RU2139972C1 - Underwater hydroelectric station - Google Patents

Abstract

FIELD: hydraulic power engineering. SUBSTANCE: hydroelectric station has body installed in water stream and divided into compartments. Included in body is inlet converging tube. Successively installed inside body is hydraulic power drive made in the form of bladed turbine with horizontal shaft mounted on bearings, and electric generator. Rotor of electric generator is connected with shaft of hydraulic power drive through two half-couplings. Electric generator is located in hermetic compartment of body. Inlet converging tube is provided with guarding screen. Body compartment with hydraulic power drive has longitudinal outlet holes and deflector of internal water flow made in the form of truncated cone and which is hermetically connected with cylindrical shell. Installed inside shell is horizontal shaft of turbine on bearings. Shaft is provided with end seal which is hermetically connected with cylindrical shell. Tail compartment of body is hermetically sealed and is made in the form of truncated cone. Installed on small base of cone is hermetic waterproof electric connector unit with electric cable. Aforesaid embodiment of underwater hydroelectric station simplifies design and improves waterproofness of its components. EFFECT: higher efficiency. 11 cl, 18 dwg

Description

 The invention relates to hydropower, and in particular to hydropower plants immersed in water and providing electricity by using the energy of a water stream.

 Known underwater hydroelectric power station, comprising a housing, an inlet confuser, a turbine, an electric generator, an outlet diffuser provided with blades, and means for attaching the station to the bottom of the reservoir, the confuser is spiral-shaped, its inlet section has a rectangle shape, and the outlet diffuser is provided with curved blades that are curved in the direction opposite to the direction of twist of the confuser (see the description of the invention to the copyright certificate N 1737149, IPC F 03 B 13/10, publication 05/30/92).

 A disadvantage of the known hydroelectric power station is the complexity of its design.

 A well-known underwater hydroelectric power station containing a sealed housing connected to the bottom, an electric generator is installed in the cylindrical compartment, and its rotor is connected to a hydraulic actuator made in the form of a turbine with blades mounted on a hub, while the power station is equipped with compressed gas cylinders, automatic control and monitoring equipment the work and the mechanism for turning the blades, which are pivotally mounted on the hub with the possibility of turning from horizontal to vertical position under one of the body halves The latter is made in the form of an inverted saucer, and is divided into additional compartments for placing said cylinders, equipment for filling ballast water, the generator stator is made over the entire circumference of its compartment. In addition, the housing is connected to the bottom by means of telescopic supports pivotally attached to it.

 In addition, the connection of the housing with the bottom is made by means of a chain with an anchor.

 In addition, the rotation mechanism of the blades is located in the hub.

 In addition, the rotation mechanism of the blades is made in the form of a guide mounted under that half of the housing where the blades are horizontal, each blade having a hollow compartment in the upper part and filled with ballast in the lower one (see the description of the invention to RF patent N 2070987, IPC F 03 B 13/00, publication 12/27/96).

 A disadvantage of the known hydroelectric power station is the complexity of its design.

 A subsea hydroelectric power plant is known, which comprises a housing with an inlet confuser installed in water compartments, at the outlet of which a hydraulic actuator is arranged in series inside the housing, made in the form of a blade turbine with a horizontal shaft with bearings, and an electric generator, the rotor of which is connected to the shaft through two half couplings hydraulic drive, while the generator is placed in a sealed compartment of the housing having a longitudinal annular channel for the passage of water between the outer wall of the housing and it is sealed m compartment, which using several ribs is connected to the outer wall of the casing (see the description of the invention to the USSR copyright certificate N 436382, IPC F 03 B 13/10, publication July 15, 74).

 A disadvantage of the known hydroelectric power station is the complexity of its design and lack of tightness.

 The task to which this invention is directed is to simplify the design and increase the tightness of the nodes of a hydroelectric power station.

 The essence of the invention lies in the fact that in an underwater hydroelectric power station containing a casing with an inlet confuser divided into compartments, a hydraulic actuator arranged in the form of a vane turbine with a horizontal shaft with bearings and an electric generator, a rotor which, through two half-couplings, is connected to the hydraulic drive shaft, while the electric generator is placed in a sealed housing compartment, a guard grid is installed on the input confuser, the housing compartment with a hydraulic actuator has longitudinal output windows and a reflector of the internal water flow, made in the form of a truncated cone and hermetically connected to a cylindrical shell, inside of which a horizontal turbine shaft is mounted on bearings, while the shaft has a mechanical seal, hermetically connected to a cylindrical shell, the tail section of the housing is made sealed in the form of a truncated cone and has a sealed waterproof electrical connector with an electric cable mounted on a smaller base.

 In addition, the fence mesh has square cells with side sizes not exceeding 60 mm.

 In addition, the total area of the longitudinal exit windows is equal to or greater than the cross-sectional area of the inner passage into the hydraulically-driven housing compartment.

