RU172607U1 - DEVICE FOR AIR-BUBBLE CLEANING THICKNESS OF WATER FROM OIL AND OIL PRODUCTS IN WATERWATERS - Google Patents

Abstract

The utility model relates to the field of environmental protection and is intended for air-bubble cleaning of the water column contaminated with oil and oil products in water streams. The technical result is to increase the efficiency of purification from oil and oil products of streams with different depths and speeds. The technical result is achieved by creating a volumetric air-bubble flow, for which the device for cleaning the water column from oil in streams contains a flexible perforated hose with auxiliary flexible perforated hoses attached to it along the entire length, and a ballast device, for example, an anchor chain, and the perforated hose and the ballast device is fastened together by means of clamps, and the main perforated hose has the ability to connect to a source of compressed air, for example EP air compressor. In the transport state, the device can be a device wound on a coil and a compressed air source transported separately. 1 n.p. f-ly, 1 ill.

Description

The utility model relates to the field of environmental protection and is designed to clean the thickness of water contaminated with oil and oil products in waterways.

Oil, when spilled on a water body, is initially located on the surface of the water. Over time, its density increases due to the passage of physicochemical processes of oil transformation, sorption of mineral particles, and oil transformation products begin to move freely in the water column and also sink to the bottom of the water body. In streams, oil aggregates move throughout the water column and the bottom layer. Effective cleaning of watercourses requires the use of devices that allow cleaning not only the surface of the water, but also its entire thickness along the cross section of the channel of the watercourse.

A device for cleaning water bodies from pollution (Patent of the Russian Federation No. 2431017, IPC E02B15 / 06, B63B35 / 32, publ. 10.10.2011), which is designed to collect pollution from the surface of open water bodies and to clean the thickness and bottom layers of water from oil and oil products. The device consists of oil-absorbing booms with a core of polymer material located on the water surface. Each bon is equipped with sorbing natural and synthetic fibers of the same or different lengths (0.01–5.00 m), density 0.01–3.00 g / cm ³ with microorganisms.

The disadvantage of this device is the decrease in the efficiency of the device on streams with a fast flow of water, when natural and synthetic sorbent fibers under the influence of the current will be in the surface layer of water without cleaning the water column and bottom layers, where oil aggregates with negative buoyancy move. The device is also inefficient in winter, when ice cover is established, when fibers are frozen into the ice cover during its formation; low water temperatures at which microbiological oxidation of oil is not effective.

A device for cleaning the thickness and bottom layers of water from oil pollution (RF Patent No. 88688, IPC E02B15 / 06, published on November 20, 2009), including a ballast sleeve with clamps attached to it, a flexible pressure hose with porous air sprays built into it, air compressor and booms.

The main disadvantage of this device is the significant labor costs for its assembly and preparation for installation. It takes a long time to fill the ballast sleeve with material that secures the device to the bottom (sand, pebbles and other materials). And in the winter, during freezing temperatures, the implementation of this assembly stage is very difficult due to the presence of natural ballast material under the snow, loss of flowability of improvised materials to fill the ballast sleeve, which contain moisture and are frozen.

The closest in essence device for cleaning the water column from oil in watercourses (RF Patent No. 151372, IPC E02B15 / 06, E02B15 / 04, publ. 04/10/2015), designed to clean the water column in watercourses contaminated with oil and oil products. The device contains a flexible perforated hose, fixed to the bottom of the watercourse using a ballast device and connected to an air source. The ballast device is made in the form of an anchor chain, which along the entire length by means of clamps is attached to a flexible perforated hose. The hose may consist of several parts connected by quick-disconnect hose connections. The perforation of the walls of the flexible perforated hose is made in the form of holes with a diameter of 0.1-1.0 mm, placed along a helix at a distance of not more than 10 mm from each other. When inoperative, a flexible perforated hose with an anchor chain is wound around a transport reel.

The main disadvantage of this device is the decrease in the efficiency of cleaning the water column from oil and oil products in streams with a strong current and great depths. The influence of these factors significantly affects the density of the flow of air bubbles rising from the bottom to the surface of the water from a flexible perforated hose, which forms an almost flat section of the water column when the air bubbles rise.

