RU2236502C2 - Oil sorbing boom - Google Patents

Abstract

FIELD: location and sorption of burning spilled oil.

SUBSTANCE: proposed boom is made in form of tubular member provided with core for imparting buoyancy to boom. Located around core is tubular envelope made from hydrophobic oleophilic non-woven material possessing high sorbing ability to oil and petroleum products. Tubular envelope is embraced by attrition-resistant screen made from polymer threads. To impart fire resistance to boom, core is made from foam basalt, non-woven material of tubular envelope is made from arymide fibers and screen is made from arymide fiber tricot.

EFFECT: enhanced barrier and oil sorbing ability of boom.

3 cl, 3 dwg

Description

The invention relates to means for cleaning open water bodies and streams from contamination by oil and oil products, mainly in the conditions of combustion of the latter.

A device for collecting oil products from a water surface, used to localize oil spills to be destroyed by burning. Such a device is described in published international application WO 97/20110 for cl. IPC E 02 B 15/04, C 02 F 1/40, 1/28, publ. July 5, 1997. The device includes a porous elastic shell made of a fire-resistant material with an oxidized graphite filler placed inside. The disadvantage of this device is the need to heat the filler to a temperature of 600-1000 ° C immediately before using the device.

The closest analogue of the invention is the oil sorbing boom described in the patent of the Russian Federation No. 2183231 class. IPC E 02 B 15/04, publ. 06/10/2002 This bon is made in the form of a tubular element. It has a core made of a polymeric material, which ensures the buoyancy of the boom. Around the core is a shell of a hydrophobic oleophilic non-woven material with high oil sorption capacity. The tubular sheath is covered by a sleeve of abrasion resistant mesh of polymer threads.

However, the high barrier and oil sorption properties of this boom, due to the lack of heat resistance, do not allow it to be used to localize burning spills of oil and oil products.

The objective of the invention is to provide a boom that provides high barrier and oil sorption properties in the localization of burning spills of oil products.

This problem is solved due to the fact that in the oil sorption boom made in the form of a tubular element having a core that provides buoyancy of the boom, a tubular shell located around the core made of hydrophobic oleophilic non-woven material with high sorption ability to oil and oil products, and sleeve resistant to abrasion, a network of polymer filaments covering the tubular shell, the core is made of foam basalt, the non-woven material of the tubular shell is made of arimide fibers, and the sleeve mesh is knitted of arimide yarns. Between the sleeve mesh and the tubular sheath, a polymer heat-resistant film can be placed, covering no more than half of the total surface of the boom facing uncontaminated water and partially immersed in water. Between the tubular sheath and the core, a heat-reflecting layer of a heat-resistant film can be located, covering the core.

The invention is illustrated by drawings, where figure 1 schematically shows a cross section of a boom, and figure 2 is the same, but with heat-resistant and heat-reflecting layers.

As shown in figure 1, the proposed bon is a tubular element 1 provided with a tubular shell 2 located around the core 3. The shell 2 is covered by a hose mesh 4. The tubular shell 2 is made of non-woven material made of arimide fibers with a linear density of 0.33- 0.68 tex, preferably 0.33 tex, and possessing, along with high sorbing ability in relation to oil and oil products, increased flame retardant properties. The oxygen index of the arimide fibers is at 50.

Core 3 is a flame retardant hydrophobic foam basalt.

The sleeve mesh 4 is made of arimide threads and can be made in the form of a pipe on known machines for the production of round knitwear.

The proposed boom has a length of 2 to 5 m. When operating on a water surface along the contour of a burning oil product, as a rule, a set of booms are laid, the amount of which is determined by the area of contamination. In this case, the ends of the booms 7 are lapped or connected together using bundles of arimide fiber. Under its own weight, the bon is partially immersed in water. The buoyancy of the boom is ensured by the core 3. At the same time, the tubular shell 2, which has high oleophilicity, absorbs burning oil products, remaining unchanged due to its fire resistance, prevents their further spread. Depending on the thickness of the polluting oil slick, the tubular shell 2 may include one or more layers of non-woven material from which it is made.

Sleeve mesh 4, made of fire-resistant arimide threads, has a high abrasion resistance and serves to preserve the shape of the boom and connect its structural elements to each other.

With prolonged exposure to high temperatures to increase the safety of the core 3, which ensures the buoyancy of the boom, the core can be wrapped in a heat-reflecting layer 5, which is used, for example, foil or metallized film (figure 2).

The described bon is preferably used for rapid deployment in small areas when igniting heavy fractions of petroleum products.

If it is necessary to use the proposed boom for localizing burning oil spills of a large area and, in particular, light fractions of oil products on any area of spills, a heat-resistant film 6 is placed between the hose net 4 and the tubular shell 2 (figure 2), covering no more than half of the surface of the boom. In this case, the bon is laid in such a way that its surface, covered by a film, is facing unpolluted water and partially immersed in water. This prevents both the possible slip of oil pollution under the boom, and the ingress of the sorbed product from the surface of the tubular shell 2 onto an unpolluted water surface.

A set of proposed booms can be stacked on a water surface in the form of closed or open circuits. In the latter case, the bon is used to delay a burning oil slick from explosive and fire hazardous objects.

Claims (3)

1. An oil-absorbing boom made in the form of a tubular element having a core providing buoyancy of the boom, a tubular shell located around the core made of a hydrophobic oleophilic non-woven material having a high sorbing ability for oil and oil products, and a sleeve abrasion resistant mesh made of polymer threads, covering a tubular shell, characterized in that the core is made of foam basalt, the non-woven material of the tubular shell is made of arimide fibers, and the sleeve set and related method of arimidnyh knitted yarns. 2. Bon according to claim 1, characterized in that a heat-resistant polymer film is placed between the sleeve mesh and the tubular sheath, covering no more than half of its total surface from the side facing uncontaminated water and partially immersed in water. 3. Bon according to claim 1 or 2, characterized in that between the tubular shell and the core there is a heat-reflecting layer of heat-resistant film covering the core.

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