MD4855C1 - Wave Energy Conversion Installation - Google Patents

Abstract

The invention relates to the field of renewable energy sources, namely to wave energy conversion installations.The installation, according to the invention, comprises a plurality of identical hollow floating elements (1), pivotally connected to each other, and a plurality of identical hollow submersible bodies (2), arranged in at least two parallel rows on both sides of the floating elements (1), mounted therewith and hinged to each other. The installation also comprises a plurality of identical hollow submersible bodies (3), pivotally connected to each other, arranged in at least one row under the floating elements (1), pivotally connected in parallel thereto by props (4); drive rods (5) interconnected to hydraulic rotary motors (6) and to bi-directional pumps (7), which are mounted on floating elements (1) and connected to a programmed control system with a software. The installation is equipped with floats (8), a cable (9) and an anchor (10).

Description

The invention refers to the field of renewable energy sources, namely to wave energy conversion installations.

A wave energy conversion installation is known, which contains some cylindrical sections articulated with hydraulic cylinders, which are connected with rotating hydraulic motors, at the same time the hydraulic motors actuate some electric generators to produce electricity [1].

The disadvantages of the known installation consist in the possibility of effective operation only in the range of wave lengths, comparable to the length of a section, as well as in the low efficiency due to the action of the waves on the given installation, only from the bottom.

A wave energy conversion installation is also known, which contains at least two paddles placed in parallel, each being executed from a row of identical sections joined together, which, being mounted on the surface of the water, repeats the amplitude of the waves through its oscillations, and transforms these movements into the rotating movement of the rotor of the electric generator [2].

The disadvantage of the known installation consists in the low efficiency of energy conversion at a wide range of amplitude and period of the waves.

Also, a wave energy conversion installation is known, which contains a plurality of floating elements, which are interconnected with each other articulated, each floating element being provided with a plate or a plate-like element, which is supported by the floating element and positioned so that, during the use of the installation, it is submerged below the water level, at the same time the installation also contains means for converting the relative movement of the floating elements into useful energy, such as electricity [3].

The disadvantage of the known installation is the low efficiency due to the partial use of wave energy, namely only that which acts on the surface.

The technical problem, which the given invention solves, consists in eliminating the mentioned disadvantages by creating an installation, which ensures a high efficiency of the use of wave energy of different sizes of amplitude and period, as well as the extension of the wave energy conversion range.

The problem is solved by the fact that an installation with a flexible construction is used, which, under the action of the wave movement, self-aligns in the direction of the wave propagation and performs undulating movements, which are transformed into rotational movements of the rotors of the rotating hydraulic motors.

The wave energy conversion installation, according to the proposed invention, removes the disadvantage mentioned above in that it contains a multitude of identical hollow floating elements, joined together articulated by axes, and a multitude of identical hollow submersible bodies, arranged in at least two rows parallel on both sides of the floating elements, mounted with them and joined together articulated by the mentioned axes; at the same time, the installation also contains a multitude of identical hollow submersible bodies, joined together articulated, arranged at least in one row, located at least one level below the floating elements, joined articulated parallel to them by uprights; some actuation rods interconnected with rotary hydraulic motors and bidirectional pumps, which are mounted on the floating elements and connected to a software-programmed control system. The installation is equipped with rafts, a cable and an anchor.

The technical result of the proposed invention consists in the possibility of changing the mass of the energy conversion installation depending on the amplitude and period of the waves in order to obtain a major wave energy conversion yield.

The invention is explained by the drawings in fig. 1-3, which represent:

- fig. 1, diagram of the wave energy conversion installation, in rest state;

- fig. 2, scheme of the wave energy conversion installation, front view;

- fig. 3, diagram of the wave energy conversion installation, in working condition.

