RU2285769C2 - Method and device for oil product gathering from water surface - Google Patents

Abstract

FIELD: natural water cleaning means, particularly to collect and remove oil products from water body surface.

SUBSTANCE: method involves dropping at least one vessel filled with sorbent on water surface spot contaminated with oil products; submersing the vessel in oil product layer and in water; opening vessel to distribute sorbent over water surface with the use vessel opening means connected to the vessel and adsorbing oil products with sorbent. Vessel is opened and sorbent is discharged at the beginning of vessel immersion in oil and water, wherein sorbent is distributed over oil product layer and under the layer. Device for above method realization comprises vessel filled with sorbent and vessel opening means. Vessel opening means is produced of paper and has parallelepiped shape. The vessel comprises bottom, sides and upper wall. Vessel opening means includes weight of non-organic substance, for instance of rock. The weight is located at vessel bottom and is connected to vessel body by means of kinematic coupling. Kinematic coupling comprises link fastened to above weight and link, which cooperates with vessel body for vessel opening.

EFFECT: increased water surface cleaning quality and sorbent usage efficiency.

8 cl, 9 dwg, 2 ex

Description

The invention relates to techniques for the purification of natural waters and can be used to collect and remove oil and oil products from the surface of artificial and natural reservoirs.

A known method of collecting petroleum products from water surfaces, which consists in dropping containers with holes made of ferromagnetic material onto disks located on the water surface with openings made of ferromagnetic material, with disks and a float made in them made of foamed polymeric material, immersing these containers into a layer of oil products and into water and absorption by said disks of oil products (see patent of the Russian Federation No. 1279285, class E 02 B 15/10, 1996).

The disadvantages of this method is that it is expensive, since the capture of containers from water must be done using sophisticated technical means - grippers equipped with magnets, as well as the fact that the device for its implementation (container with disks) is difficult in design.

In addition, the known method is not environmentally friendly, since it is almost impossible to catch all containers from the water after the elimination of the spill of oil products (spots).

A known method of collecting petroleum products from water surfaces, which consists in dumping containers made of water-soluble material with a sorbent placed on a portion with a layer of oil on a water surface, immersing said containers in a layer of oil products and in water and adsorption petroleum products leaving the tanks when they are dissolved by a sorbent (see German patent No. 1292086, class 84a 15/04, 1969).

The disadvantage of this method is that it does not allow to use for the adsorption of oil a significant part of the sorbent in the tanks, since it loses its adsorbing capacity during compaction as a result of the impact of the tank on water during a fall. Since the containers have a relatively small height, almost all of the sorbent in them undergoes the indicated compaction. Therefore, the quality of cleaning water surfaces from oil products when using this method is unsatisfactory. In addition, since the containers dissolve in water relatively slowly (as indicated in the description, within thirty seconds), over the specified time, part of the containers with the sorbent is carried away by the wind outside the area of water contamination with oil products (outside the spot), which reduces the efficiency of use of the sorbent.

Closest to the invention, the technical essence is a method of collecting oil products from water surfaces, which consists in dumping at least one container with a sorbent placed on a surface with a layer of oil products, immersing said container in a layer of oil products and water, opening the shell of the tank to release the sorbent from the tank using means associated with the tank to open the shell of the tank and the adsorption of oil on the surface during dy released from the tank by the said sorbent. The method is implemented in a device for collecting petroleum products from the water surface, containing a container with a sorbent placed in it and a means for opening the container shell (see Germany patent No. 3739087, class E 02 B 15/04, 1990).

A disadvantage of the known method and device for its implementation is also that they do not allow efficient use of a significant part of the sorbent in the tank (or tanks) for adsorption of oil products, since it loses its adsorption capacity when compacted in a closed container as a result of the tank's impact on water when falling. Moreover, since the opening of the container’s shell is carried out under a layer of oil products, after the container is completely immersed in water from a considerable depth, only a small part of the active sorbent particles float, which at the same time have absorbed a significant amount of water, cannot penetrate the layer of oil products from below, reduce adhesion between water and oil products and therefore, located under a layer of oil products and in contact with it only part of its surface, only a small amount of oil products is adsorbed, resulting in a decrease The quality of cleaning these surfaces from oil products and the efficiency of use of the sorbent are given.

