RU136453U1 - DEVICE FOR SEPARATING LIQUID HYDROCARBONS FROM WATER - Google Patents

Abstract

1. A device for separating from water and collecting liquid hydrocarbons, including a frame filled with natural sheep’s wool, made of hollow elements or mesh. 2. The device according to claim 1, characterized in that the hollow frame elements are made of a double thermally connected polyethylene layer with the formation of sealed cavities. The device according to claim 2, characterized in that the hollow elements of the frame are made of tubular or rectangular shape. The device according to claim 2, characterized in that the cavities of the hollow frame elements are connected to the external environment and / or to each other through shut-off valves with the possibility of filling the cavities with water or air. The device according to claim 1, characterized in that the frame is equipped with sinkers. The device according to claim 1, characterized in that the frame is equipped with floats. The device according to claim 1, characterized in that biocatalytic substances and / or spores of oil-oxidizing bacteria are applied to the sheep’s wool. The device according to claim 1, characterized in that the filled natural sheep wool wool has a density of 0.01-0.5 g / cm.

Description

The utility model relates to devices for liquidating spills of liquid hydrocarbons (oil and oil products, vegetable and mineral oils) on the surface and in the volume of water. Such devices are preferred when cleaning and removing oily liquids, when the use of heavy equipment is ineffective, or in combination with the latter for post-treatment. The devices can be used as preventive means at potentially hazardous facilities: oil depots, automobile enterprises, air and sea transport enterprises, trunk pipelines and any enterprises whose activity is associated with the use of liquid hydrocarbons, accompanied by potential leaks and spills. Another area of application of such devices is their use as downloads in filter plants for the purification of surface and waste water from oil products and other liquid hydrocarbons.

A device is known for removing oil and oil products from water or the surface of the earth, which are mats or rugs from an oil-adsorbing material (DE 4140247 [1]). Glass wool is used as such, the fibers of which are coated with a mixture of silicon and starch. A disadvantage of the known device is its low adsorption capacity.

A device for removing contaminants from petroleum products is known, including two outer fibrous layers, each of which is pre-bonded by needle-piercing, and an intermediate fibrous layer of synthetic fibers located between these outer layers, bonded to each other by needle-piercing, The outer layers are made of polypropylene, and the intermediate layer is made of polypropylene or polyester fibers, and the outer fibrous layers are made more dense than the intermediate fibrous layer (RU 2139959 [2]). A disadvantage of the known device is its low adsorption capacity.

A device is known (RU 2182939 [3]). for removing oil product contaminants, including two outer fibrous layers containing polypropylene fibers, and an intermediate fibrous layer bonded to these layers containing polypropylene or polyester fibers and having a density lower than the density of the outer fibrous layers. The fibers of the outer and intermediate fibrous layers and all layers are thermally bonded to each other, each of the fibrous layers additionally contains bicomponent polyester fibers, and the content of bicomponent fibers in each of the outer fibrous layers is higher than the content of these fibers in the intermediate fibrous layer. The bulk density of each of the outer layers is 0.30-0.40 g / m ³ and the bulk density of the intermediate layer is 0.20-0.24 g / m ³ . A disadvantage of the known device is its low adsorption capacity.

A known method of cleaning the surface of water and soil from contamination by oil and oil products (RU 2091539 [4]), which provides for the use of a device made in the form of mats made of cotton sorbent, the outer side of which is pre-treated by spraying a thin layer of machine or transformer oil. A layer of cotton-containing sorbent in the mat is fixed between layers of cotton or synthetic weaving or cotton mesh with a distance between the fabric threads or mesh size of the mesh fixing the sorbent in the mat is smaller than the particle size of the cotton-containing sorbent. Mat is performed with a length and width within 0.5-1 m and a thickness, the ratio of which to the layer thickness of the spilled oil or oil product is (0.5: 1) (1: 1), and cotton waste of spinning production is used as a cotton-containing sorbent.

The disadvantages of the known device is the low adsorption capacity. In addition, cotton absorbs moisture and mats filled with it drown without having exhausted its ability to adsorb oil products.

The inventive device for separation from water and the collection of liquid hydrocarbons is aimed at increasing the adsorption capacity.

This result is achieved in that the device for separating from water and collecting liquid hydrocarbons includes a frame filled with natural sheep’s wool made of hollow elements or mesh.

The indicated result is also achieved by the fact that the hollow frame elements are made of a double thermally connected polyethylene layer, with the formation of airtight cavities.

The specified result is achieved in the same way that the frame elements are made tubular or rectangular in shape.

The indicated result is also achieved by the fact that the cavities of the carcass elements are connected to the external environment and / or to each other through shutoff valves with the possibility of filling the cavities with water or air.

The specified result is also achieved by the fact that the frame is equipped with sinkers.

