RU2405965C1 - Hydraulic power station of sea current of kuschenko va - Google Patents

Abstract

FIELD: power industry. ^ SUBSTANCE: hydraulic power station of sea current includes above-water platforms, horizontal and vertical load-bearing cables with buoys fixed on the platforms, weights located on the sea bed and attached to the buoys, generator units attached to the cables, electric power converters, devices for water separation to hydrogen and oxygen and control system. Generator units include pressure sealed electric power generators, blade elements and voltage regulators. Generator units are performed separated at the cables. To the horizontal load-bearing cables there attached are vertical cables. The outputs of device for water separation are connected to the device for hydrogen and oxygen liquefaction, which is connected with the pipeline and hydrogen and oxygen consumers. Pressure sealed electric power generator is attached to the front fairwater piece, which is attached to the voltage regulator. Blade element has a spiral form and is fixed on the electric power generator shaft and attached to the rear fairwater piece. Fairwater piece and spiral element have cavities that provide specified floatability. Generator units on the cables are separated by actuating cylinders. Vertical cables provide movement of maintenance elevators. ^ EFFECT: simplification of hydraulic power station operation, facilitation of its maintenance. ^ 4 cl, 5 dwg

Description

The invent relates to hydropower and can be used to convert the energy of sea currents into electricity.

Known free-flow hydraulic power plant according to A.S. No. 175906, IPC F03C, cl. 88 c, 4, where the garlands of converting turbines are located at a certain distance from each other downstream. The disadvantage of this device is that it cannot be used to convert the energy of sea currents.

Known streaming hydroelectric power station according to the patent of the Russian Federation No. 2086799 C1, F03B 9/00, which uses the energy of the sea currents, where a chain vane conveyor is installed in the submerged body, enveloping vertically spaced asterisks and kinematically connected with the electric generator.

The disadvantages are:

1. Low power developed by the installation.

2. The inability to use the energy of the flow of the sea current in width, depth and length.

3. The inability to accumulate the received energy and bring it to the consumer due to the remoteness of sea currents from energy consumers.

The prior art discloses an offshore hydroelectric power station comprising surface platforms, horizontal and vertical power cables with buoys fixed on platforms, loads mounted on the bottom and attached to buoys, generator blocks fixed on cables, an electric power converter and a hydrogen and oxygen water decomposer while the generator blocks include sealed electric power generators, blade elements and stabilizers, on the ropes the generator blocks are made separate, to horizontal force vertical cables are attached to the cables, and the electric power converter is connected to the electricity consumers by outputs, and the water decomposer outputs are connected to a hydrogen and oxygen liquefaction device, which are connected to the pipeline and to hydrogen and oxygen consumers, for example, tanks of a transport ship (patent US 4850190, July 25, 1989, F03B 13/10), which is the closest analogue (prototype).

The disadvantage of the prototype is the complexity in its installation and dismantling, repair work.

The problem to which this invention is directed is to create small and large stations, both underwater and surface based.

The technical result consists in simplifying their operation due to the easy deployment and folding of the HESMT, which makes it easy to repair station elements.

The technical result is achieved by the fact that in an offshore hydroelectric power station containing surface platforms, horizontal and vertical power cables with buoys fixed on platforms, loads installed on the bottom and attached to buoys, generator blocks fixed on cables, electric power converters, water breakers on hydrogen and oxygen and a control system, while the generator blocks include sealed electric power generators, blade elements and stabilizers, the generator blocks are made on cables separated, horizontal cables are attached to horizontal power cables, and the electric power converter is connected to the electricity consumers by outputs and the water decomposer outputs are connected to a hydrogen and oxygen liquefaction device, which are connected to the pipeline and to hydrogen and oxygen consumers, for example, tanks of a transport ship, according to the invention, a sealed generator electricity is attached to the front fairing attached to the stabilizer, the blade element is made spiral mounted on the shaft of the generator of electricity and attached to the rear fairing, with the fairing and spiral element made with cavities that provide the desired buoyancy, on the cables the generator blocks are separated by power cylinders, vertical cables provide the movement of the repair elevators, and the generator block is connected to information rectifiers and to power rectifiers, the outputs of which are combined and connected to an electric power converter and to a water and hydrogen decomposer, while the conversion unit Electricity in hydrogen and oxygen is installed at the bottom, or on a surface platform, or on the ground, and the control system contains a digital processor, a data input-output device and is connected to information sensors and system drives, as well as to brake drives of generator blocks.