In addition, the known method is not environmentally friendly, since it is almost impossible to catch from the tank all containers made of water-insoluble material.

In addition, the device for implementing the method is difficult in design because it contains components of complex construction (gas cartridge, means for providing a time delay when the specified cartridge is activated, etc.), complicating the design of the device as a whole.

The task to which the claimed invention is directed is to develop a method for collecting oil products from water surfaces and a device for its implementation, allowing using simple technical means to improve the quality of cleaning these surfaces from oil products, as well as to increase the efficiency of use of the sorbent and the environmental friendliness of the method.

The stated technical problem is solved in that in the method of collecting oil products from water surfaces, which consists in dumping at least one container with a sorbent placed on a surface with a layer of oil products, immersing said container in a layer of oil products and water, opening the shell of the container to release the sorbent from the tank using associated with the tank means for opening the shell of the tank and the adsorption of oil products on the surface of the water released m from the container with the said sorbent, the container shell is opened and the sorbent is released from it from the beginning of the indicated immersion of the container with the sorbent, as well as when the container with the sorbent is immersed in water, it is opened and the sorbent is released both on the specified layer of oil products and under him.

Due to the fact that in the inventive method, the opening (opening) of the container shell occurs from the beginning of the container immersion, practically from the moment the container touches the spot surface, the sorbent does not compact in the closed volume and it loses its ability to adsorb oil products, since the container is open. As experiments have shown, already at that moment the cargo at its bottom passes through the partially dissolved bottom and, as a result, when the cargo is immersed in water, under its action the container shell opens and the sorbent is released from it, which consequently does not compact and does not lose its properties adsorb (absorb) oil products.

Due to the fact that when using the proposed method, the sorbent is released both on the specified layer of oil products and under it mainly when the container is partially immersed, when part of the container is above water, and not after it is completely immersed, as in the known method, the sorbent particles are not have time to absorb water and therefore quickly float up, break through the boundary layer between water and oil products, reducing adhesion between these substances, which allows these particles to pass into the oil layer, adsorbing and x its entire surface. These particles are located on the water surface, localize individual drops of oil products and adsorb them. In the case when the thickness of the layer of oil products is larger than the sizes of the sorbent particles, the layer of oil products located above them, as well as a significant portion of the oil products between them, may not be adsorbed by these particles. The specified layer of oil products and the specified non-adsorbed part of the oil products between the specified particles of the sorbent are adsorbed by the particles coming from above the sorbent, which according to the proposed method when opening the shell of the tank is fed to the layer of oil products. Thus, when using the proposed method, the quality of cleaning the water surface from oil products increases and the efficiency of use of the sorbent is increased.

In addition, the problem to which the invention is directed is to increase the environmental friendliness of the method of collecting oil products from the surface of the water and a device for its implementation.

The stated technical problem is solved by the fact that in the inventive method, a container made of water-soluble material is used to place the sorbent, and also that a container made of paper is used to place the sorbent.

For the device for implementing the proposed method, the technical problems are solved in that in the device for collecting oil products from the water surface containing a container with a sorbent placed in it and means for opening the container shell, said container is made of paper, in the form of a parallelepiped, and includes the bottom, side and top walls, and the means for opening the container shell includes a load made of inorganic material placed at the bottom of the container and kinematically connected with the container shell chain containing at least one link connected to the specified load, and at least one link for interaction with the shell of the container and its disclosure, so that the link for interaction with the shell of the tank and its disclosure can be made in the form of cardboard a cross, the ends of which are connected by flexible elements with the aforementioned load and are in contact with the upper ends of the side walls of the tank, so that the link for interaction with the shell of the tank and its opening can be made in the form of at least one flexible an element having a greater hardness than the shell of the said container, one end connected to the load, the other end to the frame and covering two adjacent side walls and the upper wall of the container, and also the fact that the side walls of the said container can be rotated relative to its bottom , the upper wall of the tank is formed by at least two valves rotatable around horizontal edges of the tank, interconnected by means of a detachable connection, and a link for interaction with the shell of the tank and its races rytiya is in the form of at least one flexible member having one end connected to the load, and the other - with one of said valves.

