RU2617369C1 - Hydro-electric power-plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: hydro-electric power plant contains mounted on the displacement base two hydraulic turbines 1, placed symmetrically about the longitudinal axis 4, along which its axis of rotation 3 is oriented, made with ability of reverse rotation, kinematically connected to the electric generator 5, the anchor device 6, ballast tanks 7. The rotors 2 of hydraulic turbines 1 are provided with screws 9 of variable pitch, the blades of which are arranged with ability of forced rotation. Displacement base is made streamlined. Along the longitudinal sides of the base the wells 12 are made. The hydraulic turbines 1 are installed at the ends of the towers 13, the second ends of which are provided with ballast 14. The towers 13 are passed through the wells 12 and mounted on the horizontal axis 15, with ability to swing in the wells 12 in the planes parallel to the axis 4. The ballast 14 weight, taking into account the size of the lower tower 13 is sufficient to hold the longitudinal tower axis 13 vertically at rotors 2 rotation.

EFFECT: efficiency increase of flow power conversion into the power, that is used to rotate the generator.

4 cl, 3 dwg

Description

The invention relates to hydropower and can be used to convert the kinetic energy of water flows into electricity on rivers, preferably full-flowing, and / or in marine areas (for converting the kinetic energy of sea currents, including tidal).

A known hydropower installation containing a hydraulic turbine mounted on a frame, rotatable around a horizontal axis, kinematically connected with an electric generator, a flow shaper made in the form of a confuser in communication with a working channel in which a hydraulic turbine, an anchor device, ballast tanks in an amount sufficient to stabilize the spatial position of the installation in pitch and roll, and steering wheel (see RU No. 97774, CL F03B 7/00, 2010).

The disadvantage of this device is its insufficiently reliable positioning in the horizontal plane, which excludes the possibility of its use in marine waters when it is placed without “landing to the bottom" - in the thickness of the water area.

Also known is a hydropower installation containing two hydraulic turbines installed on a displacement base, placed symmetrically with respect to the longitudinal axis of the installation, along which their rotation axes are oriented, rotatable in opposite directions, kinematically connected with the electric generator, anchor device, ballast tanks (see RU 2554431 C2, 06.27.2015, F03B 13/26).

The disadvantage of such a device is the low efficiency of converting the flow energy into the energy used to rotate the generator, because only free flow energy is used. In addition, the presence of a flow former at a depth of positioning of the installation of more than 20-30 m will make it unworkable due to the locking of the supplied flows by water pressure, while dismantling the flow former due to the relatively small surface area swept by the turbine blades will reduce its rotation speed and the generated power.

The objective of the invention is to increase the efficiency of converting the energy of the flow into energy used to rotate the generator.

The technical result obtained when solving the problem is expressed in providing the possibility of conversion into energy used to rotate the energy generator of both the incoming and the outgoing flow, while increasing the surface area swept by the turbine blades.

The problem is solved in that in a hydropower installation containing two hydraulic turbines mounted on a displacement base, placed symmetrically relative to the longitudinal axis of the installation, along which their rotation axes are oriented, made to rotate in opposite directions, kinematically connected with the electric generator, anchor device, ballast tanks , according to the invention, two hydraulic turbines are used, the rotors of which are equipped with variable pitch screws, the blades of which are made with the compulsory rotation with respect to the axes perpendicular to the axes of rotation of the rotors, while the sections of the blades along their length are made symmetrical with respect to the axes of rotation, the displacement base being streamlined front and rear, while along its longitudinal sides there are wells with vertical walls parallel to the longitudinal axis of the installation in addition, hydraulic turbines are installed at the ends of the masts, the second ends of which are equipped with ballast, while the masts are passed through the wells and mounted horizontally 's axles swingably in wells in planes parallel to the longitudinal axis of the apparatus, the ballast weight with the lower part of the mast dimensions sufficient to retain the longitudinal axis of the mast vertically while rotating rotors water turbines.

In addition, the installation control unit is made in the form of a separate unit, configured to remotely change the buoyancy, and is communicated by a cable with control means.