The wave energy conversion installation contains a plurality of identical floating hollow elements 1, joined together hingedly by axes, so that they are movable relative to each other, and a plurality of identical submersible hollow bodies 2, arranged at least in two rows parallel on both sides of the floating elements 1, mounted with them and joined together articulated by the mentioned axes. The installation also contains a multitude of identical hollow submersible bodies 3, hinged together, arranged at least in one row, located at least one level below the floating elements 1, joined hinged parallel to them by uprights 4, some actuation rods 5 interconnected with rotary hydraulic motors 6 and bidirectional pumps 7, mounted on hollow floating elements 1 and connected to a software-programmed control system. The installation is equipped with rafts 8, cable 9, and anchor 10.

The wave energy conversion facility works as follows.

Before putting the wave energy conversion installation into operation, the anchor 10 is installed, to which the installation is fixed by the cable 9. The floating elements 1 and the hollow submersible bodies 2 and 3, one by one, are partially filled with water and hermetically closed, after which the installation is mounted on the water, oriented in the direction of the wave propagation, the rafts 8, indicating the location of the wave energy conversion installation , as well as its positioning. Under the action of the waves, the installation is put into operation and begins to perform undulating movements simultaneously and together with the waves, configuring their profile, thus, with a linear movement of each wave, the installation moves from one position to another and returns to the initial position, performing a work cycle, in which there is a cyclical change of the angles between the floating elements 1, the submersible bodies 3 and the uprights 4, as well as a mutual displacement between the floating elements 1 and the submersible bodies 3, as a result of which a linear displacement of the rods is produced drive 5, which rotate the rotors of the rotary hydraulic motors 6. By means of the bidirectional pumps 7, automatically directed by a programmed control system with pre-installed software (not shown in the figures), the floating elements 1, can be partially filled with a volume of water, calculated by the pre-installed software, depending on the parameters of the waves, thus respecting a certain correlation between the mass of the installation, the amplitude and the period of the action of the waves created, to ensure a high efficiency of the operation of the installation for a maximum conversion of the energy of the waves and as a result, obtaining a high energy conversion efficiencies throughout the working range of the waves. During the operation of the wave energy conversion installation, depending on the amplitude and period of the waves, the programmed control system, based on the pre-installed software, activates the bidirectional pumps 7, mounted on the floating elements 1, for their partial filling with water or evacuation of the water in their cavity, thus increasing or decreasing the mass of the floating elements 1, according to the parameters established by the pre-installed software, with the aim of maintaining a calculated correlation between the mass of the installation, the amplitude and the period of the waves created, in order to obtain an efficient regime of maximum conversion of the energy of the waves formed. Identical submersible bodies 2, hinged together, arranged at least in two parallel rows on both sides of the floating elements 1, mounted with them, on the same axes of the floating elements 1, ensure the stability of the wave energy conversion installation during operation, preventing a dangerous lateral tilt of the installation, thus keeping it in the working position.

Filling the floating elements cave 1, as well as the submersible bodies cave 2 and 3 with water, is a technical solution to change the mass of the wave energy conversion installation depending on the energy of the formed waves, a fact that depends on its efficient operation to obtain a major efficiency of capture and conversion of wave energy, having, at the same time, an economic effect related to the reduction of the mass of metal used in the manufacture of the installation, as well as in its transportation and servicing.

1. Pelamis Wave Energy Converter, Wikipedia, the three encyclopedia, 2007 (found on the Internet at 2015.12.09, url: <https://en.Wikipedia.org/wiki/Pelamis_Wave_Energy_Converter>)

2. EP 3350437 A1 2018.07.25

3. US 4098084 A 1978.07.04

Claims (1)

Wave energy conversion installation, which contains a plurality of identical hollow floating elements, joined to each other articulated by axes, and a plurality of identical hollow submersible bodies, arranged at least in two parallel rows on both sides of the floating elements, mounted with them and joined together articulated by the mentioned axes, at the same time the installation also contains a multitude of identical hollow submersible bodies, joined together articulated, arranged at least in one row, located at least one level below the floating elements, joined articulated parallel to them through amounts; some actuation rods interconnected with rotary hydraulic motors and bidirectional pumps, which are mounted on the floating elements and connected to a software-programmed control system; the installation is equipped with rafts, a cable and an anchor.