CZ303760B6 - Means for preventing ingress of crude oil into water and/or for separation of crude oil comprised in water - Google Patents

Abstract

The present invention relates to a means for preventing ingress of crude oil into water and/or for separation of crude oil comprised in water, wherein the means comprises a wrapper (1) formed by a textile substrate containing at least one cover layer (10) of z hydrophilic material, wherein at least an another layer (11) of hydrophilic polymeric nanofibers is arranged on the cover layer (10) inner surface that is provided with an inlet opening (2).

Description

A means for preventing oil from entering the water and / or separating the oil contained in the water

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a means for preventing the penetration of oil into water and / or for separating oil contained in water.

BACKGROUND OF THE INVENTION

Existing means for retaining oil, such as nominal walls, are capable of retaining oil only after it has penetrated into the water and is brought to the surface. In such a case, however, the oil is usually already dispersed in a large volume of water, so much more effort and cost is required to capture it. Insufficient conditions such as water jets, rain, waves, etc., considerably reduce the efficiency of silent walls. Moreover, none of the existing means in any way prevents the evaporation of oil or its components and thus further contamination.

It is an object of the present invention to provide a means for preventing the penetration of oil into water, which does not suffer from the same drawbacks as the existing means.

The essence of the technical solution

The object of the invention is achieved by means of preventing the penetration of oil into the water and / or the separation of oil contained in the water, which comprises a textile substrate comprising at least one cover layer of hydrophilic material on which the inner surface is deposited at least one layer of hydrophilic polymer nanofibres having an inlet opening. This arrangement makes it possible to prevent oil from entering the water or to separate the oil from the water.

The cover layer is preferably a hydrophilic fiber fabric or rasp knit.

The layer of hydrophilic polymer nanofibres is then preferably formed by jet-free electrostatic spinning, because in this case it achieves the greatest uniformity in all directions.

To protect the layer of hydrophilic polymer nanofibres, a protective layer formed by a fabric or a grid can be deposited on its inner surface.

Preferably, the individual layers of the package are interconnected by at least a portion of their area by bonding and / or ultrasonic welding.

According to the intended use, the oil barrier and / or oil separation means contained in the waterproofing container is provided with means for closing the inlet opening, optionally with at least one means for manual and / or mechanical gripping and / or gripping, and / or with at least one means for localization.

Overview of the figure in the drawing

In the accompanying drawing, FIG. 1 is a schematic cross-sectional view of a means for preventing the penetration of oil into the water and / or for separating the oil contained in the water according to the invention.

DETAILED DESCRIPTION OF THE INVENTION

The means for preventing the penetration of oil into the water and / or for separating the oil contained in the water according to the invention, in the embodiment shown in FIG. 1, is a spherical-shaped container 1 with a circular inlet opening 2. The container 1 is formed from a textile substrate , on the inner surface of which there is a layer of Π, hydrophilic polymer nanofibres. The cover layer 10 is preferably comprised of a woven fabric of a hydrophilic material, for example based on cellulose (ie cotton, viscose, etc.) and / or a hydrophilic polymer (ie polyamide (PA), polyurethane (PUR), etc.) and / or or other material, such as polyester (PES), whose hydrophilic properties are increased to the desired value by a suitable surface treatment, e.g. impregnation with a hydrophilic agent.

In another variation of embodiment, the cover layer 10 may also consist of a suitable type of knitted fabric, for example a rasp knitted fabric, etc.

The layer 11 of hydrophilic polymer nanofibres is then prepared by one of the known methods from a hydrophilic polymer, eg polyamide (PA), polyurethane (PUR), etc., its copolymers, or a mixture of such polymers and / or copolymers. In order to achieve the highest possible uniformity of the coating 1, the most advantageous means is the use of a layer 11 of hydrophilic polymer nanofibres prepared by jet-free electrostatic spinning, in which the polymer nanofibers are formed in an electric field. An apparatus for carrying out this method is commercially available under the name Nanospider from Elmarco, CR. Using this technology, polymer nanofibers can be deposited into the layer of the desired thickness or thickness during the production. basis weight directly on the surface of the material of the cover layer 10. If sufficient adhesion is not achieved, or if the two layers 10, 11 are produced separately, it is advantageous to additionally suitably use them, e.g. using binder, ultrasonic welding, etc. , interconnect, as needed, either in their entire area or at least in part.

In order not to quickly fill the interfilament spaces of the layer 1 of hydrophilic polymer nanofibres with oil and the composition according to the invention retains long-term functionality, it is advantageous if the layer 1 of hydrophilic polymer nanofibres has in the bottom part of the package 1 resp. in the vicinity of the inlet opening 2, a higher porosity than in other parts of the package.

