RU2180696C1 - Device for purification of water from oil and oil products - Google Patents

Abstract

FIELD: environmental control; applicable in purification of surface of open water reservoirs and streams from oil and oil products. SUBSTANCE: device has floating gathering vessel provided in its lower part with discharge hole and impeller, and overflow sill movable in vertical direction. Gathering vessel accommodates freely located separating partition with hole in center. Average density of partition is intermediate between densities of oil and water. Side walls of gathering vessel ahs apertures. Overflow sill is made in form of curtains covering apertures and connected by means of brackets with float located in gathering vessel whose inner side of side walls has shelves under apertures. Shelf width exceeds gaps between side walls of gathering vessel and separating partition whose surface is inclined toward partition center at angle of 4-10 deg. Float has through branch pipe in center and plate deflector, both located on same axis. EFFECT: simplified design of device, higher reliability and quality of operation in purification of water surface from oil and oil products. 4 cl, 2 dwg, 1 ex

Description

 The invention relates to the field of environmental protection, and in particular to the technical means used to clean the surface of open water bodies and streams from pollution by oil and oil products, as well as other liquids floating on the surface of the water.

 A device for collecting oil from the surface of the water, including a partially immersed hollow cylindrical body with an oil receiving hole and an adjacent tangential inlet channel, a pipe for collecting the collected oil in the oil collecting tank, a baffle with a hole mounted in the inner cavity of the housing with the possibility of vertical return translational movement, moreover, a shutter is rigidly attached to the partition in the upper part, and a float in the lower part, while the housing cover is made in the form of an extension a expandable nozzle with internal and external curved grooves, a smaller section rigidly connected to a perforated pipe placed coaxially with the hole at the top of the baffle, inside the perforated pipe there is a screw shaft with a screw connected to the drive, and oil-receiving windows are made in the perforated pipe between the baffle and the cover and between the perforated pipe and the partition there are guides (RU 2122067 C1, 11.20.1998).

 The disadvantages of this known device are the complexity of its design and low efficiency of oil collection from the water surface.

 A device is known for purifying water from oil and oil products, containing a collecting vessel capable of floating in water, having an outlet opening with an impeller in the lower part, and an overflow threshold capable of moving in the vertical direction (RU 2151841 C1, June 27, 2000).

 The disadvantage of this device is the need to use seals between moving relative to each other parts of the device, which makes the device unreliable in practical use. Avoiding sliding seals through the use of bellows containers (cylindrical accordions) complicates the design of the device. In addition, when the device is operating, oil and oil products, especially those that have a density close to the density of water, flowing into the collecting tank, are easily carried away by turbulent flows of the removed water and are carried away from the device, returning to the water to be cleaned and thereby reducing quality of work on water purification from oil and oil products.

 The aim of the invention is to simplify the design of a device for purifying water from oil and oil products, as well as improving its reliability and quality of work when cleaning a water surface.

This goal is achieved in that in a device for purifying water from oil and oil products, containing a collecting vessel capable of floating in water, having an outlet opening with an impeller in the lower part, and an overflow threshold capable of moving in the vertical direction, according to the invention, is freely placed in the collecting vessel dividing wall with a hole in the center, the mass and volume of which are determined by the ratio ρ _n <M / V <ρ _in , where M is the mass of the dividing wall, kg; V is the volume of the partition wall, m ³ ; ρ _in - the density of water, kg / m ³ ; ρ _n - oil density, kg / m ³ , the side walls of the collecting tank have openings, and the overflow threshold is made in the form of curtains covering the openings and connected using brackets with a float located in the collecting tank, and shelves are made on the inner side of the side walls of the latter , which are located under the openings, while the width of the shelves exceeds the gaps between the side walls of the collecting container and the dividing wall.

 The dividing partition has a slope of its surface to the center of the partition.

In this case, the angle of inclination of the surface of the dividing wall to its center is in the range of 4-10 ^o .

 In addition, the float has in the center a through pipe and a disk reflector located on the same axis.

 The invention is illustrated by drawings, where figure 1 shows a device immersed in water for purification of water from oil and oil products, inoperative; figure 2 is the same in action.

A device for cleaning water from oil and oil products contains a collecting tank 1 capable of floating in water, having an outlet 2 with an impeller 3 in the lower part, and an overflow threshold capable of moving in the vertical direction. In the collecting tank 1, a partition wall 4 is freely placed with an opening in the center, the mass and volume of which are determined by the ratio ρ _n <M / V <ρ _in , where M is the mass of the partition wall, kg; V is the volume of the partition wall, m ³ ; ρ _in - the density of water, kg / m ³ ; ρ _n - oil density, kg / m ³ . The side walls of the collecting tank 1 have openings 5, and the overflow threshold is made in the form of shutters 6, covering the openings 5 and connected using brackets 7 with a float 8 located in the collecting tank 1. The float 8 has a through pipe 9 in the center and a disk reflector 10, located on one axis.

 On the inner side of the side walls of the collecting container 1, shelves 11 are provided that are located under the openings 5, while the width of the shelves 11 exceeds the gaps between the side walls of the collecting container 1 and the dividing wall 4.