In addition, the turbines are enclosed in streamlined housings, preferably symmetrical with respect to their rotational axes.

In addition, the displacement base is made of a catamaran type in the form of bodies that are streamlined in front and behind, the diametric planes of which are spaced apart by 1.1 screw diameters and are connected by transverse beams made streamlined to the current flows, while parallel extended wells are made in bodies of the displacement base.

Moreover, the features of the characterizing part of the claims provide a solution to a set of functional tasks.

The signs “two hydraulic turbines are used” provide the ability to compensate for the torque (realized as heeling) arising from the operation of hydraulic turbines.

Signs indicating that the rotors of the turbines are "equipped with screws", can significantly expand the area of the flow acting on the turbine rotor.

Signs indicating that the screws are "variable pitch, the blades of which are made with the possibility of forced rotation relative to the axes perpendicular to the axes of rotation of the rotors, while the sections of the blades along their length are made symmetrical with respect to the axes of rotation", provide the possibility of rapid rotation of the blades to maintain the direction of rotation the rotor when changing the direction of flow from high tide to low tide, while the quality of the conversion of the flow to rotational motion remains stable .

Signs indicating that the "displacement base is streamlined front and rear" reduce the windage of the installation and thereby the load on the anchor system.

Signs indicating that “along the longitudinal sides” of the displacement base “extended parallel wells with vertical walls made parallel to the longitudinal axis of the installation” provide the possibility of installing rotary masts with hydrogenerators in these wells.

Signs indicating that "hydraulic turbines are installed at the ends of the masts, the second ends of which are ballasted, while the masts are passed through the wells and mounted on horizontal axes with the possibility of swinging in the wells, in planes parallel to the longitudinal axis of the installation", provide the ability to compensate for changes in flow velocity due to the corresponding opening of the mast with the hydrogenerator and changes in the flow area swept by the screw without load fluctuations on the anchor system.

Signs indicating that "the weight of the ballast, taking into account the dimensions of the lower part of the mast, is sufficient to hold the longitudinal axis of the mast vertically when the rotors of the hydraulic turbines rotate", set the design dimensions of the mast.

The signs "the control unit of the installation is made in the form of a separate unit, configured to remotely change the buoyancy, and communicated with a cable-cable with control means" provide control of work processes implemented by the installation units.

The signs "hydroturbines are enclosed in streamlined housings, preferably symmetrical about the axes of their rotation, the same front and rear," ensure equality of the drag of the casings when changing the direction of flow.

The signs “a displacement base is made of a catamaran type in the form of bodies that are streamlined in front and behind, whose diametric planes are spaced 1.1 times the diameter of the screw and are connected by transverse beams made streamlined to the current flows, while parallel extended wells are made in streamlined bodies in the front and rear of the bodies” provide equality of the drag of the bodies when changing the direction of flow and the free placement of turbines on one transverse line.

The claimed device is illustrated by drawings, where in FIG. 1 shows a longitudinal section through the installation of wells; in FIG. 2 shows a top view thereof, in FIG. 3 shows a fragment of a rotor with a screw.

The drawings show hydraulic turbines 1 with rotors 2 and axes of rotation 3, the longitudinal axis 4 of the installation, electric generators 5, anchor device 6, ballast tanks 7, shafts 8 and screws 9 of variable pitch, streamlined bodies 10, transverse beams 11, wells 12, masts 13 , their ballast 14, horizontal axis 15, control unit 16, cable cable 17, controls 18, shrouds 19, axis 20 of rotation of the propeller blades 9, surface 21 of the water area 22, its bottom 23.

