RU2599630C1 - Acoustic device for gathering of oil and oil products from water surface - Google Patents

Abstract

FIELD: acoustics; oil and gas industry.

SUBSTANCE: acoustic device for gathering of oil and oil products from water surface includes a housing with an inlet hole and a header, system of float gages providing buoyancy attached to the housing by the brackets, circulation pump with pup joint, reservoir for gathering of oil products, connected by a flexible hose with pup joint of the circulation pump, power source, connected to the circulation pump and ultrasonic generator, connected to source of ultrasound submerged under water surface and directed on the boundary of oil layer with water. Housing is equipped with a weight controlling level of edges of the inlet hole on the boundary of oil and water. In the housing around the header there is a tight cavity, where a power source and an ultrasonic generator are located. Ultrasound source is made in the form of the ultrasonic emitters arranged along the circle nearby the inlet hole of the header under sliding angle to the boundary of oil layer with water. Level of edges of the header inlet hole is set at the boundary of oil and water.

EFFECT: increase of efficiency of gathering of oil film from water surface.

1 cl, 1 dwg

Description

The invention is intended to protect the environment, in particular for the collection of oil and oil products during the purification of natural and artificial reservoirs. The invention can also be used to eliminate accidental oil spills.

A device for collecting oil products using acoustic technology is known, comprising a chamber with a discharge neck connected to the inlet of the separator, the lower part of which is connected to a receiving tank for oil products, the camera mounted on a float base, the lower part of the chamber perforated with holes for water passage with oil products inside the chamber, in which a gas collector with holes is installed above the level mark with the installation of a gas-jet ultrasound emitter on each of them . The gas manifold is connected to a compressed gas supply source. When the emitter 12 of the ultrasound, intense dissipation of ultrasound occurs in the surface film of the oil product, leading to its separation from the surface of the water, spraying into small droplets and entrainment by gas jets. Further, in the separator, oil products are separated from the gas and fed to the receiving tank (RF Patent No. 2049200 dated 02.20.1992, IPC Е02В 15/04).

The device has disadvantages. Firstly, the productivity of this method of collecting oil products is low, since, firstly, the energy of ultrasound has to be spent on a highly energy-intensive process of oil atomization. Secondly, spraying increases air pollution with hydrocarbons and reduces the fire safety of the collection process.

Known ultrasonic device for the elimination of oil spills, which oil spills scatters on the surface of the reservoir by exposure to ultrasonic energy to obtain homogenization of a mixture of oil and water and subsequent absorption (dissolution) of oil in the total large volume of water (US Patent No. 4222868 from 09.16.1980, IPC C02F 1/36). The collection of contaminating fluid in the device is not provided.

A device is known that uses acoustic waves in water as a driving force for sweeping contaminants like oil spills along the surface of the water. Acoustic waves are emitted by a device located below the surface of the water and directed at a sliding angle to the peripheral edge of the oil spill. Acoustic waves, when reflected from the boundary with air, form an active near-surface horizontally located zone in which a distributed source of force is formed at the edge of the oil spill. This method uses sound as a force moving (sweeping) surface contaminants along the surface of the water (Patent No. US 4235711 of November 25, 1980, IPC EV 02/15. US Pat. No. 4,235,711 of November 25, 1980). This device is designed to move oil spills on the water surface, limiting the area of oil spills, but does not solve the problem of pollution collection.

Another invention is known that uses acoustic vibrations in the field of cleaning water bodies from pollution. The device sprays and burns liquid hydrocarbons floating on water. Oil or other combustible material polluting the sea is burned by a device having a partially submerged nozzle equipped with a transducer of high-frequency acoustic vibrations. The transducer is equipped with a speed transformer designed to concentrate acoustic vibrations in the region of maximum intensity at the upper end of the transformer. The nozzle float provides buoyancy so that the upper end of the speed transformer is located at a suitable distance above the surface of the water. The nozzle ignition system protrudes from above the speed transformer to ignite a cloud of oil that is sprayed over the device due to the converter (US Patent No. 4308006 of 12/29/1981, IPC F23C 11/02).

For widespread use, the device does not have a sufficiently high performance.

A device for burning combustible contaminants floating on the surface of a water body is known. The device has a first body and a swimming means for positioning it (first body) near the surface of the water. The first camera is located in the first body. The resonance chamber is fixed relative to the surface of the first body and above the first chamber and is located above the surface of the water when the equipment is used. Liquid can be injected at high speed from the first body into the resonance chamber, forming a shock wave, which is directed back to the pollutant (pollutant) to spray the pollutant. The sprayed pollutant can be burned (Patent US 4576569 dated 03/18/1986, IPC F23C 11/04).

