DE102007014854B3 - Plant for generating electrical energy from hydroelectricity by hydraulic turbine, solar radiation by solar module and wind by wind turbine, has energy tower equipped with all technical devices for generating of electricity - Google Patents

Abstract

The plant has an energy tower (10) equipped with all technical devices for generating of electricity by hydroelectricity, solar radiation and wind in connection for supply in the public network. The energy tower is mounted in a bridging and column construction with a flow-through chamber (22) formed in flux area. The plant is a hydraulic power station. The flux area in hydraulic turbine is formed as multilevel horizontal-tangential load, vertically supported turbojet (23), which drives three-phase alternator (31) fitted in a floor of energy tower on same level with power station bridge (21).

Description

The The invention relates to a system for generating electrical energy from hydropower by means of a water turbine, solar radiation by means of a solar module and Wind by wind turbine, with at least one energy tower according to the preamble of claim 1.

Such a plant is from the DE 4322980 C2 known. This is a tidal power plant for the use of hydropower, wind power and solar energy, comprising at least two prefabricated concrete, transportable to a construction site at sea, in each of which at least one pipe or channel is included, in which at least one Hydro turbine, in particular pipe turbine is inserted, and which are stacked at the site over a foundation as a tower without additional housing, wherein the structure formed from the stacked units is rotatable on the foundation. The uppermost unit protruding above the water surface may have, in addition to a wind generator, solar panels which convert solar energy into electrical energy. For this purpose, the top unit has oblique side walls, which are occupied by the solar panels. Above the sloping side walls there is a platform for the operation of the mounted wind turbine and the solar panels. Due to the use of hydropower, wind power and solar energy at the same time, the known plant can achieve a good energy yield, but also essentially only where there are noticeable tidal currents.

Of the The invention is therefore based on the object, a plant of the generic type Type of energy from hydropower also inland usable and at the same time an optimal use of solar radiation to accomplish.

These The object is achieved with the features specified in claim 1. to Invention in the river area a water turbine with generator, at the upper end the energy tower a wind turbine with generator and a large-scale solar module, which is mounted tiltably on a cylinder which concentric on the outer circumference of the Power tower is rotatably mounted with motor drive, bringing the solar module during the course of the day the position of the sun can be tracked and in the dormant eastern Starting position due to the tilting function on the motor during the year changing sunshine angle can be adjusted. The structure of the solar module, the arrangement and interconnection of the solar cells, the voltage conversion by an inverter and the necessary switching devices for mains supply correspond to the state of the art. This new River power plant, which equipped according to the river width with several energy towers can be different from the other known designs, those with Francis - or Equipped with Kaplan turbines are, in that the required case of these turbine types fall height of the incoming water and the associated long river impoundments are avoided through the use of a new multistage jet turbine for horizontal - tangential Loading, with the individual stages adapted to the river management maximum height can be composed. With this construction method can on a suitable river route more power plants will be built than with the known designs, whose long detention routes can amount to several kilometers. One Another major advantage of this energy tower is the additional Obtaining electrical energy through optimal use of solar radiation and wind power.

refinements the new system can be found in the claims 2 to 14 and will be together with the solution according to claim 1 with embodiments explained in more detail with reference to schematic drawings and circuit diagrams.

It shows:

1 a section through an energy tower

2 Cut AB from 1 , Introduction of the solar module connection cable in the energy tower

3 Partial section CD of 2 , Roller guide of the solar module connection cable

4 Partial view X of 1 , Worm wheel drive on the adjusting lever for swiveling the solar module

5 a partial view of the energy tower from the north in the starting position in the covered park frame

6 a partial section EF of 5 , Operation of a roller and ball switch when stopping the solar module on the parking frame

7 a top view Y of 5 with double side wing at the wind turbine cylinder

8th a timer that mounts the cylinder drive motor and the cable reel motor 9 switches

