RU2579283C1 - Underwater tidal power plant - Google Patents

Abstract

FIELD: energy.

SUBSTANCE: invention relates to hydraulic power engineering, in particular, to devices generating electric energy due to sea wave energy conversion, formed during tidal effects. Underwater tidal power plant comprises generator 1, consisting of hydraulic turbine and generator arranged in a sealed housing and kinematically connected with hydraulic turbine, frequency converter 6, through which generator 1 is connected to external power system and control system. Hydraulic turbine is made of blade type, and generator with excitation from permanent magnets. Generator 1 is installed in metal cylindrical frame 2, to the upper part of which are connected hollow tank 3 for holding frame 2 in underwater buried position. To the lower part of frame 2 are attached ropes 4, by one end connected with carcass 2, and the other with fixing units 5, lowering to sea bottom. Converter 6 is arranged on the shore and is connected to hydrogenerator 1 by means of electric cable 7. At the ends of frame 2 there are conical device to make water flow inlet confuser 8, and at outlet-diffuser 9.

EFFECT: lower construction costs, higher efficiency and reduced weight and dimensions of the power plant.

1 cl, 1 dwg

Description

The invention relates to the field of hydropower, in particular to devices that generate electricity by converting the energy of sea waves generated during tides into the rotational movement of the hydraulic drive of an underwater power plant.

It is known about the economic efficiency of creating tidal power plants for generating electricity due to the effect of tides in the coastal regions of Russia (Usachev I.N., Prudovsky AM, Historian B.L., Shpolyansky Yu.B. Application of an orthogonal turbine in tidal power plants // Hydrotechnical construction. No. 12. - 1998). However, the effectiveness of tidal power plants largely depends on the design of hydroturbines and the location of tidal power plants to provide the necessary speeds of sea water.

Known power plant, adopted as a prototype, using the energy of the sea current (Kopylov IP Low-potential energy sources: from the past to the future // Energy No. 4. 1992 - p. 31-41), consisting of a hydro-wheel, rigidly connected to generator shaft, which is placed in a chamber isolated from water by a concrete capsule and seals. The disadvantage of this power plant is the following: the hydro-cantileum design has a high resistance to water flow and therefore does not have sufficient power.

A device of tidal power plants (PES), converting the energy of sea tides into electricity. PES uses the difference in levels of “full” and “low” water during ebb and flow (Project of the Century: Mezen Tidal Power Station // “Energy and Industry of Russia”, No. 3 (7) March 2001). However, the proposed TEC options suggest that the dam closes the bay or the mouth of the river flowing into the sea to form the so-called TEC basin, while the turbines and the hydrogenerators connected to them are located in the dam body. The creation of such PES options is associated with high capital and operating costs and high cost of electricity generated.

Known power plant that uses the energy of the sea current, consisting of hydro-wheel, rigidly connected to the shaft of the generator, which is placed in a chamber isolated from water by a concrete capsule and seals. Hydro-wheel-mounted construction is located above the generator (Journal "Energy", No. 4. 1992. - p. 31-41). The disadvantage of this power plant is that the hydro-cantileum design has a high resistance to water flow and therefore does not have enough power to spin the generator in order to achieve the desired speed of passage of the rotor poles in front of the stator windings.

A known system for converting wind energy into electrical energy, including a generator that has a fixed stator that can be connected to an electrical system, and a freely rotating rotor with permanent magnets (Application for invention No. 2013109006/07, publ. September 10, 2014, Bull. No. 25). However, this system is designed to convert wind energy into electrical energy and cannot be used to convert tidal energy into electrical energy.

A known device is an electric generating device, consisting of a blade type turbine and an electric generator, while the generator rotor has poles with permanent magnets (Application for invention No. 2008121064/06, publ. 10.12.2009 Bull. No. 34). However, the design of this power generating device is made for its installation in hydroelectric power plants and cannot be used to convert tidal energy to electrical energy.

A device is known for a hydrogenerator with excitation from permanent magnets containing a fixed stator and a rotating rotor with permanent magnets (Journal "Industry", No. 9, 2009. - p. 41).

A known electric power plant having a generator with excitation from permanent magnets, a converter containing a rectifier, an inverter and a controller, as well as phase voltage and phase current sensors (RF Patent for Utility Model No. 137014, publ. January 27, 2014, Bull. No. 3).

A device is known for a bladed free-flow hydroelectric power station containing an electric generator, a fixedly mounted water-loaded module, including a hydraulic turbine with a horizontal axis of rotation connected by a shaft with an electric generator, while the electric generator is located below the water level, installed in a sealed housing and connected to a multiplier gondola with a vertically located hermetic pipe, the dimensions of which selected based on the conditions of formation in the region of the electric generator of an air cushion sufficient for pre tvrascheniya penetration of water into the generator housing (Certificate for useful model of the Russian Federation №23317, publ. 10.06.2002). However, this hydroelectric power station has a complex design and can only be used as an underwater hydroelectric power station to convert tidal energy into electrical energy.

A device for an underwater tidal power plant with a paddle hydrogenerator containing a stator and rotor located in an airtight housing and ballast compartments is known, while the hydrogenerator is fixed at the place of operation using telescopic articulated supports mounted on concrete blocks mounted on the seabed (RF Patent No. 2070987 publ. 12/27/1996). However, ballast compartments filled with water, as well as telescopic articulated supports mounted on a concrete block and installed on the seabed to fix the tidal power station in a recessed position, are complex and expensive.

