RU2646896C1 - Variable buoyancy boom at oil marine platforms - Google Patents

Abstract

FIELD: environmental protection.

SUBSTANCE: invention relates to environmental protection, particularly to hydrotechnical structures designed for enclosing section of water surface in order to prevent spreading of oil and oil products. Floating guard boom of variable buoyancy includes a flexible tube mounted on a carrier element, provided on the outside at its entire length in its upper part by two rows of comb-shaped elastic elements, and in the lower part by a single row of such elements. Flexible pipe is looped and divided into separate sections. In each section there is a sealing piston made of elastic material completely overlapping the inside dimension of the section. One end of each section has a water mass communication, the other end is provided with a connection to which an air-vacuum pump is connected via a hose.

EFFECT: simplicity and reliability of construction, increasing the efficiency of work in conditions of oil offshore platforms is provided.

7 cl, 2 dwg

Description

The invention relates to the field of ecology, in particular to hydraulic structures designed to enclose a portion of the water surface in order to prevent the spreading of oil and oil products.

The leakage of oil or oil product in case of violation of the tightness of pipelines, tanks and mechanisms on oil offshore platforms is a huge environmental hazard, causing great material damage to the company in the form of costs for the localization of spills, the elimination of their consequences, fines, etc. In this regard, it is necessary to develop and implement preventive measures for the localization of spills, as well as measures that allow the most prompt response to the fact of such a leak. This task is especially relevant in the winter, during the period of freezing, when the presence of ice and snow on the surface of the reservoir often makes it impossible to timely visual detection of leaks, as well as the use of any commercially available boom structures to localize spills.

A pop-up boom barrier (www.northsea.ru, manufactured according to TU-4834-011-20504853-1998), consisting of 10-meter sections made of wear-resistant polyester coated with petrochemical resistant PVC, is known from the prior art. Each section is equipped with inlet non-return valves and grass safety valves.

The disadvantage of such a boom barrier is the inability to maintain a given shape under the influence of wind or current, the low strength of the soft tissue shell, the long time to bring into working position from standby mode and vice versa.

A pop-up boom barrier is known (RF patent No. 147605, IPC ЕВВ 15/06, published November 10, 2014), including an elastic inflatable casing made of separate sections hermetically connected by connecting devices in the form of a camlock, as well as a source of compressed gas and a shutter to relieve operating pressure, and the internal space of the sections is made uniform, for which the connecting devices are equipped with a transition hole, and the source of compressed gas is connected to the front end of the first section having a locking device in e winch.

The disadvantage of this technical solution is the difficulty of manufacturing booms made in the form of separate sections, as well as insufficient reliability in operation due to the connection of the sections between themselves.

Known boom boom of variable buoyancy (RF patent No. 2221109, IPC ЕВВ 15 / 04-06-08, published January 10, 2004), containing sealed cylindrical sections made of metal pipes in series, interconnected and anchored to the anchors, communicating cavities of which connected to a source of compressed air or gas by means of hoses, have nozzles with plugs at the ends, and section cavities are additionally connected to a pump for supplying water to them, with each section in the upper part provided with two metal flanges mi, in which are pipelines connected to a heating device, also connected to the cavities of the sections. Between the ridges there is a platform on which an air bag is installed. A ballast is attached to the bottom surface of each section opposite the site, a metal strip is attached to the bottom of each section, and pontoons are installed on the sides of each section.

The disadvantage of this boom barrier is the complexity of the technological implementation of the individual sections, the lack of operational reliability due to the presence of intersectional connections and the presence of two lines - hydraulic and pneumatic.

The closest technical solution is a variable buoyancy boom (RF patent No. 2599560, IPC ЕВВ 15/00, published on 10/10/2016), including a flexible pipe attached along a steel cable fixed on opposite banks of the river. One end of the pipe is leaky and communicates with the water mass of the river. The other end is plugged and equipped with a fitting to which an air-vacuum pump is connected via a hose.

The disadvantage of this boom is the ability to use only in streams (rivers).

The objective of the present invention is to provide a simple, reliable, year-round protection of the water from oil spills and oil products.

The technical result of the present invention is to prevent the spreading of oil products around oil offshore platforms.

The technical result is achieved by a boom boom of variable buoyancy, including a flexible pipe mounted on a supporting element, provided on the outside along the entire length in its upper part with two rows of comb-shaped elastic elements, and in the lower part with one row of such elements.

Unlike the prototype, the flexible pipe is looped and divided into separate sections, each of which contains a sealing piston made of elastic material that completely covers the internal section of the section, with one end of each section communicating with the water mass, the other end having a fitting to which it is connected hose air-vacuum pump.

According to the invention, the supporting element is made in the form of a rigid frame, to which the flexible pipe is attached by means of cables, the rigid frame being attached to the drilling platform.

According to the invention, the sealing piston is made in the form of one or two balls made of polyurethane.

According to the invention, a heating electric cable is laid between the upper comb-shaped elastic elements.

According to the invention, a filter element is placed at one end of the section.

According to the invention, the flexible pipe is made of polyethylene, and the comb-shaped elastic elements are made of elastic material.