A device for collecting immiscible liquid from the surface of the water, which is a threshold oil collector according to the principle of operation, can be used to eliminate accidental oil spills. The device comprises a cylindrical chamber, a submersible pump with a float, a drive, a pressure pipe and a flexible power cable, an annular entrance to the cylindrical chamber with a protective grill, and floats that ensure the buoyancy of the device. The surface layer of water together with an immiscible liquid with a density lower than the density of water is accumulated in a vertically arranged cylindrical chamber, the lower end of which is hermetically closed, and the upper has an annular inlet between the cylindrical chamber and its cover. The liquid from the cylindrical chamber is pumped out by a submersible pump having a float for ascent (RF Patent No. 2369689, IPC B01D 17/02, C02F 1/40). The invention is acceptable for collecting and pumping oil under favorable operating conditions. However, it loses its effectiveness in cases of thin layers of collected contaminants and is practically unsuitable for collecting highly viscous thickened oil products.

The closest in technical essence and the achieved result (prototype) to the invention is an acoustic device for collecting oil and oil products from the water surface, comprising a housing with an inlet and a collector, a system for buoyancy of floats attached to the housing by brackets, a circulation pump with a pipe, a reservoir for collection of petroleum products, connected by a flexible hose to the nozzle of the circulation pump, a power source connected to the circulation pump and an ultrasonic generator, connected to an ultrasound source immersed beneath the surface of the water and directed to the boundary of the oil layer with water, the ultrasound source is made in the form of an ultrasonic focusing transducer, which is supported below the surface of the water, and its focal region is aligned with the bottom side of the pollution or oil (US Patent No. 4032438 dated 06/28/1977, IPC B01D 37/00).

The disadvantages of the device adopted for the prototype include a relatively low productivity for collecting oil and insufficient environmental cleanliness due to the generation of a cloud of hydrocarbons during ultrasonic flowing. This is associated with an increased risk of ignition of a gas hydrocarbon cloud. The last of these shortcomings are explained by the exit of the jet induced by focused ultrasound in the form of a fountain into the airspace above the surface of the water.

The technical result of the invention is to increase the productivity of collecting oil film from the surface of the water, as well as improving environmental cleanliness and ensuring the safety of the process of collecting oil.

The technical result is achieved due to the fact that in an acoustic device for collecting oil and oil products from the water surface, containing a body with an inlet and a collector, a system that provides buoyancy of floats attached to the body with brackets, a circulation pump with a pipe, a reservoir for collecting oil products connected by a flexible a hose with a pipe for the circulation pump, a power source connected to the circulation pump and an ultrasonic generator connected to an ultrasound source immersed beneath the surface of the water and directed to the boundary of the oil-water layer, the casing is equipped with a load regulating the level of the edge of the inlet at the oil-water boundary, a sealed cavity is made in the casing around the collector, in which the power source and ultrasonic generator are placed, and the ultrasound source is made in the form systems of ultrasonic emitters located in a circle near the inlet of the collector at a sliding angle to the boundary of the oil layer with water, while the edge level of the inlet of the collector is set n at the border of oil and water.

The invention is illustrated in the drawing, which shows the main structural elements and the essence of the process of collecting oil. An acoustic device for collecting oil and oil products from the surface of the water contains a housing 1, consisting of a collector 2 with an inlet 3, and a sealed cavity 4 located around the collector 2, located in a sealed cavity 4, a power source 5 and an ultrasonic generator 6, a circulation pump 7 with a pipe 8 located at the bottom of the cavity of the collector 2, an ultrasound source made in the form of a system of ultrasonic emitters 9 located in a circle near the inlet of the collector 2 at a sliding angle to the border with oil at the same time, the level of the edge of the inlet 3 of the manifold 2 is set at the oil-water border, a system for buoyancy of floats 10 attached to the housing 1 by brackets 11, the level of the edge of the inlet at the oil-water border is cargo 12, located below case 1, a reservoir for collecting oil products 13, connected by a flexible hose 14 to the pipe 8 of the circulation pump 7. The reservoir for collecting oil products 13 is located on the shore of the 15 reservoir with a layer of oil pollution 16. The power supply 5 one with the ultrasonic generator 6 and the circulation pump 7. The ultrasonic generator 6 is connected to a system of ultrasonic emitters 9.

