RU2054090C1 - Gear cleaning water from oil and oil products and for their extraction - Google Patents

Abstract

FIELD: environmental control. SUBSTANCE: gear includes intake system of polluted water, chamber for separation of water from oil and oil products fitted with in outlet branch pipe coupled to intake system and with two outlet branch pipes for discharge of purified water and oil and oil products extracted from it. Gear also has filtering element installed inside chamber based on porous unwoven material in the form of cylinder with hole along longitudinal axis and sealed tightly on one end face. Filtering element in to which polluted water is fed is mounted horizontally for rotation about longitudinal axis under fast or slowed condition. Gear has system for discharge of purified water coupled to outlet branch pipe for purified water. In process of cleaning of polluted water filtering element works under condition of slow rotation and it transfers into fast rotation condition after its saturation with oil and oil products for their separation from filtering element under action of centrifugal forces. During this period polluted water is not fed into chamber. Purified water system can have chute to collect purified water placed under filtering element and coupled to outlet branch pipe for purified water and movable screen protecting chute from pollution during operation of filtering element under condition of fast rotation. System for discharge of purified water may also include filtering extension piece manufactured from porous unwoven material put on outlet branch pipe for purified water. EFFECT: expanded application field, improved cleaning efficiency. 2 cl, 3 dwg

Description

 The invention relates to devices designed to purify water from oil, oils, fuel oil, fuels, hydrocarbon contaminants, providing for the extraction of the latter for further use and can be used on seas, rivers, lakes or in artificially created reservoirs.

 A known installation for cleaning the beach from floating mud, including oil products. The installation provides a device for removing surfaced dirt along with a small amount of water, a separator in which water is sedimented from oil products. The water that accumulates during sedimentation is sent back to the beach.

 An oil recovery unit is also known, comprising an oil collection unit in the form of vertical walls protruding above the surface of the water and partially immersed in water, an extraction unit consisting of a flotation tank and an open-ended vertical cylinder having a submerged lower part, a pump unit consisting of submersible pipe with a pump mounted in it. The pump unit is located between the collection and extraction unit. In the cylinder, oil floats and accumulates on the surface of the water. Uncontaminated water flows from the bottom of the cylinder.

 Known collapsible installation for collecting spilled oil (prototype) on the surface, containing a system for limiting the oil slick and directed moving it to the collection zone, a pump for pumping oil-contaminated upper layer of water from the collection zone into the transport line and a cylinder with an open lower end immersed in the mass water. Inside the container, water and oil are separated, which floats up and forms a separate layer. As oil accumulates in the tank, the latter is pumped into the hold of a nearby barge.

 Known devices for the purification of water-oil wastes in metallurgical plants containing sumps and a system for supplying sewage to sumps.

 The disadvantages of these plants are the low speed and degree of separation of water and hydrocarbons.

 A higher degree of separation of water from oil and oil products can be achieved by filtration, i.e. passing water through a porous medium in which, for example, particles of oil adhere to the surface of the filter material and are retained in small pores. Sand, anthracite aggregate, expanded clay, slag, etc. can serve as a filtering medium. However, the difficult task is to extract absorbed oil products from their surface for the purpose of their further use. For devices with such a filtering medium, we are talking about restoring its filtering ability by, for example, washing with hot water and blowing with compressed air, but not collecting oil products extracted from the filtering medium.

 Known devices with squeezed filter medium, providing for the collection of oil and oil products. For example, a device with squeezed polyurethane loading, made in the form of flakes forming a loose medium.

 Water purification on the filter and its regeneration are carried out in this sequence. Oily water is uniformly supplied to the loading surface and, passing the filter from top to bottom, is discharged through the pipeline. To carry out the regeneration of the filter include the drive of the regeneration mechanism. In this case, the lower branch of the scraper excavator captures the lower layers of the load and evenly feeds them onto the conveyor belt. The bulk layer of loading on the tape is squeezed by drums, and the squeezed product (oil mass) flows down the tape and the gutter into the collector. Thus, the task of separating and collecting hydrocarbons complicates the design.

 Also known are products from fibers or particles forming a loose mass and packaged in an oil-permeable sheath. Products can be made in the form of a pillow, cartridge or cover. Specifically, the filtering medium may be wood flour, viscose, modified aerosil, polyvinyl chloride in the form of a powder, fibrous wood, and others. Oleophilicity and hydrophobicity are betrayed by physical and chemical treatment. The filter medium is made on the basis of balsa wood. The product is applied to the surface of the water. Sorbed oil and similar products are proposed to be extracted by pressure, centrifugal force, solvent extraction or distillation. However, the practical use of these products has shown that the extraction of oil and oil products from them under operating conditions is difficult. This requires special settings. It is also laborious to transfer products saturated with oil and oil products to these plants. Therefore, products are most often subjected to burning.

 The aim of the invention is to provide a device that combines a high degree of water purification, ease of removal from the installation of oil and petroleum products for future use and ease of operation.

 As in the prototype, the device comprises a water intake system contaminated with oil and oil products, as well as a chamber for separating water from oil and oil products, equipped with an inlet pipe connected to the intake system and two outlet pipes for outputting purified water and extracted oil and oil products. In contrast to the prototype, a filter element based on a porous non-woven material is installed inside the chamber. The filter element is made in the form of a cylinder with a hole along the longitudinal axis and hermetically closed at one end, into which contaminated water is placed horizontally, with the possibility of rotation around the longitudinal axis in slow and fast mode. In addition, unlike the prototype, the chamber has a purified water outlet system connected to the purified water inlet pipe.

