RU2568012C1 - Wave energy plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: wave energy plant includes frame 1, float 4, stock 3 attached to it and having cylindrical and screw parts, fastener 11 preventing rotation of the stock about the vertical axis, housing 5 attached to the frame with rotor 6 located inside it, which converts back-and-forth movement of the stock to rotational movement of the rotor and flange 7, on which magnets 8 rotating together with rotor 6 are fixed. Float 4 is separated by partition wall 19 into upper sealed cavity 20 and lower cavity 21 that is interconnected by means of three-position electromagnetic pneumatic distributor 14 with atmosphere and connected to a compressed air source, thus providing control of volume of water entering the lower part of the float through hole 22.

EFFECT: improving electric power generation efficiency as a result of quick change in weight and adjustment of settlement of the float.

1 dwg

Description

The invention relates to hydropower, in particular to the production of electricity by converting the energy of vertical waves of water into electrical energy.

Known wave power plant (patent RU 2054576 C1, publ. 02.20.1996), containing a rack fixed to the bottom of the pool, which is associated with the possibility of reciprocating movement of the float chamber. The case of the generator with the stator and rotor cores, the winding is mounted on the camera. The ball screw is connected to the stand. The nut is connected to the rotor core. The converter is equipped with an additional nut associated with the stator core, which is installed with a gap in the housing. The cores are rigidly articulated by freewheeling couplings with nuts, ensuring rotation in opposite directions.

Known hydrocomplex (patent for invention RU 2306385 C1, publ. 02/10/2006), containing a supporting reinforced concrete structure in the form of a support honeycomb and a swimming means in the form of an articulated landing stage with a generator with turbines placed on it, which is made in the form of a volumetric structure of composite materials in the form of a triangular or multifaceted prism, which is a closed volume with open communicating cavities located in it, performing the function of pneumatic generators. The invention allows the use of wave surf to generate electricity and protect the coast, embankments, etc. from the storms.

In this case, the landing stage functions as a floating element (working fluid) that transfers wave energy to a power transducer (generator), as well as other floating elements currently used at wave stations, such as floats, buoys and others.

The debarkader has water ballast. Changing the water ballast allows you to adjust its physical properties depending on the strength of the storm. However, ballast water must be pumped into the casing, which requires time, complex additional mechanisms (pumps, pumps), as well as energy costs. The constant mass of floating elements (working bodies) of known wave stations, or the complex mechanisms of changing their physical parameters associated with ballast mass and displacement, lead to the fact that they work effectively only on sea waves with certain parameters. This is determined by the comparability of their geometric dimensions, mass, displacement and draft with wave parameters (height, length, period frequency) and the type of power converter.

It is possible to efficiently transfer wave energy from a working body to a power transducer at low waves with a working fluid of small mass, and with large storms, on the contrary, with a working fluid of large mass. Most effectively, the working fluid operates on waves, the frequency of which coincides with the natural frequency of vibrations of the floating element. In this case, resonance phenomena occur, which are characterized by an increase in the amplitude of oscillations of the floating element and other parameters of its dynamics. In turn, the frequency of natural vibrations of an object floating on the water surface depends on its shape and mass. The period of natural vertical oscillations of the working fluid X can be expressed through its draft T according to the formula

X = 2.5 · T ^1/2 ,

where X is the period of natural vertical vibrations of the working fluid;

T - sediment of the working fluid.

Therefore, in order to effectively convert wave energy, it is necessary to change the mass of the floating element during operation, adapting it to the real wave that exists in each specific period of time.

Known wave power plant (patent for PM RU 86252 U1, publ. 08.27.2009), which contains a two-section frame, the uprights of which are fastened by upper and lower bases, which are guides placed in the lower section of the frame of the float, capable of reciprocating movement This is ensured by means of support rollers located on the side surface of the float. In the upper section of the frame there is an energy converter containing at least two or more pairs of symmetrically arranged long-stroke vertical linear electric generators with generating cores on disk permanent magnets, the axes of which are made of non-magnetic materials that can reciprocate inside the ring inductive coils in opposite directions associated with the float through the transmission rod with a comb gear that converts possible st reciprocating rod rotationally symmetrically disposed on the same axis as the pinion gear drums and are hitched over flexible cables, the ends of which are fixed cores generating linear electrical generators.

The float inside is filled with ballast, which ensures equal forces in the presence of a reciprocating movement of the float vertically, the weight of which, together with the weight of the float body and the transfer rod, is equal to the weight of the water displaced by half the volume of the float.

This installation is adopted as a prototype.

Known types of wave power plants (VLES) and wave power plants (VLEU), including the prototype, have floating elements with constant mass and displacement, do not change draft during operation due to the lack of a mechanism for changing displacement and adjusting buoyancy in their design. This does not allow them to be used with an equally high utilization factor of the power flow during sea waves of different points.

The objective of this invention is the ability to quickly change the mass and adjust the draft of the working fluid (floating elements) of the wave stations for more efficient transmission of sea wave energy of different strength and frequency (period) to a power converter (generator).

