge, grass, branches and other garbage.

 The collected oil sludge is pumped to pump 4 by device 17. A device 32 is used to supply a demulsifier to the oil sludge stream, oil sludge enters the self-cleaning filter 33, and large particles that are trapped are removed from the filter into a container for collecting mechanical impurities. The filtrate from the filter 33 enters the tank 34.

Through the device 38, water vapor is supplied to the tank 34, which heats the oil sludge to a temperature of 50 ^o C, increasing the activity of the demulsifier, and also washing mechanical impurities. Under the influence of a demulsifier and water vapor, oil emulsions are destroyed and oiled mechanical impurities (soils) are washed off. The tank 34 is equipped with internal devices (not shown in the drawing), due to which the separation of oil sludge into oil, water phases and mechanical impurities is ensured. The oil and water phases are pumped out by pumps 36, 37. The tank 34 is equipped with a device for controlling the level of extraction of the water phase (not shown in the drawing), with which the installation provides high rates of oil sludge purification with a low oil content and a large one. Using the device 39, a sludge-water suspension (small mechanical particles, sludge together with the aqueous phase) is discharged from the tank 34, which is pumped out by the device 43 and supplied to the tank 40. Compressed air is supplied to the tank 40 through the device 44 and water vapor is supplied through the device 45 , the temperature is maintained at 30 ^o C. in the container. An initial portion of microorganisms is loaded into the container 40 through the hatch (not shown in the drawing). Getting into favorable conditions (the presence of a nutrient medium, plentiful aeration, optimal temperature), microorganisms begin to develop and multiply intensively. With insufficiently plentiful food, nutritional supplements are supplied to capacity 40 by devices 41, 42. Thus, in the tank 40 there is a huge number of strong, healthy microorganisms. The purified water from the tank 40 is discharged by the device 46 and sent to the erosion of the bottom sediment in the sludge collector.

 The aqueous phase pumped out by the pump 37 is directed to the erosion of the bottom sediment into the sludge collector.

 Depending on the degree and type of pollution of the treated medium, there may be several plants 5 (for growing various types of biological strains).

The oil phase withdrawn from the tank 34 is pumped by a pump 36 to a heat sump 16, in which at a temperature of 70 ^° C it is finally cleaned with additional sludge. As a result, we get refined oil product.

 The bottom sediment eroded by water is collected by the pump 23, on the suction pipe of which there is an intake-grinder 24.

 The bottom sediment is washed out by the device 27 of the installation 3 with water, the direction and intensity of the erosion are regulated. The washed bottom sediment through the device 28 by the pump 25 is collected and fed to the subsequent processing. Using the rotary frame 26, a change in the zone of sampling of the bottom sediment is carried out, and by mechanisms 30, 31 the geometry of the boom and the level (depth) of sampling of the bottom sediment are changed.

 The bottom sediment is sent to installation 6, which performs the functions similar to installation 4. The aqueous phase from installation 6 is also sent to the installation for the purification of water-silt suspension and cultivation of biological strains 7. Depending on the degree and type of contamination of the treated medium, installations 7 can have several ( for growing various types of biological strains).

The oil phase from unit 6 is sent to unit 9. To ensure a high degree of purification when working with oil sludge with a shelf life of 10 years or more, the oil phases from units 4, 6 can be combined and sent for processing to a common stream. A demulsifier is supplied to the sludge stream by a device 53, the sludge enters a heater-mixer 55, in which it is heated with steam to a temperature of 80 ^o C, and is fed to a centrifuge 56. Under the influence of centrifugal forces in combination with the effect of a demulsifier and a temperature, the sludge is cleaned of mechanical impurities, which are removed from the centrifuge to the unloading hopper 15. The centrate (cleaned of oil sludge from mechanical impurities) enters the deaerator 57, is freed from foam, air and is pumped to filters 59, 60 by the pump 58, and is cleaned of with a size of more than 0.5 mm and is sent to the installation 10. A demulsifier is supplied to the suction line of the pump 58 by the device 54.