This embodiment of the device will allow you to effectively, using simple technical means, implement the inventive method and ensure its environmental friendliness, since the container is dissolved in water, and the cargo made of inorganic substances, such as stone, can be left in the water without affecting the environment the environment.

In addition, the fact that the proposed device can be equipped with a cardboard frame, formed by a rectangular frame with protrusions to cover the side walls and the bottom of the tank and perpendicular to the frame, at its corners, racks, each of which is configured to cover adjacent walls of the tank , will increase the rigidity of the tank, and will also allow you to effectively open the shell of the tank without crushing it.

Figure 1, 2, 3 schematically shows three versions of the device for implementing the proposed method (axonometric projection); figure 4 schematically shows the implementation of the proposed method for the first execution of the device for its implementation, made according to figure 1 (arrows indicate the movement of the sorbent, which is shown in the form of crosses); figure 5, 6 schematically shows the implementation of the proposed method in the third embodiment of the device for its implementation, made according to figure 3; figure 7 shows the capacity of the device for implementing the proposed method, made according to figure 3; on Fig shows a scan of the shell capacity of the device made according to figure 3; figure 9 shows the frame of the device for implementing the proposed method.

A device for collecting petroleum products from the water surface, which serves to implement the proposed method, contains a container with a sorbent placed in it and a means for opening the shell of the container. The specified capacity is made of paper, in the form of a parallelepiped, and includes a bottom 1, side 2 and top 3 walls, in a known manner, for example with glue, interconnected. The means for opening the container shell includes a load 4 made of inorganic material (stone), placed at the bottom of the container and connected to the container shell by a kinematic chain containing a link connected to the specified load, and a link for interaction with the container shell and its disclosure.

In the device shown in Fig. 1, the said link for interacting with the container shell and its opening is made in the form of a cross 5 made of cardboard (crosses), the ends of which are connected by flexible elements 6 (rope) with a load of 4 (links of the said kinematic chain connected (tied to the load) with the load 4) and in contact with the upper ends of the side walls 2 of the tank.

In the device depicted in figure 2, the links for interacting with the shell of the container and its disclosure are made in the form of flexible elements 7 (fishing line) having greater hardness than the shell of the tank. At one end, the flexible elements 7 are connected (tied) to the load 4, the other to the frame 8 (tied). Flexible elements 7 cover adjacent side walls 2 and the upper wall 3 of the tank.

The devices shown in FIGS. 1, 2 are provided with a cardboard frame 8 (FIG. 9) formed by a rectangular frame 9 with projections 10, 11 for covering the side walls 2 and the bottom 1 of said container, respectively, and perpendicular to the frame, along its corners, racks 12, each of which is made with the possibility of coverage of the adjacent adjacent walls 2 of the tank (frame and racks of the frame 9 have a corner profile). Capacities are inserted into the specified frame. This allows you to increase the rigidity of the tank, and also allows you to open the shell of the tank without crushing it.

In the device shown in FIGS. 3, 8, the side walls 2 of the said container are rotatable relative to its bottom 1. The upper wall of the container is formed by four valves 14 rotatable around the horizontal upper ribs 13 of the container, interconnected by a detachable connection (attached to him with glue strip 15 of paper). On Fig, on the scan of the tank, the lines that become the edges of the tank - the parallelepiped when it is formed from the specified scan, are shown by dashed lines. At the same time, to ensure the tightness of the container, it may have flanges 16 (Fig. 8). The links for interacting with the container shell and its opening are made in the form of flexible elements 17 (rope), each of which is connected at one end (tied to a load) with a load of 4, and the other with one of these valves (using known glue).

The method of collecting oil from the water surface is as follows.