9 a diagram of the switching sequence in the control unit

10 a circuit diagram after switching sequence in 9

11 a circuit diagram for tilt adjustment of the solar module

12 a partial section GH of 6 , Switching on the ball switch for light fields

13 Inlet channels to two turbines with the same direction of rotation

14 Inflow channels with uneven turbine rotation direction

15 an end view of two turbine stages

16 a turbine hub

An energy tower 10 is based on a bridge and pillar construction with a flow chamber formed in the flow area 22 in which a multi-stage jet turbine 23 is mounted vertically, which is an alternator 31 that drives in the energy tower 10 on the same level as the power station bridge 21 is installed. The multi-stage jet turbine according to river height 23 is applied horizontally - tangentially and is due to the symmetrical design of the individual stages 17 cutting in the middle 65 are formed, can be used by turning for both directions of rotation. The turbine stages may be equipped with six, nine or twelve blade struts according to their outer diameter and are fitted to the hubs 27 screwed together, with three threaded holes 28 and three screw holes 29 are provided with cylindrical countersinks each with 120 ° division. The flooding chamber 22 is through a lid 32 completed with drive shaft bearing. The turbine flow is through a guide bar 26 in two narrow inflow channels 24 . 25 divided, causing the turbine 23 from different directions with high flow velocity and kinetic energy of 0.5 mv ^{2 is} driven. For lossless loading in the drive zone surrounds the wall of the flooding chamber 22 radially in the circular arc two blade struts 30 , The unbalanced energy generated between two energy towers with the same direction of turbine rotation 73 Inflow contours can be symmetrical in different directions of turbine rotation 74 - be designed. Excessive water can flow through overflow openings and through a worm drive 69 adjustable lock gates 68 be derived. The one on the outer circumference of the energy tower 10 stored cylinders 36 is attached to one at its upper storage 20 attached sprocket 19 from a geared motor 56 driven by pinion and moves the front of the cylinder collar 70 tiltable mounted solar module 42 for daylighting with.

The module connection cable 50 becomes with the length required for the day swing range within a stretchable protective tube 18 to one on the cylinder 36 inserted grommet 51 guided and trapped and between energy tower - outer wall and cylinder 36 on rolls 52 frictionless over one with a drive motor 55 equipped cable reel 54 in the energy tower 10 guided. The solar module 42 becomes after completion of the day irradiation by an automatic reversing direction of the geared motor 56 while switching on the cable reel motor 55 in the eastern starting position in a covered park frame 45 returned and there by a built-in module frame roller switch 59 stopped, with its role 60 when placed on an inclined surface 61 of the park frame 45 is pushed up, and by opening the switch contacts 62 the geared motor 56 and the cable roller motor 55 be switched off. A control unit 35 switches the motion sequence of the solar module 42 within 24 Hours as follows. By closing the switch groups 57 and opening the switch groups 58 is at S for the morning start of the solar module 42 the geared motor 56 switched on, in the further course of the day T the solar module 42 in intermittent operation moves to U, where by opening the switch groups 57 and closing the switch groups 58 the direction of rotation of the geared motor 56 and simultaneously turning on the reel motor 55 for safely rolling up the solar module cable 50 then, after returning by R and stopping at E by the roller switch 59 the solar module remains at S until the start at S. In order to adapt to the changing solar radiation angle in the year in the parking position during the time P, the inclination of the solar module using a year scale 63 be set on a control panel 72 light fields 75 are assigned, each of which is designated with two month names in which the same sun angle is given. The adjustment of the solar module is done by a lever 44 which in conjunction with a worm wheel 49 from the wave 48 one under the collar 95 of the cylinder 36 mounted engine 47 is driven in two directions. The lever 44 is with the worm wheel 49 in one on the cylinder 36 attached console 53 rotatably mounted. To adjust the solar module tilt the engine 47 by pressing one of the push buttons 77 . 78 turned on until reaching the new setting one of the six on the parking frame 45 arranged switch 79 through a module frame strip 76 is turned on, reducing the associated field 75 lights up and indicates the end of the setting process. If the 1st or 6th switch is accidentally crossed 79 becomes one of the two safety switches 33 . 34 opened by touching the module frame, whereupon the motor 47 is switched off. With control in the opposite direction the connection becomes restored. Through additional contacts 80 . 81 at the counters 77 . 78 can the engine 47 only received voltage from a switch. When creating the solar module 42 to the parking frame switches the bar 76 one of the switches 79 one, before the roller switch 59 the geared motor 56 switches off and stops the solar module. In order for the luminous field corresponding to its inclination to be switched on in the rest position of the solar module, the next inclination adjustment can be made from this position. The from the bar 76 in different directions actuated switch 79 are with a ball 82 equipped in a cylindrical switch housing 83 is guided. When turned on, the ball presses a ring 84 with shank 92 against one between the ring 84 and a pedestal 91 clamped spring 85 down, so one on the shaft 92 attached metal disc 86 two in a plastic ring 87 fixed contacts 88 bridged. The plastic ring 87 With the contacts can have one between the plastic ring and a ring base 89 clamped spring 90 up to the full final pressure height of the ball 82 be pressed. At the top of the energy tower 10 is a wind turbine 38 inside a rotatable cylinder 40 stored, at the tangential below the turbine and parallel two Windleitflügel 41 are attached. The rotatable cylinder 40 is halfway open at the height of the wind turbine, so that the wind turbine is always driven in the same direction of rotation in every wind direction. The wind turbine drives a generator installed in the lower room 39 at. In the parking time P are two openings 96 . 97 on the cylinder 36 over the assembly gates 98 . 99 of the energy tower. The access to the energy tower is also possible outside the time P by returning the solar module in the parking position by remote control. All floors of the energy tower are via a spiral staircase 100 walkable on the inner circumference.