An underwater tidal power plant containing a hydrogenerator, consisting of a turbine and a generator located in an airtight housing and kinematically connected to a turbine, a frequency converter through which the hydrogenerator is connected to an external power system, and a control system (Utility Model Patent of the Russian Federation No. 128251, publ. 20.05. 2013 Bul. No. 14). However, the hydroturbine is made in the form of an orthogonal turbine, which reduces the efficiency of the tidal power station and increases its weight and size characteristics, and the technical solution for fixing the underwater tidal power station in a recessed position is not disclosed, which does not allow to estimate the cost of the construction of an underwater tidal power station.

The technical result that can be obtained by applying this invention is to reduce the cost of constructing an underwater tidal power station due to the simplified way of fixing it in a recessed position, as well as to increase the efficiency and weight and size characteristics of an underwater tidal power station by using a blade type turbine and generator with excitation from permanent magnets.

To achieve this technical result, an underwater tidal power plant containing a hydrogenerator, consisting of a hydraulic turbine and a generator located in a sealed enclosure and kinematically connected to the hydraulic turbine, a frequency converter through which the hydrogenerator is connected to an external power system, and the control system is equipped with a blade type turbine and a generator with excitation from permanent magnets, while the hydrogenerator is placed in a metal cylindrical frame, to the upper part of which a hollow container is connected to hold the frame in an underwater deepened position, and cables are attached to the bottom of the frame, with one end connected to the frame, and the other with fixing blocks lowered to the seabed, while the frequency converter is located on the shore and connected to the hydrogenerator using an electric cable, and at the ends of the cylindrical frame conical devices are installed, forming a confuser at the inlet of the water flow, and a diffuser at the outlet.

The introduction of a blade type turbine turbine and a generator with excitation from permanent magnets, as well as a hollow tank, crosses and fixing blocks, lowered to the seabed to hold the frame in an underwater buried position, makes it possible to obtain a new property that reduces the cost of construction underwater tidal power due to the simplified method of fixing it in a buried underwater position by holding the tidal power between the sea and the seabed, on the one hand, by the lifting force of a hollow tank, and on the other hand by anchoring a tidal power station using cables to the fixing blocks on the seabed, as well as increasing the efficiency and weight and size characteristics of the underwater tidal power station by using a hydrogenerator with a blade type turbine and generator with excitation from permanent magnets and placing it in a metal frame having conical devices forming a confuser at the inlet of the water flow, and diff pattern, which provides a high speed flow of water during ebb and flow through the hydrogenerator.

The drawing shows the device of an underwater tidal power plant.

The underwater tidal power plant contains a hydrogenerator 1, consisting of a blade type turbine and a permanent magnet excitation generator in a sealed enclosure (not shown in Fig.), Which is placed in a metal cylindrical frame 2. A hollow tank 3 is attached to the upper part of the frame 2 to hold the frame 2 in a deepened underwater position, and cables 4 are attached to the lower part of the frame 2 (for example, metal ropes), connected at one end to the frame 2, and the other with the fixing blocks 5, lowered to the sea the bottom, while the frequency converter 6 is located on the shore and connected to the hydrogenerator 1 using an electric cable 7, and conical devices are installed at the ends of the cylindrical frame 2, forming a confuser 8 at the inlet of the water flow, and a diffuser 9 at the outlet.

Underwater tidal power plant operates as follows.

The underwater tidal power station is lowered to the installation site from the ship using a crane due to the gravity of the fixing blocks 5, made, for example, of reinforced concrete. The metal cylindrical frame 2 with the hydraulic actuator 1 located in it due to the hollow tank 3 attached to the upper part of the frame 2 is held in a recessed underwater position. Due to the lifting force of the hollow tank 3 and the length of the cables 4, the frame 2 with hydraulic drive 1 can be located at any depth of the coastal sea zone. This allows you to choose a location for the location of the underwater power plant with the maximum speed of the tidal wave. The use of hydraulic actuator 1 with a blade turbine in combination with a generator with excitation from permanent magnets, allows you to convert into electrical energy as the energy of the tide of sea water, and the energy of the ebb.

When the tide (the movement of the tidal wave toward the shore) when passing through the frame 2 due to the confuser 8 and the diffuser 9 located at the ends of the frame 2, the speed and pressure of sea water increases, which is converted into rotational motion of a blade type turbine and generator with excitation from constant magnets, which are elements of hydraulic drive 1. Due to the tidal energy and rotational motion of the generator with excitation from permanent magnets, electric energy is generated, which is supplied from hydraulic drive 1 by I have an electric cable 7 to the frequency converter 6, located on the seashore. In the frequency converter 6, an electric current of the required quality is formed for its further supply to consumers of electric energy.

During low tide (the movement of the tidal wave from the coast), when passing through the frame 2 due to the confuser (its role is played by the diffuser 9) and the diffuser (its role is played by the confuser 8) located at the ends of the frame 2, the speed and pressure of sea water increase, which also is converted into rotational motion of a blade type hydraulic turbine and generator with excitation from permanent magnets, which are elements of hydraulic actuator 1. Due to the energy of reflux and rotational motion of the generator with excitation from permanent magnets, an electric current is generated Energy from the hydraulic drive 1 is supplied by electric cable 7 to the frequency converter 6, located on the seashore.

Claims (1)

An underwater tidal power plant containing a hydrogenerator, consisting of a turbine and a generator located in a sealed enclosure and kinematically connected to the turbine, a frequency converter through which the hydrogenerator is connected to an external power system, and a control system, characterized in that the turbine is made of a blade type, and the generator with excitation from permanent magnets, while the hydrogenerator is installed in a metal cylindrical frame, to the upper part of which are attached hollow containers To hold the frame in an underwater, deepened position, and cables are attached to the bottom of the frame, one ends connected to the frame, and the other with fixing blocks lowered to the seabed, while the frequency converter is located on the shore and connected to the hydrogenerator using an electric cable, and conical devices are installed at the ends of the cylindrical frame, forming a confuser at the inlet of the water flow, and a diffuser at the outlet.

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