At least one container with a sorbent placed on a surface with a layer of oil products (stain) located on the water surface is dumped (from the vessel), this container is immersed in a layer of oil products and water, and the shell of the container is opened to release the sorbent from the container using a bound with a container means for opening the shell of the container and the adsorption of petroleum products located on the surface of the water released from the tank mentioned sorbent. With a significant area of the spot, the necessary number of containers with a sorbent is discarded, evenly distributing them over the surface of the spot.

In the first embodiment (Fig. 1), the opening of the container shell is as follows.

When falling from the side of the vessel under the action of cargo 4, the tank occupies a vertical position (Fig.4, 5).

Opening (opening) of the shell of the tank occurs from the beginning of the immersion of the tank, almost from the moment the tank touches the surface of the spot, because, as experiments have shown, already at that moment the cargo 4 at its bottom passes through its partially dissolved bottom 1. Immersed in water, cargo 4 connected with the cross 5 (cross) flexible elements 6 (ropes), carries him along. In this case, moving down, the cross 5 cuts, that is, opens (opens) the paper shell of the container, and as a result, when the cargo is immersed in water, under its action, the container shell opens and the sorbent is released from it, which therefore does not condense and does not lose properties to adsorb (absorb) oil products.

In the second embodiment example (FIG. 2), the opening of the container shell is carried out similarly to the first embodiment. In this case, the cutting (opening, opening) of the shell of the container under the influence of the load 4 is carried out using flexible elements 7 (fishing line).

In the third embodiment, in a previously known manner, the container is formed from its sweep by turning in the vertical plane (perpendicular to the drawing plane, Fig. 8) the side walls 2, bending the flanges 16 inside the container and closing the valves 14. Load 4 is placed at the bottom of the container. One end each flexible element 17 is attached to the load 4. The other end is glued to the valve 14. The container is filled with a sorbent. The valves with glue connect the paper strip 15 (figure 3). When a specified container with a sorbent is dropped onto a spot, the container shell opens from the beginning of the tank immersion, almost from the moment the container touches the surface of the spot, because, as experiments have shown, already at that moment the load 4 passes through its partially dissolved bottom 1. When immersion of the cargo 4 in water under its influence, the flexible elements associated with it open the paper shell of the container, first opening the valves 14, and then turning the side walls 2 (Fig.6). After the container shell is fully opened (Fig. 6), it is carried away by a load of 4, connected by flexible elements to the bottom of the reservoir, where it quickly dissolves without affecting the environmental ecology. The cargo made of stone remains at the bottom of the reservoir, also without affecting the ecology of the environment.

With all of the indicated versions of the device, when implementing the proposed method, the sorbent is released in such a way that the container shell is opened so that it partially immerses in water, so that the sorbent is released from the surface part of the container with the shell open, like on a layer of oil products (stain), and under it in the process of immersing the tank. To do this, experimentally select a container with a sorbent of such weight and volume that its weight with a load is less than the weight of the water displaced by it and that the sorbent is released when it is opened mainly when it is partially immersed in water, and so that the sorbent from the surface of the tank acted on the spot, and from the underwater part of the tank - under it.

Due to the fact that in the inventive method, the opening (opening) of the shell of the tank occurs from the beginning of the immersion of the tank, almost from the moment the tank touches the surface of the spot, the sorbent does not compact and its ability to adsorb oil is lost. As experiments have shown, already at this moment the cargo at its bottom passes through the partially dissolved bottom of it, and as a result, when the cargo is immersed in water, under its action the container shell opens and the sorbent is released from it, which therefore does not condense in a closed volume , but is in an open volume (the tank is open, a sorbent leaves it) and does not lose its ability to adsorb (absorb) oil products.

Due to the fact that when using the proposed method, the sorbent is released both on the specified layer of oil products and under it when the tank is immersed, and not after it is completely immersed, as in the known method, the sorbent particles do not have time to absorb water and therefore quickly float, penetrate the boundary layer between water and petroleum products, reducing adhesion between these substances, which allows these particles to enter the layer of petroleum products, adsorbing them with their entire surface. These particles are located on the surface of the water, localize individual drops of oil products and adsorb them. In the case when the thickness of the layer of oil products is larger than the sizes of the sorbent particles, the layer of oil products located above them, as well as a significant portion of the oil products between them, may not be adsorbed by these particles. The specified layer of oil products and the non-adsorbed part of the oil products between the specified sorbent particles coming from the bottom from the bottom are adsorbed by the sorbent particles coming in and from above, which, according to the proposed method, is applied to the oil layer when the container shell is opened. Located on the surface of the water, the sorbent with the oil products adsorbed by it can be removed using any known mechanical method.