The acoustic device for collecting oil and oil products from the surface of the water works as follows. Having driven oil or oil products that have fallen onto the water surface with a boom barrier, the device is placed in the contaminated area of the reservoir. Before starting work, it is necessary to adjust the immersion depth of the device so that the edge of the inlet 3 of the manifold 2 is at the interface between the collected oil and water or 1-2 mm below this level. The buoyancy of the entire acoustic device for collecting oil and oil products from the water surface is ensured by four floats 10 attached to the housing 1 using brackets 11 and, in order to adjust the level of immersion depth, is adjusted by suspending the load 12 of a suitable mass. Maintaining the immersion depth of the upper edge of the inlet at the level of the oil-water interface is of great importance to ensure high quality oil collection, i.e. obtaining the largest possible proportion of the oil content in the fluid taken from the reservoir with high performance of the process of collecting pollution.

At the optimum immersion depth of the device, spontaneous discharge of the oil film through the inlet 3 into the manifold 2 occurs.

After a set of oil and (or) water into the collector 2, an ultrasonic generator 6 and a circulation pump 7 located in a sealed cavity 4, operating from a power source 5, are included. An electric battery is used as a power source 5. There are also options for electric power from shore 15 or from a specialized vessel, carried out on a flexible electric cable. High-frequency electric voltage of 0.5-2 MHz from the ultrasonic generator 6 is supplied to the system of ultrasonic emitters 9. In this case, the system of ultrasonic emitters 9 located below the surface of the water excites ultrasonic waves in 3 directions radial with respect to the inlet at a sliding angle to the surface water. They concentrate wave energy in a circle near the edge of the inlet 3. These converging ultrasonic waves induce an additional liquid flow (mixture of oil and water) to spontaneously drain. It is important to note that in this case, the acoustically induced surface flow that arises is not accompanied by the formation of a fountain (by the exit of a liquid stream above the surface). Individual ultrasonic emitters can be either a focusing type or a non-focusing type. Focusing emitters are preferred in the case of liquid contaminants with high viscosity values. Non-focusing ultrasonic emitters cover a large area, form a wider flow of a surface oil film directed to inlet 3, and are more effective in cases of low viscous oil pollution. A specific set of different types of emitters can be selected depending on the properties of the collected oil. The proportion of additional ultrasound-induced flow in some important cases can significantly exceed spontaneous discharge. First of all, this is observed in cases of thickened oil products having a high viscosity, when gravity flow is difficult or completely impossible. The contribution of the oil flow induced by ultrasound may exceed gravity in the case of ordinary oil with low viscosity, if the film thickness is sufficiently small, less than 3 mm.

The mixture of oil and water is pumped by a circulation pump 7 with a pipe 8 through a flexible hose 14 to a reservoir for collecting oil products 13, from where the oil can be evacuated after sludge for direct use.

If we compare the presented acoustic device for collecting oil and oil products from the surface of the water with the prototype, then we can say that it has a significantly higher performance. This is due to both the multichannel design of the system of ultrasonic emitters and the radially horizontal directivity of the flows of oil pollution induced by ultrasound, which makes it possible to obtain large radial surface flows of oil over a large area. The immersion of the edge of the inlet below the surface of the oil causes an additional spontaneous discharge of oil into the reservoir, which increases the overall performance of the device, especially when working on thick oil films (more than 3 mm thick). The absence of fountain jets over the surface improves the environmental cleanliness of the process and makes the process of oil collection fireproof.

Claims (1)

An acoustic device for collecting oil and oil products from the water surface, comprising a housing with an inlet and a collector, a system for buoyancy of floats attached to the housing by brackets, a circulation pump with a pipe, a tank for collecting oil products connected by a flexible hose to the pipe of the circulation pump, a power source, connected to a circulation pump and an ultrasonic generator connected to an ultrasound source immersed beneath the surface of the water and directed to the boundary of the layer oil with water, characterized in that the housing is equipped with a load regulating the level of the edge of the inlet at the oil-water interface, a sealed cavity is made in the housing around the collector, in which the power source and ultrasonic generator are located, and the ultrasound source is made in the form of a system of ultrasonic emitters located in a circle near the inlet of the reservoir at a sliding angle to the boundary of the oil layer with water, while the level of the edge of the inlet of the reservoir is set at the border of oil and water.

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