The objective of the utility model is to increase the efficiency of cleaning streams from oil and oil products with different depths and flow rates while maintaining the ability to use the device year-round (during freezing, high water and low water).

The technical result is achieved by creating a volumetric air-bubble flow, for which the device for cleaning the water column from oil in streams contains a flexible perforated hose with auxiliary flexible perforated hoses attached to it along the entire length, and a ballast device, for example, an anchor chain, with a perforated hose and the ballast device are fastened together by means of clamps. Flexible perforated hose has the ability to connect to a source of compressed air, for example, an air compressor. In the transport state, the device can be a device wound on a coil and a compressed air source transported separately.

The essence of the utility model is illustrated by the drawing of figure 1, which shows a diagram of the device.

The device operates as follows.

Cleaning the water column from oil is carried out using the claimed device (Fig. 1), including a flexible perforated hose 1 connected to a ballast device 3 with clamps 4 and connected to a source of compressed air 5, for example, an air compressor, while to the hose 1 through 15- 20 cm connected flexible auxiliary perforated hoses 2 each up to 2.0 m long. A source of compressed air is installed on the banks of the watercourse. Throughout the length of the flexible and auxiliary hoses, holes with a diameter of 0.1-0.5 mm are made along a helical line at a small distance from each other. Flexible perforated hose and flexible auxiliary perforated hoses are high pressure hoses made of durable polyvinyl chloride resistant to mechanical and chemical influences.

The claimed device is installed on the bottom of the contaminated sections of watercourses in areas located downstream of the source of oil pollution, and when carrying out treatment works on the watercourse - below the site of treatment works.

The claimed device is transported to a place of installation and is installed using floating means, unwinding from a coil and lowering it to the bottom of the watercourse across the stream. Auxiliary perforated hoses up to 2 m long can be attached perpendicularly to a flexible perforated hose every 15–20 cm, and float freely above the main hose in the water column. A flexible perforated hose is connected to an air compressor. When the device is operating, air bubbles in the form of a volumetric oil recovery curtain come out of the openings of the flexible perforated hose and flexible auxiliary perforated hoses, which trap oil by the principle of molecular adhesion of the interface between the two phases - air and liquid, and lift the oil to the surface of the water. When the device is operating downstream of the watercourse, prior art structures are installed for oil localization, for example, booms, and oil pumping devices.

After completion of the cleaning work, the device is assembled - disconnected from the air compressor and a flexible perforated hose is wound around the reel together with auxiliary flexible perforated hoses and a ballast device.

The device was tested in field conditions on a section of a watercourse contaminated with oil (watercourse width - 5 m, depth 0.5 m). Placing the device on the watercourse and putting it into operation took 5 minutes. In the area of rising air bubbles on the surface of the water, an abundant oil rainbow film was observed, which was delayed by floating booms. Downstream of the booms no oil film was observed. The degree of purification from pollutants moving both in the bottom layers and in the water column can reach 98-99%.

The technical result of the proposed device is a 2-3-fold increase in the efficiency of cleaning the thickness of the water in streams from oil and oil products in comparison with the prototype. The main advantage of the device is the possibility of efficient use on streams with great depths and speeds, by creating a volumetric air-bubble flow. The design allows you to use the device year-round (during the period of freezing, in high water and low water).

Claims (2)

1. A device for air-bubble cleaning of the water column from oil and oil products in water streams, comprising a flexible perforated hose fixed to the bottom of the water stream using a ballast device and connected to a compressed air source, characterized in that auxiliary perforated hose is connected along its entire length flexible perforated hoses. 2. The device according to claim 1, characterized in that the auxiliary flexible hoses are perforated along the helix with holes with a diameter of 0.1-0.5 mm, attached perpendicularly to the flexible perforated hose every 15-20 cm, have a length of up to 2 m, and in transport state, a flexible perforated hose, together with auxiliary flexible hoses and a ballast device, is wound around the transport reel.

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