In the hydropower installation, two hydraulic turbines 1 are used, placed symmetrically with respect to the longitudinal axis 4 of the installation, along which the rotation axes 3 of their rotors 2 are oriented, made to rotate in opposite directions. Each turbine 1 in a known manner is kinematically connected with an electric generator 5, while their rotors 2 and their electric generators 5 are mounted in the cavity of the casings 19, which are sealed and installed at the ends of the masts 13, the second (i.e. opposite) ends of which are equipped with a ballast 14. Electric generators 5 are connected by means of sealed cable leads (not shown in the drawings) to an energy receiver (not shown in the drawings) mounted either onshore or on a platform that is known to be mounted on a pile foundation, and whether offshore mining platform. It is advisable to use direct current generators with a voltage regulator, while inverters must be used in conjunction with the electric generators (these nodes are not shown in the drawings).

The rotors 2 of the hydraulic turbines 1 are provided with variable-pitch screws 9 of a known design, the blades of which are made to rotate 70-120 ° relative to the axes 20, perpendicular to the axes of rotation 3 of the rotors 2, while the sections of the blades along their length are made symmetrical with respect to the axes 20 of their rotation. They are placed in streamlined casings 19.

The displacement base is made streamlined in front and behind - of a catamaran type in the form of two bodies 10, which are streamlined in front and behind, whose diametrical planes are spaced 1.1 times the diameter of the screw 9 and are connected by transverse beams 11, made streamlined to the current flows. The wells 12 are made in the bodies 10 of the displacement base parallel and extended with vertical walls, while they are made along its longitudinal sides (parallel to the longitudinal axis of the installation).

While the mast is passed through the wells 12 and installed on the horizontal axes 15, passed through the wells 12, with the possibility of swinging in planes parallel to the longitudinal axis 4 of the installation. In this case, the weight of the ballast 14, taking into account the dimensions of the lower part of the mast (lying below the axis 15), is sufficient to hold the longitudinal axis of the mast vertically when the rotors of the turbine rotate (when the rotors of the turbines rotate, a corresponding motion impulse oriented along the longitudinal axis of the installation).

The ballast tanks 7 of the buildings 10 are made according to one structural scheme, have remotely controlled valves (not shown in the drawings) that provide the communication of the cavity of the containers with the external environment, and are connected via hoses designed for a pressure of 5-10 atmospheres to a compressed air accumulator (designed for corresponding pressure - not shown in the drawings). To recharge the battery, part of the electricity generated by the installation can be used (to drive the respective compressors), or direct pressure generation through the use of the electro-hydraulic effect is used. Ballast tanks 7 are distributed over the volume of the housings 10, so as to provide the opportunity to eliminate the trim of the installation during operation.

The control unit 16 of the installation is made in the form of a separate unit, configured to remotely change the buoyancy (equipped with ballast tanks equipped with means for receiving seawater and their drainage, controlled via a radio or acoustic channel), and communicated with a cable cable 17 with control means (by means of taking overboard water into ballast tanks 7 and draining them). The sensor (not shown in the drawings), which gives a signal for fulfilling the tasks of stabilizing the installation in a horizontal position, is a gyroscopic sensor of a known design, adapted to the operating conditions of a power plant. The sensor (not shown in the drawings), which gives a signal for the rotation of the turbine blades when the flow direction changes from ebb to low tide, is a sensor of known design, made according to the weather vane scheme, adapted to the operating conditions of the power plant.

The anchor device 6 includes winches (not shown in the drawings) installed in the ends of the housings 10, the drums of which are equipped with flexible rods (cables are not indicated in the drawings), at the ends of which anchors are fixed (not indicated in the drawings).

The claimed device operates as follows.

In a known manner, the depth of the water area in the positioning section of the installation is revealed. Further to this place on the surface 21 of the water area 22 are towed afloat (with empty ballast tanks 7) installation. Further, by remotely opening (using the control unit 16) the valves of the ballast tanks 7, they receive water in the amount necessary to immerse the installation in water. After the installation is planted at the bottom, the anchors of the anchor device 6 are placed at the bottom of the anchor (for example, anchor devices that are sealed in a known manner in the bottom of the water area 23 so that they are in front of and behind the installation, if you look along the water flow (current)). Anchors should be at least three, but preferably two. After that, the cables are removed from the winches and secured to the corresponding anchors (in this case, the length of the cables is selected so that their length is sufficient so that, when the sub turbine floats up, the devices are in the zone of the fastest section of the water area, and the cable length must exceed the depth of the water area at the location installation). These works and the dismantling of these nodes are carried out with the involvement of divers or remotely controlled underwater robots-manipulators of known design.