The partition wall 4 has a slope of its surface to the center of the partition 4, and the angle of inclination of the surface of the partition wall 4 to its center is in the range of 4-10 ^o .

 A device for purifying water from oil and oil products works as follows.

 When the device is immersed in a pond (Fig. 1), the container 1 is filled with water penetrating there through the opening 2, and the water levels outside and inside the device are equalized after the immersion is completed. The float 8 in this case occupies the upper position, holding the shutters 6 in the upper position by means of the brackets 7. In this position, the upper edges of the shutters 6 are above the steady-state water levels, closing the openings 5 and, thereby, preventing the flow of water from the tank 1 to the outside and vice versa. The partition wall 4 also in this case occupies its upper position, remaining under the shelves 11. When you turn on the impeller 3 (see figure 2), the removal through the hole 2 of the water in the collecting tank 1 begins, which leads to a decrease in the water level in her. The float 8 as the water level in the tank 1 decreases, lowers the shutters 6, which, in turn, when moving down, open the upper part of the openings 5 of the side walls. In these openings, due to the resulting difference in water levels in the tank 1 and outside, rush the surface layers of water containing oil and oil products. The lowering of the float 8 and the corresponding lowering of the shutters 6 occurs until a dynamic equilibrium occurs between the amount of incoming liquid into the container 1 through ajar openings 5 and the amount of water removed from the container 1 through the opening 2. The flows of oil and oil products falling into the tank 1 and having a vertical velocity component, thanks to the shelves 11 deviate from the vertical movement and fall into the space bounded below by the dividing partition 4. Due to the presence of slopes in the baffle 4, the water falling into this space flows to the center of the dividing partitions 4 and through its central hole passes into the lower part of the tank 1. The separation partition 4, due to the fact that its average density is an intermediate value between the density s oil and water in the container 1 takes an intermediate position between the oil layer and water layer separating them and preventing the occurrence of turbulence in the vessel 1, agitating oil and water. Oil is pumped out through pipe 9 using extraneous pumping equipment. The dish-shaped reflector 10 in this case allows only the upper layers of oil that do not contain water to enter the pipe 9.

Example. In the manufactured experimental sample of the proposed device for monitoring the behavior of water flows and contaminants falling into the tank 1, the side walls of the latter were made of transparent material (plexiglass). As substances that simulate pollution, oil (ρ = 845 kg / m ³ ) and sunflower oil (ρ = 924 kg / m ³ ) were used. A film of impurities 25 mm thick was created on the surface of the water. The impeller 3 provided a discharge of water from the collecting tank 1 with a capacity of 15 l / s. Experiments to determine the magnitude of the slopes on the surface of the dividing wall 4 showed that at angles less than 4 ^{o the} movement of water under the slope is laminar slow, due to which its layer on the wall 4 increases with time; at angles of more than 10 ^{o, the} flow of water moving along the slope of the surface of the separation wall passes from laminar to turbulent, hindering the process of fraction separation. In the range of 4-10 ^{o the} described disadvantages are absent. Experiments conducted without dividing wall 4 and shelves 11 showed that in the case of oil, 9% of the incoming amount of oil is carried through hole 2 back to the water to be purified, and in the case of sunflower oil this figure increased to 15%, which could be observed directly through the transparent side walls. Experiments conducted with and without a reflector 10 showed that without a reflector 10, the water content in the contaminants pumped through the nozzle 9 increases, in the case of oil, the water content increased from 2 to 4%, respectively, and in the case of sunflower oil from 2 to 6%, which indicates that the use of a plate reflector 10 has a positive effect on the process of separating water from the pumped oil.

 Thus, the use of the invention allows to simplify the design of the oil collecting device, to increase the reliability and quality of its work when cleaning the surface of the water from oil and oil products.

Claims (4)

1. A device for purifying water from oil and oil products, containing a collecting vessel capable of floating in water, having an outlet opening with an impeller in the lower part, and an overflow threshold capable of moving in the vertical direction, characterized in that a separation wall is freely placed in the collecting vessel with a hole in the center, the mass and volume of which are determined by the ratio ρ _n <M / V <ρ _in , where M is the mass of the partition, kg; V is the volume of the partition wall, m ³ ; ρ _in - the density of water, kg / m ³ ; ρ _n - oil density, kg / m ³ , the side walls of the collecting tank have openings, and the overflow threshold is made in the form of curtains covering the openings and connected using brackets with a float located in the collecting tank, and shelves are made on the inner side of the side walls of the latter , which are located under the openings, while the width of the shelves exceeds the gaps between the side walls of the collecting container and the dividing wall.  2. The device according to p. 1, characterized in that the dividing partition has a slope of its surface to the center of the partition. 3. The device according to p. 2, characterized in that the angle of inclination of the surface of the dividing wall to its center is in the range of 4-10 ^o .  4. The device according to any one of paragraphs. 1-3, characterized in that the float has in the center a through pipe and a disk reflector located on the same axis.

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