At the installation 10, the oil sludge is heated to a temperature of 95 ^o C in the preheater-mixer 61 and separated in a centrifugal separator 62. Under the influence of a demulsifier, temperature and centrifugal forces, the most stable oil emulsions are divided and finely dispersed mechanical particles are separated. The separator 62 removes pure oil, water and periodically on command - mechanical impurities together with part of the aqueous phase. Pure oil product is removed from the installation as a finished product, and water is re-separated in the separator 63 to obtain pure water. Periodically removed from the separators 62, 63 "shootings" (mechanical impurities with water) are collected in a tank 64, in which mechanical impurities are deposited, and conveyor 65 are discharged into the unloading hopper 15.

 The mechanical impurities from the installation 6 are conveyed by conveyor 35 to the combined device 48, in which they are washed with the solvent supplied by the device 49. The mechanical impurities washed with the solvent are discharged into the container 51, into the lower part of which water vapor is introduced through the device 50. Mechanical impurities are washed with water vapor and the conveyor 52 from the lower level of the tank 51 is removed from the installation.

Mechanical impurities from units 4, 8, 9, and 10 are combined and fed into a receiving hopper 13, from which conveyor 14 is fed to unit 11 into a container 66 through a device 69. A water-sludge suspension is supplied to a container 66 through a device 70 from plants 5 or 7 together with grown microorganisms. Nutrient additives are supplied to container 66 by devices 67, 68, and compressed air is supplied to device 71. The heater 73 in the vessel 66 maintains a temperature of 30 ^o C. During the cleaning process and upon completion, its mechanical impurities are mixed and discharged by the device 72. At the end of the cleaning cycle with aerobic microorganisms, the compressed air supply is turned off and the mechanical impurities (soil) are cleaned under anaerobic conditions, while introduces a portion of anaerobic microorganisms.

 The purified mechanical impurities together with the dead aerobic and anaerobic microorganisms are unloaded by the device 72 through the device 77 into the container 74 of the installation 12. Nutrient additives are fed into the container 74 by devices 75, 76 and loaded through the hatch (not shown) the initial phase of spore microorganisms (fungi), which decompose stored aerobic and anaerobic microorganisms into carbon dioxide and water. Periodically, the device 78 mechanical impurities together with the biomass are mixed. Upon completion of the biomass utilization process, the neutralized mechanical impurities are discharged into the environment by device 78. When unloading the neutralized mechanical impurities by the device 79, colonies of spore bodies are separated, which are dried and sent for further processing to separate individual accumulated elements from them.

Claims (1)

 A line for the collection, processing of oil sludge and soil neutralization, containing installations for the collection, separation, processing of oil sludge in which pumps, intake devices, heat traps, coarse and fine filters, mixers, a hydrocyclone, a centrifuge, separators, devices for feeding demulsifiers are mounted, characterized the fact that the line is equipped with a unit for collecting and pumping bottom sediment, a unit for cleaning water-sludge suspension and cultivation of biological strains, a unit for comprehensive cleaning of aerobic soils and anaerobic microorganisms, a biomass recovery unit, and the oil sludge and bottom sediment separation unit is equipped with a device for discharging a sludge suspension, while the bottom sediment collection and pumping unit is equipped with a swing frame with a variable geometry boom, a water sediment erosion device with an intensity control mechanism erosion, and on the rotary frame mounted rotation mechanisms, boom lifting and collection pump, pumping bottom sediment, installation of cleaning water-silt slurry The cultivation and cultivation of biological strains is equipped with devices for introducing nutrient additives, the capacity for processing water-silt suspension and the cultivation of biological strains, which is equipped with devices for introducing water-silt suspension, introducing water vapor, introducing compressed air, discharging purified water and discharging water-silt together with microorganisms, the installation of complex soil treatment with aerobic and anaerobic microorganisms is equipped with input devices for nutrient additives, the capacity of soil treatment, which is equipped It is equipped with soil receiving devices, introducing water-sludge suspension with microorganisms, introducing compressed air, mixing and removing soils, the biomass utilization unit is equipped with devices for introducing nutrient additives, soil processing capacity, which is equipped with devices for receiving soil, removing mushroom biomass, mixing and removing neutralized soils .

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