The power cable generator block has an adjustable position. The spiral elements are fixed rigidly or movably relative to the axis.

The invention is illustrated by drawings: in Fig.1 shows an element of the drive blade; figure 2 shows the generator block; figure 3 is an option for mounting generator blocks between two ships on a cable; figure 4 shows a variant of the placement of generator blocks on the path of the sea current held by ships and (or) cargo; figure 5 shows the General scheme of HESMT.

Figure 1 shows the element of the drive blade 1, made in the form of a spiral surface with reinforcing elements 2 - inside the surface, which are sealed and filled with gas (for example, air, or vacuum is provided there). Elements 1 are equipped with fasteners 3, providing (depending on requirements) a flexible or rigid connection of elements 1.

Figure 2 shows the generator unit (BG) 4, containing a properly sealed generator of electrical voltage 5, on the shaft 6 of which (made in a rigid or flexible form) are mounted spiral elements 1, and a streamlined tank 7 with an adjustable load 8 is attached to the end of the shaft The tank 7 also does not contain gas (or is filled, for example, with air). On the generator 5 there is a shaft brake 9. Stabilizers 10 are attached to the generator 5. A hydro-streamlined container (fairing) 11 is attached to the generator 5 (also without gas or filled with gas, for example air). The generator 5, stabilizers 10, fairing 11 are attached to the power cable 12 (with the possibility of removal from the cable), on which there are power cylinders 13 (which are lighter than water). Figure 3 shows the option of fastening the BG 4 between two ships 14, 15 on the cable 12. This fastening can be performed on the banks of the river (stream). Figure 4 shows the placement of BG 4 on the path of the sea current. BG 4 is held by ships 14, 15 and (or) cargo 16. Vertical power cables 17 have supporting floating containers (buoys) 18, to which horizontal power cables 12 are attached, to which BG 4 is attached. The upper power cable 12 is equipped with signal beacons 19. Vertical cables 20 are attached to the cable 12, along which special elevators 21 can move service personnel and spare parts. Elevators can be many or one, for a specific group of BG 4. Electric power wires 22 are attached to the power cables 12, 17, which have access either to surface platforms made in the form of ships, 14, 15 (ground), or to the power conversion unit into hydrogen and oxygen (BPEVK) 23, the pipeline from which 24 is brought to the surface to the platform 25, equipped with connectors 26, 27 and a signal beacon 28. The transport ship 29 through hoses 30 connects its tanks 31 with BPEVK 25, installed, for example, on a special platform on top or at the bottom. Figure 5 shows the General scheme of HESMT 32 (which can be combined into a cascade HESMT 1 - n). Here, BG 4 is connected to power rectifiers (BC) 33 and information rectifiers (VI) 34. BC 33 are combined with their (+, -) outputs and connected to a PR 35 converter and a water distributor (RZV) 36 connected to the pump (N) 37 connected to the water intake (ZAB) 38. PR 35 converts a constant voltage into (for example) a three-phase variable (Ф ₁ , Ф ₂ , Ф ₃ , Ф ₀ ) for consumers. RZV 36 with the 1st pipeline is connected to the pump (Н) 39, connected to the hydrogen liquefier (Н ₂ ) (СЖН ₂ ) 40, connected to the pump (Н) 41, connected to the connector 26. The 2nd pipeline of the РЗВ 36 is connected to the pump (N) 42, connected to an oxygen liquefier (СЖО ₂ ) 43, connected to a pump (Н) 44, connected to socket 27. A digital processor (VK-C) 45 is included in the control system (СУ) 46 and connected to the display (ДС ) 43 and a keyboard (KLT) 48. SU 46 is connected to the outputs of the VI 34, to the control input H 37, to the control inputs of the RZV 36 and to the information sensors RZV 36, to the information sensor m PR 35, to the control inputs of PR 35, to the control input N 42, N 39, to the control inputs and information outputs SZHN ₂ 40, SZHO ₂ 43, to the control inputs N 41, N 44. The brake drives (TM) 9 are also connected to SU 46.