The problem is solved by a wave power plant, containing, like the prototype, a frame with coaxial central holes, a float with a rod fixed to it, magnets and a winding. Moreover, the proposed installation is characterized by the following features: the installation is equipped with a housing with a rotor installed in it, a flange on which magnets are placed that rotate with the rotor, while the winding is mounted on the housing, the rod has a longitudinal groove and is fixed from being rotated around the vertical axis by a latch, the float is divided by a partition into two cavities, the upper one is sealed, and the lower one has a hole in the lower part for water intake and discharge and is connected to the atmosphere by means of an air duct with adjustable an electromagnetic three-position pneumatic distributor for regulating the volume of water entering the lower cavity, the pneumatic distributor being connected to a compressor or a cylinder of compressed air.

Thus, the technical solution allows to increase the efficiency of electricity generation due to the possibility of rapid changes in mass and adjustment of the float draft for more efficient transfer of sea waves of different strength and frequency (period) to the power transducer (generator) as a result of resonance phenomena characterized by an increase in the amplitude of oscillations floating element.

The technical nature of the proposed technical solution is illustrated by the drawing, which shows a General view of the wave power plant.

The wave power installation comprises a frame 1, on which a stator 2, a rod 3, a float 4, a housing 5, a rotor 6 with magnets 8 mounted on a flange 7, a winding 9, a casing 10, a latch 11, a cover 12, bearings 13, a three-position solenoid valve are mounted 14, flexible hose 15.

The above structural elements are made as follows. In the upper and lower parts of the frame 1, coaxial central holes 17 are made with bushings 16 pressed into them, into which the rod 3 is mounted with a float 4 mounted on it, having a cylindrical and screw part with a tilt angle of at least 45 °, capable of vertical movement. A longitudinal groove 18 is made in the cylindrical part of the stem, into which a latch 11 is installed, which is a cylindrical pin, eliminating the possibility of the stem 3 turning around a vertical axis. A housing 5 is mounted to the upper part of the frame 1 with a rotor 6 installed in it, supported by bearings 13, fixed by a cover 12. The inner cavity of the rotor 6 has an inner screw surface in contact with the outer screw surface of the rod 3, representing a screw pair that converts reciprocating the movement of the rod 3 into the rotational movement of the rotor 6 together with a flange 7 mounted on it, on which magnets 8 are mounted, rotating together with the rotor 6. A stator 2 is mounted in the upper part of the frame 1 with it fixed to m winding 9. The float 4 is divided by a partition 19 into the upper airtight cavity 20 and the lower cavity 21, communicating either with the atmosphere or connected to a source of compressed air through a three-position pneumatic distributor 14 and having an opening 22 in the lower part for water intake and discharge.

The device operates as follows. In the presence of waves, the float 4 performs vertical movements along its own axis. In this case, the vertical rod 3 fixed to the float makes a reciprocating movement relative to the frame 1. The helical part of the rod, when vertically moved upward with the axial force developed by the float 4, creates a torque transmitted to the rotor 6, thereby converting the translational movement of the rod 3 into rotational motion fixed in the housing 5 of the rotor 6, on which is mounted a flange 7 with magnets located on it 8. When moving downward, the rod 3 is lowered by its own gravity and the float 4. As a result those moving rod 3 downward creates the torque transmitted to the rotor 6, which rotates in the opposite direction. When the rotor 6 is rotated together with magnets 8 mounted on it, an electric current appears in the winding 9, which is supplied to the object of conversion, consumption or accumulation of electric energy. To exclude the possibility of stem rotation, a latch 12 is provided. To exclude damage from atmospheric influences, the structure is closed by a casing 10. The float 4 has the ability to adjust buoyancy. In the initial position, the lower cavity 21 is filled with air, while the valve spool 14 is in the middle position. To fill with water as the ballast of the lower cavity 21, the valve spool 14 moves to the extreme left position, as a result of which the lower cavity 21 communicates with the atmosphere and is filled with water through the hole 22. To release the lower cavity 21 from the water, the valve spool 14 moves to the extreme right position, at the same time, compressed air enters the lower cavity 21 from the cylinder or compressor, displacing water from it through the opening 22.

Compared with the known technical solutions, the effect is as follows.

The ability to quickly change the mass and adjust the draft of the float for more efficient transfer of sea waves of different strength and frequency (period) to the power transducer (generator) as a result of resonance phenomena, characterized by an increase in the amplitude of oscillations of the floating element.

The use of a float in the design, divided by a partition into two cavities, one of which is sealed, and the other has a hole in the bottom for intake and discharge of water and communicates with the atmosphere using an air duct, which is equipped with an adjustable electromagnetic three-position pneumatic distributor, characterized in that the duct is connected with a compressor or with a cylinder containing compressed air.

Unlike the prototype, the proposed device has several advantages. Efficient power generation is achieved as a result of rapid mass changes and float draft adjustment. The proposed device allows you to provide electricity to industrial facilities of marine and coastal based.

Claims (1)

A wave power installation comprising a frame with coaxial central holes, a float with a rod fixed to it, magnets and a winding, characterized in that the installation is equipped with a housing with a rotor installed in it, a flange on which magnets are rotated together with the rotor, while the winding mounted on the body, the stem has a longitudinal groove and is fixed from being rotatable around the vertical axis by a latch, the float is divided by a partition into two cavities, the upper one is sealed, and the lower one has a lower part There is a hole for intake and discharge of water and is connected to the atmosphere by means of an air duct with an adjustable electromagnetic three-position pneumatic distributor for regulating the volume of water entering the lower cavity, the pneumatic distributor being connected to a compressor or a cylinder with compressed air.