In addition, the reflector of the internal flow of water has an angle of inclination of the generatrix of the cone to the horizontal axis, equal to 30-60 ^o .

 In addition, the mechanical seal is self-working and has a steel movable disk, the working surface of which is covered with a layer of cermet, a fixed element made of alloyed heat-treated steel, rubber gaskets, an elastomeric cuff and a coil spring pressing the disk and the element to each other.

 In addition, the turbine blades are made of corrosion-resistant steel and are fixed in the hub using pins parallel to the horizontal shaft.

 In addition, the housing is installed in a stream of water using supports on the banks of a river or channel and cables attached to the housing and supports.

 In addition, in the horizontal diametrical plane on the body from two opposite sides parallel to its longitudinal axis, two submersible air cylinders are installed, and the body is installed in the water stream using anchors at the bottom of the reservoir and telescopic supports, which are fixed with their ends on the body and on the anchors .

 In addition, in the vertical diametrical plane in the upper part on the body parallel to its longitudinal axis, a submersible balloon with air is installed, and the body is installed in a stream of water with the help of anchors at the bottom of the reservoir and telescopic supports, which are fixed with their ends on the body and anchors.

 In addition, the number of anchors and telescopic supports is three.

 In addition, the casing is installed in the water stream using a support platform at the bottom of the reservoir.

In addition, the support platform has a support base and a cradle, which is installed on the base with the possibility of a lateral roll of 10-30 ^o and a longitudinal inclination of 5-25 ^o from the horizontal plane of the base.

 This allows to simplify the design and increase the tightness of the hydroelectric power station.

 The invention is illustrated by drawings, where in Fig.1 shows a General view of an underwater power plant, Fig.2 is a longitudinal section aa, in Fig.3 is a view B, in Fig. 4 is a view B, FIG. 5 is a compartment of a hydraulic housing, a longitudinal section, FIG. 6 is a view G, FIG. 7 is a node I, FIG. 8 is a node II, FIG. 9 - a compartment of the housing with an electric generator, a longitudinal section, in FIG. 10 is a view D, FIG. 11 is an installation of an underwater hydroelectric power station in a river or channel on cables, a general view, in FIG. 12 is a view E, in FIG. 13 - installation of an underwater hydroelectric power station with two submersible cylinders at the bottom of a reservoir, general view, in FIG. 14 is a view G; in FIG. 15 - installation of an underwater hydroelectric power station with one submersible cylinder at the bottom of a reservoir, general view, in FIG. 16 is a view 3; FIG. 17 - installation of an underwater hydroelectric power station on a support platform at the bottom of a reservoir, general view, Fig. 18 is a view of I.

 The underwater hydroelectric power station contains a housing 1 installed in compartments, divided into compartments, with an inlet confuser 2. Inside the housing 1, a hydraulic actuator is arranged in the form of a blade turbine 3 with a horizontal shaft 4 on bearings 5 and 6, and an electric generator 7, the rotor of which is through two coupling halves 8 and 9 are connected to the hydraulic drive shaft 4. The generator 7 is placed in a sealed compartment 10 of the housing 1. At the inlet confuser 2 there is a guard grid 11. The compartment 12 of the housing 1 with a hydraulic actuator has longitudinal output windows 13 and a reflector 14 of the internal water flow, made in the form of a truncated cone and hermetically connected to the cylindrical shell 15, inside of which a horizontal shaft 4 of the turbine 3 is mounted on bearings 5 and 6. The shaft 4 has a mechanical seal 16, hermetically connected to the cylindrical shell 15. The tail compartment 17 of the housing 1 is made hermetically sealed in the form of a truncated of the cone and is mounted on the smaller base airtight waterproof electrical connector 18 with electrical cable (not shown in the figures). The guard net 11 has square cells with a side size of not more than 60 mm. The total area of the longitudinal exit windows 13 is equal to or greater than the cross-sectional area of the inner passage into the compartment 12 of the housing 1 with a hydraulic actuator.

The reflector 14 of the internal water flow has an angle of inclination of the generatrix of the cone to the horizontal axis, equal to 30-60 ^o .

 The mechanical seal 16 is self-drilling and has a steel movable disk 19, the working surface of which is covered with a layer of cermet, for example, a layer of cermet bronze-graphite composition impregnated with silicone plastic, a fixed element 20 made of alloyed heat-treated steel, rubber gaskets 21, an elastomeric cuff 22 and a coil spring 23 pressing the disk 19 and the element 20 to each other. The blades 24 of the turbine 3 are made of corrosion-resistant steel and are fixed in the hub 25 using pins 26 located parallel to the horizontal shaft 4.

