RU2005838C1 - Floating breakwater - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: breakwater is made from several connected to each other long hollow vessels made in parallel to each other to form flat structure and arranged at right angle to flow direction. Secured to last vessel is ballast chamber directed to floor. EFFECT: higher efficiency. 1 dwg

Description

 The invention relates to devices for converting wave energy.

 The purpose of the invention: improving the efficiency of the breakwater.

 The invention is illustrated in the drawing.

 A floating breakwater consists of several hollow tanks 1 of an elongated shape. Hollow tanks are connected closely to each other and form a flat structure. Their walls are made of elastic material. At least one ballast chamber 2 is attached to the extreme tank.

 When the ballast chamber is filled with water, the flat structure of the breakwater from hollow tanks takes a vertical position under water (with the containers located one above the other) and the upper tank protrudes above the surface of the water. The ballast chamber can be made of metal or also of elastic material, but the necessary amount of cargo can be attached to it in order to maintain the vertical position of the floating breakwater and positive buoyancy after filling it with water.

 In this form, a wave breaker is installed across the direction of wave movement in the area of the enclosed water area and serves to effectively absorb the energy of sea waves.

 The height of the underwater part of the breakwater, as well as its thickness should be determined by the maximum height and wavelength in the installation area. In practice, the lower ballast chamber can be located at a depth not exceeding half the wavelength, since the influence of the surface wave does not spread deeper. Thus, the breakwater does not have to reach the bottom of the enclosed area.

 The suppression of wave energy is carried out in accordance with known physical phenomena occurring at the boundary of two media during the propagation of waves. The energy transferred from the incident wave to the air in the hollow containers is dissipated in the form of heat into the environment, but the air is not consumed, but is stored in the form of several large horizontal bubbles enclosed in these containers.

 Hollow containers with elastic walls can be made from rubber, rubberized fabric or other synthetic materials.

 A floating breakwater will require only the initial costs of its manufacture, does not require constant (during a period of great excitement) pumping air through water and the corresponding consumption of electricity or fuel to drive compressors. To make and install such barriers in the coastal zone is incomparably easier and cheaper than building stationary reinforced concrete wave protection structures, which, in turn, undergo gradual destruction by waves.

 A wave break from hollow tanks will save energy, fuel and materials if used not only near the coast, but also in the open sea. A wave-breaker can quickly install in any necessary place in the sea, which is important when conducting rescue operations on the high seas. In the case of using a breakwater at great depths at the installation site, mounting it to the bottom is optional.

 (56) U.S. Patent No. 4,027,486, cl. E 02 B 3/06, 1977.

Claims (1)

 A FLOATING WAVE made of several interconnected hollow tanks of an elongated shape, parallel to one another with the formation of a flat structure mounted perpendicular to the direction of flow, characterized in that, in order to increase work efficiency, the tanks are placed close to each other, their the walls are made of elastic material, and a ballast chamber is attached to the last tank towards the bottom.

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