The device operates as follows. Ships 14, 15 (Fig. 3) stretch the cable 12 on which the BG 4 is mounted. The flow of water rotates the elements 1, which rotate the shaft 6, which rotates the electric power generator 5. The power cylinders 13 do not allow BG 4 to move relative to each other. the force of the fairing 11, the tank 7 and the load 8 sets the desired angle of interaction with the water flow of the spiral element 1 (from horizontal to vertical). Ships (platforms) 14, 15 (Fig. 4) and loads 16 hold vertical and horizontal cables 17, 12 and buoys 18. This creates a three-dimensional structure. By means of a cable 20 and elevators 21 (in manual or automatic modes), the personnel and spare parts are moved during the repair of the HESMT 32. BG 4, when the spiral elements 1 rotate with water, generates an alternating voltage, which is rectified by aircraft 33 (and VI 34). The constant voltage from BC 33 is summed up and supplied to PR 35 and RZV 36. Three-phase voltage (Ф ₀ , Ф ₁ , Ф ₂ , Ф ₃ ) is supplied to the consumer. RZV 36 through ZAB 38 and H37 receives H ₂ O and decomposes it into H ₂ and O ₂ . H 39 takes in hydrogen SGN ₂ 40, where the hydrogen liquefaction process. H 42, oxygen is supplied to CJO ₂ 43, where the process of oxygen liquefaction takes place. Next, H ₂ and O ₂ with the corresponding pumps N 41, N 44 through REM 26, 27, pipeline 24, platform 25, pipeline 30 enter the tank 31 of the transport ship 29 (or ground consumer). VK-C processor 45 through SU 46 controls the elements included in the device. Commands are entered using KLT 48. Information is displayed on the DS 47. When performing repairs, the selected BG 4 using TM 9 is inhibited. It can be removed from cable 12 and replaced.

The device provides the following benefits:

1. The device allows you to receive electricity or energy - hydrogen and oxygen - from marine or other streams of water.

2. Allows you to easily expand and collapse HESMT.

3. Allows easy repair of station elements.

4. Allows you to create small and large stations, both underwater and surface based.

5. A large source of energy, a substitute for oil, renewable, environmentally friendly, in large quantities.

Claims (4)

1. Offshore hydroelectric power station containing surface platforms, horizontal and vertical power cables with buoys fixed on platforms, loads installed on the bottom and attached to buoys, generator blocks fixed on cables, electric power converters, hydrogen and oxygen water decomposers and a system control, while the generator blocks include sealed electric power generators, blade elements and stabilizers, on the cables the generator blocks are made separate, to horizontal power cables vertical cables are attached itself, and the electric power converter is connected to the electricity consumers by outputs, and the water decomposer outputs are connected to a hydrogen and oxygen liquefaction device, which are connected to the pipeline and to hydrogen and oxygen consumers, for example, transport ship tanks, characterized in that the sealed electric power generator is attached to to the front fairing attached to the stabilizer, the blade element, made spiral, is mounted on the shaft of the electric power generator of energy and attached to the rear fairing, with the fairing and the spiral element made with cavities that provide a given buoyancy, on the cables the generator blocks are separated by power cylinders, vertical cables provide the movement of repair elevators, and the generator block is connected to information rectifiers and to power rectifiers, the outputs of which are combined and are connected to an electric power converter and to a water and hydrogen decomposer, while the electric to hydrogen and oxygen conversion unit is installed ene at the bottom, or on the topside platform or to land, wherein the control system comprises a digital processor, input device, and output-connected to the information system of sensors and actuators, as well as to actuators of brakes of generators blocks. 2. Hydroelectric power station according to claim 1, characterized in that the generator block on the power cables has an adjustable position. 3. Hydroelectric power station according to claim 1, characterized in that the spiral elements are fixed rigidly relative to the axis. 4. Hydroelectric power station according to claim 1, characterized in that the spiral elements are fixed movably relative to the axis.

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