Tests carried out in the experimental pool of the proposed method and device for its implementation showed that they provide improved compared to known methods and devices the quality of cleaning water surfaces from oil products.

Example 1

In the experimental pool with a layer of petroleum products on the surface of the water was dumped with a uniform distribution on its surface, devices made in the same way as devices for implementing the proposed method. In this case, when containers with a sorbent touched the surface of the pool, paper shells of the tanks were opened and the sorbent was released both on the oil product layer and under it (on the stain and under the stain). In addition, there was no compaction of the sorbent, and it did not lose its ability to adsorb oil products. After adsorption of oil products by a sorbent, it was removed from the pool surface in a known manner using a pump. At the same time, a number of containers was selected at which full transparency of the pool was achieved, at which the bottom of the pool was clearly visible.

Example 2

The same amount of paper containers with a sorbent of the same volume as in the previous example was dumped onto the surface of the pool with a layer of oil products, evenly distributing on the surface of the pool. The release of the sorbent from the containers was carried out by gradually dissolving them in water. However, after the removal of the sorbent, however, complete transparency of the pool water was not achieved; it remained contaminated with oil products.

Thus, when using the proposed method, the quality of cleaning the water surface from oil products and the efficiency of use of the sorbent are increased.

In addition, increases the environmental friendliness of the method of collecting oil from the water surface and the device for its implementation, simplifies the design of the device for implementing the method.

Claims (8)

1. A method of collecting oil products from a water surface, which consists in dumping at least one container with a sorbent disposed on a portion with a layer of oil on a surface of the water, immersing said container in a layer of oil products and water, opening the shell containers for discharging the sorbent from the container using means associated with the container for opening the container shell and adsorption of oil products on the surface of the water said sorbent released from the container, characterized in that That disclosure shell container and an outlet therefrom sorbent is carried out from the beginning of immersion of said container with the sorbent, wherein when the container is immersed in water with the sorbent is carried disclosure and release the sorbent as in said oil layer and under it. 2. The method according to claim 1, characterized in that a container made of water-soluble material is used to place the sorbent. 3. The method according to claim 2, characterized in that for the placement of the sorbent use a container made of paper. 4. A device for collecting petroleum products from the surface of the water, containing a container with a sorbent placed in it and means for opening the shell of the tank, characterized in that said tank is made of paper in the form of a parallelepiped and includes a bottom, side and top walls, and a means for opening the shell of the container includes a load made of inorganic material placed at the bottom of the container and connected to the container shell by a kinematic chain containing at least one link connected to the specified load and at least e, one link for interacting with the container shell and its disclosure. 5. The device according to claim 4, characterized in that it is provided with a frame made of cardboard, formed by a rectangular frame with protrusions for covering the side walls and the bottom of the said container and racks located perpendicular to the frame at its corners, each of which is configured to cover adjacent walls capacities. 6. The device according to claim 4, characterized in that the link for interacting with the shell of the container and its disclosure is made of cardboard in the form of a cross, the ends of which are connected by flexible elements with the said load and are in contact with the upper ends of the side walls of the container. 7. The device according to claim 4 or 5, characterized in that the link for interacting with the container shell and its disclosure is made in the form of at least one flexible element having a greater hardness than the shell of the container, one end connected to the load, another - with a frame, and covering two adjacent side walls and the upper wall of the tank. 8. The device according to claim 4, characterized in that the side walls of the tank are rotatable relative to its bottom, the upper wall of the tank is formed by at least two valves rotatable around the upper horizontal ribs of the tank, interconnected by a detachable connection, and the link for interaction with the container shell and its opening is made in the form of at least one flexible element, one end connected to the load, and the other to one of these valves.

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