According to the invention, the flexible pipe is provided with ballast elements.

The technical result is achieved by a looped flexible pipe, consisting of separate sections attached by a system of cables to a rigid metal frame mounted concentrically on the platform supports. The frame is made of corners or pipes and serves for the overall centering of the fence around the platform. The cables provide a flexible connection of the boom sections with a rigid frame, necessary for the ability to repeat the contours of large waves. Smaller disturbances are compensated by comb-like barriers.

The invention is illustrated by drawings, where in FIG. 1. presents a schematic diagram of a boom boom of variable buoyancy, in FIG. 2. - an enlarged fragment of the flexible pipe section.

The variable buoyancy boom (Fig. 1, 2) contains a flexible pipe 1 closed in a ring around an object representing a source of oil or oil products, for example, a drilling platform 2. The flexible pipe 1 is divided into sections and attached by cables 3 to a rigid metal frame 4, which, in turn, is fixed to the drilling platform 2, and at the end of each section at the bottom of the flexible pipe 1 there is a message with the water mass of the sea through the hole 5, at the opposite end in the upper part of the flexible pipe there is a fitting 6 to which the air-vacuum pump is single by means of a hose 7 (not shown in the drawing), in the cavity of each section of the flexible pipe 1 there is a sealing piston 8 made in the form of one or two balls of elastic material that completely overlap the internal section of the flexible pipe section 1. Flexible pipe 1 along the entire length is provided in its upper part with two rows of comb-shaped elastic elements 9, and in the lower part - with one row of such elements 10. At the end of each section of the flexible pipe 1 there is a filter element 11. Between the upper comb-shaped heating elements 12 are laid by elastic elements 9. Flexible pipe 1 is provided with ballast elements 13.

The principle of operation of the boom boom of variable buoyancy is to regulate its buoyancy depending on the mode of operation. In standby mode, the flexible pipe 1 of the boom is flooded. To float a boom, i.e. bringing into working position, it is necessary to displace water from the cavity of the pipe, for which air is pumped into the pipe with an air-vacuum pump, which with the help of sealing balls 8 squeezes water into the sea through drain holes 5 in the pipe sections. A flexible boom tube begins to float and spills the product onto the surface of the water. To put the boom in standby mode, the air from the cavity of the pipe sections is pumped out by an air-vacuum pump, due to the vacuum created in this process, the water begins to fill the sections of the flexible pipe through the filtering elements 11, and the flexible pipe gradually drops down. Sealing balls 8 while moving towards the air-vacuum pump.

In autumn, before the onset of freezing, the flexible boom tube is flooded in advance. After the onset of freezing, the flexible pipe can be lifted or continue to be flooded. When surfacing, the flexible pipe fits snugly against the ice. Possible differences in the thickness of the ice are compensated by the ability of the polyethylene pipe to bend, and small irregularities of the lower surface of the ice are compensated by the upper elastic comb-like elements. Thus, the boom reliably eliminates the possibility of oil spreading under the ice.

In the spring, to prevent destruction during ice breaking, the device must be flooded, i.e. put on standby. In case of comb-like elements freezing to ice, their heating is provided by means of a heating electric cable laid between the upper comb-shaped elements.

Bringing the boom into working position is possible by the operator from the platform remotely or automatically by a leak signal.

The variable buoyancy boom provides:

- operational deployment or bringing into working position, which is determined only by the performance of the air pump, and during flooding, watercraft are not required to bleed air from each individual section through the valve;

- strength and simplicity of construction;

- reliability and durability;

- the possibility of year-round use of the boom barrier even in the presence of ice cover;

- stability of the system due to the rigidity of the supporting structure.

Thus, the simplicity of the design, the speed of bringing it into working position provide high reliability of the boom and operational efficiency in the conditions of oil offshore platforms in all weather conditions.

Claims (7)

1. A boom boom of variable buoyancy, including a flexible pipe mounted on a supporting element, provided on the outside along the entire length in its upper part with two rows of comb-shaped elastic elements, and in the lower part - one row of such elements, characterized in that the flexible pipe is looped and divided into separate sections, in each of which there is a sealing piston made of elastic material, completely overlapping the internal section of the section, with one end of each section being in communication with the water mass, the other the end is equipped with a fitting to which an air-vacuum pump is connected via a hose. 2. A boom barrier of variable buoyancy according to claim 1, characterized in that the supporting element is made in the form of a rigid frame, to which the flexible pipe is attached via cables, and the rigid frame is attached to the drilling platform. 3. The boom barrier of variable buoyancy under item 1, characterized in that the sealing piston is made in the form of one or two balls made of polyurethane. 4. The variable buoyancy boom according to Claim 1, characterized in that a heating electric cable is laid between the upper comb-shaped elastic elements. 5. A boom barrier of variable buoyancy according to claim 1, characterized in that a filter element is placed at one end of the section. 6. The variable buoyancy boom according to claim 1, characterized in that the flexible pipe is made of polyethylene and the comb-like elastic elements are made of elastic material. 7. The boom barrier of variable buoyancy according to claim 1, characterized in that the flexible pipe is equipped with ballast elements.

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