In not shown variants of the embodiment, the above-described textile substrate can be supplemented with further layers, for example a protective layer formed by a fabric or a grid, deposited on the inner surface of the layer 11 of hydrophilic polymer nanofibres. This layer, whose inter-fiber spaces are preferably larger than the inter-fiber spaces of the layer 11 of hydrophilic polymer nanofibres, then serves in particular to protect the layer 11 of hydrophilic polymer nanofibres from mechanical damage during use and / or storage of the composition according to the invention.

The oil containment means and / or oil separation means are preferably reinforced or otherwise reinforced in the vicinity of the inlet opening 2 and, if necessary, provided with known means (not shown) for connecting the means to a pipe connection fitting, for example. , to an opening in the damaged pipe or tank wall, and / or other elements for anchoring or stabilizing at a desired location and / or in a desired position. Suitable anchoring or stabilizing elements may be provided elsewhere on the housing as desired. Furthermore, it is advantageous if the packaging 1 is also provided with an element or elements for closing the inlet opening 2 and elements for easier gripping or gripping - manual and / or mechanical - eg ropes, eyes, loops, lugs, etc.

The composition according to the invention can be used for two purposes as required. The first is to prevent oil from entering the water, for example, in the event of damage to a pipe or tank containing oil below the water surface. In this case, the means is pushed through the inlet opening 2 or connected to the pipe fitting or anchor in the wall of the damaged pipe or tank by the means provided. At the same time, the leaking oil is trapped in the inner space of the hydrophilic polymer nanofibers and fills it, due to the impermeability of the layer. 2 gradually closes the interfiber spaces of the layer 11 of hydrophilic polymer nanofibres, which is schematically shown in the upper part of the device in Fig. 1. As the density of the oil is lower than the density of water, the entrapped oil rises to the upper part of the device and floats it. According to the invention, it prevents rapid filling of the interfiber spaces of the layer 11 of the hydrophilic polymer nanofibres, but at the same time, for example, it can also be used for spontaneous surfacing in the case of filling the package. For self-emergence, the device according to the invention may further advantageously be provided with suitable stabilizing and / or locating elements (eg light, light beacon, GPS transmitter, etc.).

A second purpose of using the composition according to the invention is to separate the oil already contained in the water. The mixture of oil and water is fed through the inlet 2 into the inner space of the device, where oil is trapped due to the impermeability of the layer 11 of hydrophilic polymer nanofibres, while the water escapes from it. The entrapped oil then rises again to the highest point of the container 1.

The container 1 and / or the oil separation means contained in the water according to the invention and / or its inlet opening 2 can be made in almost any shape and size according to the particular purpose and intended use. If desired, the textile substrate forming both the container and the composition may be supplemented with additional layers of material, including. other layers 11 of hydrophilic polymer nanofibres, possibly reinforcing elements, etc., or elements that facilitate the emergence of the filled composition to the surface, such as (self-inflatable bags), etc. Especially in the case of larger dimensions, of the invention a plurality of inlet openings 2.

Claims (9)

Means for preventing oil from penetrating into and / or separating oil contained in water, characterized in that it comprises a cover (1) formed of a textile substrate comprising at least one cover layer (10) of hydrophilic material on the inner surface of which at least one layer (11) of hydrophilic polymer nanofibres is deposited and is provided with an inlet opening (2). Composition according to claim 1, characterized in that the cover layer (10) is formed by a hydrophilic fiber fabric. Composition according to claim 1, characterized in that the cover layer (10) is formed by a rasp knit of hydrophilic fibers. Composition according to any one of the preceding claims, characterized in that the layer (11) of hydrophilic polymer nanofibres is formed by jet-free electrostatic spinning. The device according to any one of the preceding claims, characterized in that on the inner surface of the layer (11) of hydrophilic polymer nanofibres is deposited a protective layer formed by a fabric or a grid. The device according to any one of the preceding claims, characterized in that the cover layer (10) and the layer (II) of hydrophilic polymer nanofibres are connected by at least a part of their surface by means of bonding and / or ultrasonic welding. Means according to any one of the preceding claims, characterized in that the container (1) is provided with means for closing the inlet opening (2). - J CZ 303760 B6 Device according to any one of the preceding claims, characterized in that the container (1) is provided with at least one means for manually and / or mechanically gripping and / or engaging. A device according to any one of the preceding claims, characterized in that the package (1) is provided with at least one location means.