Then, compressed air is supplied to the ballast tanks 7, ensuring the buoyancy of the installation somewhat greater than zero, and the air supply is regulated so that the device floats “on an even keel”, i.e. its longitudinal axis 4 was in the horizontal plane. During these operations, the hydraulic turbines are locked, for example, by a friction roller, pressed against the turbine shafts (not shown in the drawings).

After the device is brought into operating position (in the zone of maximum speeds of the water flow), the turbines are put into operation, freeing their shafts from contact with the said friction roller.

The rotation of the impeller of the turbine 1 drives the generator 5, kinematically connected with it. The generated electricity via cable leads goes to an energy receiver (not shown in the drawings) mounted outside the reservoir. The use of direct current generators with a voltage regulator ensures independence from changes in the flow rate. Using inverters complete with electric generators 5 provides the conversion of direct current to alternating current.

Fine stabilization of the platform in horizontal position is ensured by automatic testing of the gyro sensor readings by a control device that generates commands to turn on the transfer pumps installed in ballast tanks, which allows to eliminate deviations in roll and pitch with external disturbances.

Fluctuations in the flow velocity cause some deviations of the masts 13 from the vertical and do not affect the loading of the cables of the anchor devices 6, while the ballast 14 provides the reverse hinging of these masts.

When changing the direction of flow from high tide to low tide, the actuator of the sensor, made according to the weather vane scheme, fulfills this change with its turn, which gives the command to turn on the mechanism for turning the blades to the prescribed turning angle, which ensures the rotation of the rotors 2 of the hydraulic turbines 1 in the same direction Thus, the rotation of the shaft of the generator is carried out in one direction regardless of the direction of movement of the water flow

To move the installation to a new place of work, the ballast tanks 7 are blown, allowing the installation to float to the surface 21 of the water area 22, pull the mast 13 as close to the hulls 10 as possible (to increase the stability of the installation), attach the tow cable to it and move it afloat to a new place. Before this, choose cables with anchors and move them to a new area.

Then everything repeats.

Claims (4)

1. Hydroelectric installation containing installed on a displacement base two hydraulic turbines placed symmetrically with respect to the longitudinal axis of the installation, along which their rotation axis is oriented, made to rotate in opposite directions, kinematically connected with the electric generator, anchor device, ballast tanks, characterized in that two hydraulic turbines were used, the rotors of which are equipped with variable pitch screws, the blades of which are made with the possibility of forced rotation with respect to the axes perpendicular to the axes of rotation of the rotors, while the sections of the blades along their length are made symmetrical with respect to the axes of rotation, the displacement base being streamlined in front and behind, while along its longitudinal sides there are wells with vertical walls parallel to the longitudinal axis of the installation, in addition , hydraulic turbines are installed at the ends of the masts, the second ends of which are equipped with ballast, while the masts are passed through the wells and installed on horizontal axes with the possibility of swinging in the col Zach in planes parallel to the longitudinal axis of the apparatus, the ballast weight with the lower part of the mast dimensions sufficient to retain the longitudinal axis of the mast vertically while rotating rotors water turbines. 2. The hydropower installation according to claim 1, characterized in that the installation control unit is made in the form of a separate unit configured to remotely change buoyancy and is communicated with a cable with control mechanisms of control means. 3. The hydropower installation according to claim 1, characterized in that the turbines are enclosed in streamlined bodies, preferably symmetrical with respect to the axes of their rotation. 4. The hydropower installation according to claim 1, characterized in that the displacement base is made of a catamaran type in the form of bodies streamlined in front and behind, whose diametrical planes are spaced 1.1 screw diameters and are connected by transverse beams made streamlined to the current flows, while extended wells are made in the bodies of the displacement base.

Images