The specified result is also achieved by the fact that the frame is equipped with floats

This result is also achieved by the fact that biocatalysts and / or spores of oil-oxidizing bacteria are applied to the sheep’s wool.

The specified result is achieved in the same way that the filled natural sheep wool has a density of 0.01-0.5 g / cm ³

The use of easily accessible natural sheep wool, part of which is currently being destroyed due to lack of demand, significantly increases the efficiency of the device. Wool is hydrophobic, does not absorb moisture and has a high adsorption capacity of hydrocarbons from mixtures with water and even emulsions. Moreover, it was found that wool has a unique property of catalyzing the coalescence of liquid hydrocarbons and such a rare variant of coalescence as autogesia. Coalescence increases the efficiency of separation of hydrocarbons from water and their collection. The fibrous coalescence medium causes the separation of emulsions regardless of the nature of the emulsion. The coalescence medium provides for the continuous phase of the emulsion an energetically different surface from the continuous phase. As such, the surface of the wool fibers competes with the continuous phase of the emulsion for the dispersed or drip phase of the emulsion. When the emulsion comes into contact with and passes through a coalescent medium, the droplets are redistributed between the solid surface and the continuous phase. Drops adsorbed on the surface of solid media move along the surfaces of the fibers and in some cases wet the surface of the fibers. When the additional emulsion flows through the media, the adsorbed dispersed phase encounters other droplets associated with the media, and they coalesce. The process of migration and coalescence of droplets continues while the emulsion moves through the medium. A coalescence medium successfully destroys this emulsion if the dispersed phase is preferably absorbed or repelled and, at the exit point from the media, the droplet phase coalesces to obtain sufficiently large droplets. Drops are separated from the continuous phase as a function of the density difference between the corresponding liquids (RU 2472566 [5]). The implementation of the frame of the hollow elements provides the device immediately several advantages. If you fill them with water, you can adjust the immersion depth of the device in the liquid, which must be cleaned of hydrocarbons and to ensure their collection. If the buoyancy of the device in the liquid being cleaned is not enough, then the volume of the hollow elements can be filled with air. The frame can also be made in the form of a grid of any material suitable for this - wire, polymer threads, etc. It is only necessary that the mesh material possesses sufficient strength and is resistant to the effects of the liquid being cleaned and the collected liquid hydrocarbons.

To adjust the buoyancy in this case, it is advisable to use weights or floats. In dynamically active conditions (in waves, in flowing waters), the own buoyancy and volume reserves and stabilizing cavities filled with water may not be enough to maintain the device in working position. In this case, the frame is equipped with additional floats and is equipped with sinkers.

It is most simple to perform hollow frame elements from a double thermally connected polyethylene layer, with the formation of airtight cavities. To ensure the stability of the frame of the hollow elements, it is advisable to perform their tubular or rectangular shape. The use of a double thermally connected polyethylene layer as a frame, with the formation of sealed cavities, facilitates the transportation of the collection device and its use in the contouring of extended spills.

Compact and minimized during transportation, the device is put into operation after filling the cavities with air or water. The choice of the filling contour sets the shape of the working device, which can form a mat or barrier lying on the surface of the water; surface barrier with a freely hanging curtain in the surface layer of water or a rigid screen in the thickness of the liquid. Such flexibility of using the device will allow limiting the distribution of hydrocarbons in a wide range of densities, both light, floating on the surface of the liquid, and heavy, drifting in the thickness of an inhomogeneous medium stratified by temperature or salt concentration. The possibility of transporting extended assemblies in rolled-up form will allow quickly delineating the high-yield spills that occur during tanker disasters, emissions from production wells, and pipeline accidents. The stability of the materials of the devices (natural wool and reinforced polyethylene) provides the possibility of application in the entire range of weather and climate conditions - from low-temperature polar regions to tropical latitudes.

The device can be used repeatedly: removed after filling the cells with hydrocarbons and returned to continue collection after removal of the collected material (oils, petroleum products, and other substances), for example by pressing. As the experiments showed, the coalescence property of the ability of natural wool is preserved after removing excess material collected.

To ensure the stability of the shape of the frame from the hollow elements and improve operational properties, it is advisable to perform their tubular or rectangular shape. The use of tubular frame elements is preferred in emergency spill blocking devices. The frame of rectangular cavities provides a more uniform distribution of wool and can be used in stationary barriers to separate hydrocarbons from effluents in places of constant losses (spill stations, gas stations, storm drains, etc.).