 In FIG. 11 and 12, the housing 1 is installed in a stream of water with the help of supports 27 on the banks of a river or channel and cables 28 attached to the housing 1 and supports 27. In FIG. 13 and 14, in the horizontal diametrical plane, two immersion cylinders 29 and 30 with air are installed on the housing 1 from its two opposite sides parallel to its longitudinal axis, and the housing 1 is installed in the water stream using anchors 31 at the bottom of the reservoir and telescopic supports 32, which are fixed respectively, their ends on the housing 1 and on the anchors 31.

 In FIG. 15 and 16, in the vertical diametrical plane in the upper part, one immersion cylinder 33 with air is installed on the housing 1 parallel to its longitudinal axis, and the housing 1 is installed in the water stream with the help of an anchor 34 at the bottom of the reservoir and telescopic supports 35, which are fixed respectively with their ends on the housing 1 and the anchors 34. The number of anchors 31, 34 and telescopic supports 32, 35 may be equal to three.

In FIG. 17 and 18, the housing 1 is installed in a stream of water using a support platform 36 at the bottom of the reservoir. The supporting platform 36 has a supporting base 37 and a cradle 38, which is mounted on the base 37 with the possibility of lateral roll at 10 - 30 ^o and a longitudinal inclination of 5 - 25 ^o from the horizontal plane of the base 37.

 Underwater hydropower works as follows.

 A moving stream of water through the fence grid 11 enters the confuser 2, in which there is an increase in the speed of movement of water. Under the pressure of moving water, a vane turbine 3 rotates. The internal water flow after the turbine 3 is brought out through the longitudinal output windows 13 and with the help of a reflector 14. The vane turbine 3 drives the electric generator 7, which generates electric energy transmitted through the electrical connector 18 and the electric cable to the automatic control and monitoring equipment, regulating transformer and further to the consumer.

 Underwater hydroelectric power in accordance with this invention in comparison with the prototype has a simpler and hi-tech design and increased tightness of its nodes.

Claims (12)

 1. An underwater hydroelectric power station, comprising a housing with an inlet confuser installed in the water stream and divided into compartments, at the outlet of which a hydraulic actuator is arranged in series inside the housing, made in the form of a blade turbine with a horizontal shaft with bearings, and an electric generator, the rotor of which is connected to the hydraulic drive shaft, while the electric generator is placed in a sealed compartment of the housing, characterized in that a guard grid is installed on the input confuser, the housing compartment with a hydraulic drive has t longitudinal output windows and a reflector of the internal water flow, made in the form of a truncated cone and hermetically connected to a cylindrical shell, inside of which a horizontal turbine shaft is mounted on bearings, the shaft has a mechanical seal, hermetically connected to a cylindrical shell, the tail section of the housing is sealed in in the form of a truncated cone and has a sealed waterproof electrical connector with an electric cable mounted on a smaller base.  2. Hydroelectric power station according to claim 1, characterized in that the fencing grid has square cells with a side size of not more than 60 mm.  3. Hydroelectric power station according to claim 1, characterized in that the total area of the longitudinal exit windows is equal to or greater than the cross-sectional area of the inner passage in the compartment of the hydraulic housing. 4. Hydroelectric power station according to claim 1, characterized in that the reflector of the internal water flow has an angle of inclination of the generatrix of the cone to the horizontal axis, equal to 30-60 ^o .  5. Hydroelectric power station according to claim 1, characterized in that the mechanical seal is self-working and has a steel movable disk, the working surface of which is covered with a layer of cermet, a fixed element made of alloyed heat-treated steel, rubber gaskets, an elastomeric cuff and a cylindrical spring pressing the disk and item to each other.  6. Hydroelectric power station according to claim 1, characterized in that the turbine blades are made of stainless steel and are fixed in the hub using pins parallel to the horizontal shaft.  7. Hydroelectric power station according to claim 1, characterized in that the housing is installed in a stream of water using supports on the banks of a river or channel and cables attached to the housing and supports.  8. Hydroelectric power station according to claim 1, characterized in that in the horizontal diametrical plane on the body from two opposite sides parallel to its longitudinal axis there are two immersion cylinders with air, and the body is installed in a stream of water using anchors at the bottom of the reservoir and telescopic supports, which are fixed with their ends on the hull and on the anchors.  9. Hydroelectric power station according to claim 1, characterized in that in the vertical diametrical plane in the upper part on the body parallel to its longitudinal axis, a submersible balloon with air is installed, and the body is installed in a stream of water using anchors at the bottom of the reservoir and telescopic supports, which are fixed by ends on the hull and anchors.  10. Hydroelectric power station according to claim 8 or 9, characterized in that the number of anchors and telescopic supports is three.  11. Hydroelectric power station according to claim 1, characterized in that the housing is installed in a stream of water using a support platform at the bottom of the reservoir. 12. Hydroelectric power station according to claim 11, characterized in that the support platform has a support base and a cradle, which is installed on the base with the possibility of a lateral roll of 10-30 ^o and a longitudinal inclination of 5-25 ^o from the horizontal plane of the base.

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