 During the treatment of contaminated water, the filter element operates in a slow rotation mode, and after it is saturated with oil and oil products, it enters a fast rotation mode to separate them from the filter element under the action of centrifugal forces, while the polluted water is not supplied to the chamber.

 The purified water outlet system may include a purified water collection tray located under the filter element and connected to the purified water outlet, and a movable screen that closes the tray from contamination during operation of the filter element in fast mode.

 In another embodiment, the purified water outlet system may include a filter nozzle made of a porous non-woven material and mounted on an outlet for purified water.

 The device operates as follows.

 Using a sampling system, water contaminated with oil and oil products is pumped into the chamber. Water enters through the inlet pipe into the hole along the longitudinal axis of the filter element. The filter element rotates slowly and during its movement captures and carries away the floating layer of oil and oil products. The latter are delayed in the filter element. In addition, the purified water gradually seeps through the filter wall under the action of gravity, while being purified, it enters the outlet system for purified water and is discharged through the outlet pipe for purified water connected with it. To withdraw the separated oil and oil products from the chamber, the supply of contaminated water to it is stopped and the purified water is fully released. Then the filter element is put into rapid rotation mode. As a result, oil and oil products are separated from the filter element by the action of centrifugal forces and are discharged from the chamber through a pipe designed for this purpose.

 In one case, the purified water passing through the filter element enters the tray and is discharged through a pipe connected to the tray. During operation of the filter element in fast mode, the tray is closed with a movable screen.

 In another case, purified water, before entering the outlet, passes through a filter nozzle based on a porous non-woven material, which allows you to remove from the water accidental contaminants that appear in it, for example, from contact with the walls of the chamber.

 The presence of a filter element that collects a layer of emerged hydrocarbons mechanically during its slow movement and at the same time filters contaminated water in its thickness allows achieving a high degree of water purification. Installing the filter element horizontally allows you to create the maximum area of the emerged hydrocarbons, which in combination with slow rotation leads to the most efficient use of the inner surface of the filter element to deposit a film of hydrocarbons on it.

 The material and shape of the filter, its installation in conjunction with the mechanism by which oil and oil products can be extracted and the operation mode, provide easy withdrawal of oil products.

 The transfer of the operation of the device from water filtration to the separation of oil and oil products only by changing the rotation mode of the filter element makes the device easy to operate and also determines the simplicity of the output of oil and oil products.

 In FIG. 1 3 shows a General view of the proposed device and its options.

 A device for purifying water from oil and oil products and their extraction contains a system 1 for the intake of contaminated water, presented in this case by a submersible pipe and a pump. But the system 1 can be performed in any other known manner, for example, supplemented by means of limiting the oil slick and its directional movement to the collection zone.

 The device also includes a chamber 2 for separating water from oil and oil products, equipped with an inlet pipe 3 connected to the intake system 1 and two outlet pipes: an outlet pipe 4 for outputting purified water and an outlet pipe 5 for outputting extracted oil and oil products. Inside the chamber 2, a filter element 6 is installed on the basis of a porous non-woven material in the form of a cylinder with a hole along the longitudinal axis and hermetically closed from one end, made to rotate around the longitudinal axis in slow and fast mode. Under the filter element 6 is a tray 7 for collecting purified water, connected to a pipe 4 for the output of purified water. In the camera 2 is placed a movable screen 8 of the tray.

 The intake system 1 directs the contaminated water into the chamber 2 through the inlet pipe 3. In the chamber 2, water enters the hole in the filter element 6. The filter element 6 rotates slowly, captures the floated oil and oil products with its inner surface, and also filters the water in its thickness . The purified water, passing through the walls of the filter element, enters the tray 7 to collect purified water and is discharged through the pipe 4. If necessary, the output of oil and oil products, the water supply to the chamber 2 is stopped and after cleaning the water remaining in the chamber 2 and its complete withdrawal, close the tray 7 to collect purified water by the screen 8 and transfer the filter element 6 to a fast rotation mode, in which oil and oil products are released from it under the action of centrifugal forces. The latter fall on the walls of the chamber 2 and flow down, and then are removed from the chamber 2 through the pipe 5.

 The second option involves the installation on the outlet pipe 4 of purified water of a filter nozzle 9 made of a porous non-woven material and allowing to remove accidental contaminants from the water.

 Thus, the device combines a high degree of water purification, ease of removal of hydrocarbons from the installation for further use, and ease of use.

Claims (2)

 1. DEVICE FOR CLEANING WATER FROM OIL AND OIL PRODUCTS AND THEIR EXTRACTION, containing a system for collecting contaminated water, a chamber for separating water from oil and oil products with an inlet pipe connected to the intake system, and with two outlet pipes for outputting purified water and extracted oil and petroleum products, characterized in that it is equipped with a horizontally placed inside the chamber filter element based on a porous non-woven material in the form of a cylinder with a hole along the longitudinal axis of the cylinder connected to one end system of intake of contaminated water, and from the other end - hermetically sealed and installed with the possibility of rotation at a variable speed around the longitudinal axis, as well as a tray for collecting purified water, placed under the filter element and connected to the outlet pipe for the output of purified water, and a screen installed with the possibility of rotation around the longitudinal axis of the filter element.  2. The device according to p. 1, characterized in that it is equipped with a filter nozzle made of a porous non-woven material, mounted on the end of the outlet pipe for the withdrawal of purified water.

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