Accordingly, in order to prevent the loss of water or air in the cavities of the hollow elements of the frame, they are connected to the external environment and / or to each other through shutoff valves. The presence of shutoff valves between the cavities of the hollow frame elements in the places of their connection between each other and / or with the external environment provides the ability to fill a selected part of the cavities with water or air, which extends the technical capabilities of the device. Depending on the conditions of the spill, the device can be used as a barrier or mat on the surface of the water when blocking spills of light hydrocarbons or as a partially submerged barrier or as a screen of sufficiently high height. Locking devices are selected from among the known. It is most advisable to use non-return or safety valves used in rubber rings.

The choice of filling method depends on the specific conditions at the spill site. If the fluids are stratified and hydrocarbons spread over the surface of the water, it is preferable to use mats, tows or sleeves. To separate emulsified mixtures, it is advisable to use screens.

If the spill occurred in remote, elusive areas that make it difficult to completely remove the device with accumulated hydrocarbons, it is advisable to destroy the collected hydrocarbons at the collection point to ensure environmental safety of the environment. In this case, the device uses sheep wool with previously applied biocatalytic substances and / or spores of oil-oxidizing bacteria. The latter can be immobilized and work as uterine material, stimulating the development of bacterial populations in the environment, and the rate of bacterial reproduction will depend on the concentration and increase with increasing volume of accumulated hydrocarbons.

As a result, biodegradation of bound hydrocarbons is carried out naturally, due to the vital activity of a biological product applied to the wool, which may include well-known cultures of hydrocarbon-oxidizing microorganisms and the association of soil oil-oxidizing bacteria, and mycelial fungi. The cultures of hydrocarbon-oxidizing microorganisms and the association of soil oil-oxidizing bacteria of selected biologics are used, depending on the composition of the petroleum products. The choice of types of microorganisms that are directly suitable for solving the task is carried out empirically, by the method of laboratory selection. Depending on the task, you can use either one or several types of microorganisms.

An important design feature of the device is the possibility of using natural sheep wool in the skeleton in a wide density range from 0.01 g / cm ³ to 0.5 g / cm ³ . Wool of low density is used in the collection of hydrocarbons in inactive waters, when its coalescent properties are realized. Wool of high density (felt) is used in pressure currents, which in natural conditions form on steep slopes or are characteristic of industrial plants. Wool of higher density has a high hydraulic resistance, making it difficult to realize its other properties.

At a density below 0.01 g / cm ^{3, the} use of the device becomes ineffective due to the small amount of working material. At a density of more than 0.5 g \ cm ^{3 the} use of the device is impractical due to the low throughput of the material. High-density wool or felt can be used in technological devices in which fluid is pumped.

The essence of the claimed utility model is illustrated by an example implementation and a drawing which schematically shows a general view of the device ..

A device for separating from water and collecting liquid hydrocarbons includes a frame made of hollow elements or mesh 1, filled with natural sheep wool 2 (washed or unwashed). The frame can be made of various geometric shapes - in the form of a mat in the form of a rectangular parallelepiped (as shown in the drawing), rug, tow, towel, tube, etc.

The ability of sheep wool to collect and hold drops of hydrocarbons provides the possibility of widespread use of such devices. As mats, tows or towels, they can be used to contour spills to reduce the area of spills. At the same time, for contouring spills, it is advisable to connect several devices to each other with the formation of an extended prefabricated structure or closed loop. Devices can be connected using any known means, for example, one or more ropes, ropes passing through technological reinforced holes in mats or screens or using a pair of ring-carabiner, including formed frame elements.

The selective ability of wool to pass water and retain hydrocarbons provides great advantages compared with other types of sorbents, in particular cotton or lignin, which are wet and heavier. Such a device can operate in calm water bodies, in flowing water passing through an absorbent material, and even on an agitated surface. Sleeves, tows or towels can be repeatedly used to extract oil from the contoured spill, since the collected material is easily separated from the wool, for example by pressing. The spent collection can be disposed of in various ways using the technologies of recycling the polyethylene skeleton, or controlled burning.

Claims (8)

1. A device for separating from water and collecting liquid hydrocarbons, including a frame filled with natural sheep’s wool, made of hollow elements or mesh. 2. The device according to claim 1, characterized in that the hollow frame elements are made of a double thermally connected polyethylene layer with the formation of sealed cavities. 3. The device according to claim 2, characterized in that the hollow frame elements are made of tubular or rectangular shape. 4. The device according to claim 2, characterized in that the cavity of the hollow frame elements are connected to the external environment and / or to each other through shutoff valves with the possibility of filling the cavities with water or air. 5. The device according to claim 1, characterized in that the frame is equipped with sinkers. 6. The device according to claim 1, characterized in that the frame is equipped with floats. 7. The device according to claim 1, characterized in that biocatalysts and / or spores of oil-oxidizing bacteria are applied to the sheep’s wool. 8. The device according to claim 1, characterized in that the fillable frame natural sheep wool has a density of 0.01-0.5 g / cm ³ .

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