Claims (14)

Plant for generating electrical energy from hydropower by means of a water turbine ( 23 ), Solar radiation by solar module ( 42 ) and wind by means of a wind turbine ( 38 ), with at least one energy tower ( 10 ), which is equipped with all the technical means of generating electrical energy by hydropower, solar radiation and wind in a network to be fed into the public grid, at the top end of the energy tower ( 10 ) the wind turbine ( 38 ), one on the upper floor of the energy tower ( 10 ) built-in generator ( 39 ), characterized in that the plant is a river power plant that the energy tower ( 10 ) is based in a bridge and pillar construction with a flow-formed in the flow area ( 22 ), in which the water turbine is a multi-stage ( 17 ) horizontal-tangentially loaded, vertically mounted jet turbine ( 23 ) is formed, which is a three-phase generator ( 31 ), which is located in one floor of the energy tower ( 10 ) at the same level as the power station bridge ( 21 ), that further a large-area solar module ( 42 ) on a cylinder ( 36 ) is mounted tiltably on the outer periphery of the energy tower ( 10 ) is concentrically mounted and by a geared motor ( 56 ) on a sprocket ( 19 ), whereby the solar module ( 42 ) is reversible to the position of the sun during the course of the day and is automatically controlled at the end of irradiation in the eastern starting position to form a covered parking frame ( 45 ) and by means of a built-in in the context of the solar module switch ( 59 ) is stopped and remains there until the next morning start, whereby it can be adjusted in this position to the changing during the year solar irradiation angle. Plant according to claim 1, characterized in that the multi-stage jet turbine according to the flow height ( 23 ) on hubs ( 27 ), each hub having three threaded holes ( 28 ) and three screw holes ( 29 ), which is offset by 120 ° -partition, and is connected for power transmission to the drive shaft by toothing, that by a symmetrical shape of the blade struts with the formed in the middle cutting ( 65 ) the multi-stage jet turbine can be used by turning for both directions of rotation. Installation according to claim 1, characterized in that the turbine inflow passage through a web ( 26 ) into two narrow channels ( 24 . 25 ) is divided, so that the jet turbine is driven tangentially from two directions on the circumference, that wei ters in the drive zone, the contour of the flooding chamber ( 22 ) encloses two blade struts radially in a circular arc ( 30 ). Plant according to claim 1 to 3, characterized in that the existing between two energy towers inflow contours ( 73 . 74 ) asymmetrically with the same direction of turbine rotation ( 73 ) or symmetrical with different directions of turbine rotation ( 74 ) are designed. Plant according to claim 1 to 4, characterized in that an inflated at Turbineneinströmkanal water flow at lock gates ( 68 ) can be derived, these with an extended axis of rotation ( 93 ) by a worm drive accessible from the power station bridge ( 69 ) can be opened or closed. Installation according to claim 1, characterized in that at the upper end of the energy tower ( 10 ) mounted wind turbine ( 38 ) within a rotatable cylinder ( 40 ) is stored under half of the wind turbine ( 38 ) by two at its periphery tangentially parallel Windleitflügel ( 41 ) is rotatable in each wind direction and on the wind turbine ( 38 ) is opened in half for the wind drive with the same direction of rotation. Plant according to claim 1, characterized in that a connection cable ( 50 ) of the cylinder ( 36 ) rotated solar module ( 42 ) in a stretchable protective tube ( 18 ) to a grommet ( 51 ) on the cylinder ( 36 ), is clamped in this and between energy tower - outer wall and cylinder ( 36 ) on casters ( 52 ) in the energy tower ( 10 ) to one with engine ( 55 ) equipped cable reel ( 54 ), which receives the cable length required for the day swing range. Installation according to claim 1 and 7, characterized in that the solar module ( 42 ) after the daytime irradiation by automatic direction reversal of the geared motor ( 56 ) while switching on the cable reel motor ( 55 ) in the eastern starting position in a covered park frame ( 45 ) is traceable and there by one in the context of the solar module ( 42 ) built-in roller switch ( 59 ) is stopped by its role ( 60 ) when placed on an inclined surface ( 61 ) on the parking frame ( 45 ), the switch contacts ( 62 ) and thus the geared motor ( 56 ) and the cable reel motor ( 55 ) turns off. Plant according to claim 1, 7 and 8, characterized in that a control device ( 35 ) is provided, the movement of the solar module ( 42 ) within 24 hours according to the following scheme: for the morning start at S is closed by closing a first switch group ( 57 ) and opening a second switch group ( 58 ) the geared motor ( 56 ), which moves in the further course of the day T in intermittent operation, the solar module and at the end of T at U after rotation direction switching by opening the first switch group ( 57 ) and closing the second switch group ( 58 ) while switching on the cable reel motor ( 55 ) - for safely rolling up the solar module cable ( 50 ) - the solar module ( 42 ) through R to the parking frame, where at E from the roller switch ( 59 ) is stopped and remains at S until the next start at S. Installation according to claim 1, characterized in that in the parking position, the inclination of the solar module ( 42 ) monthly using a yearly scale ( 63 ) which can be adjusted on a control panel ( 72 ) Light fields ( 75 ) are assigned, each of which is designated with two month names in which an equal sun angle is given and the inclination adjustment by a lever ( 44 ), which in conjunction with a worm wheel ( 49 ) from the wave ( 48 ) one under a cylinder collar ( 95 ), on the control panel ( 72 ) motor to be connected ( 47 ) is driven, the lever ( 44 ) with its worm wheel ( 49 ) in one of the cylinders ( 36 ) mounted console ( 53 ) is rotatably mounted and with an attached at the end of role ( 43 ) in a U-profile ( 46 ) the solar module ( 42 ) raises and lowers. Installation according to claim 1 and 10, characterized in that at a tilt adjustment of the solar module ( 42 ) at a certain month the achievement of the corresponding solar module inclination for switching off (releasing) by one of two key switches ( 77 . 78 ) when a light field marked with the relevant month ( 75 ) can be displayed, wherein the switching on the illumination of this field by depressing a arranged on the parking frame six ball-type switches ( 79 ) by a bar ( 76 ), which is next to a roller switch ( 59 ) on the frame of the solar module ( 42 ) and when creating the solar module ( 42 ) on the parking frame ( 45 ) the ballast switch ( 79 ) before the roller switch ( 59 ) stops the solar module. Plant according to claim 1 and 11, characterized in that when accidentally passing over the first or sixth ballast switch ( 79 ) the solar module ( 42 ) one of two safety switches ( 33 . 34 ) when starting, and thus the engine ( 47 ) and further by normally closed contacts ( 80 . 81 ) on the keyswitches ( 77 . 78 ) the motor ( 47 ) can be connected to voltage only from one of these switches. Installation according to claim 1, 11 and 12, characterized in that the parking frame ( 45 ) arranged six push buttons ( 79 ) with a ball ( 82 ) fitted in a cylindrical switch housing ( 83 ) and when pressed through the bar ( 76 ) a ring ( 84 ) with shank ( 92 ) against one between the ring ( 84 ) and a socket ( 91 ) clamped spring ( 85 ) down so that one on the shaft ( 92 ) attached metal disc ( 86 ) two in a plastic ring ( 87 ) attached contacts ( 88 ) and the plastic ring ( 87 ) with the contacts against a between the plastic ring and a ring base ( 89 ) clamped spring ( 90 ) up to the full impression height of the ball ( 82 ) is pressed. Installation according to claim 1, characterized in that in the parking time P of the solar module two openings ( 96 . 97 ) on the cylinder ( 36 ) via assembly gates ( 98 . 99 ) of the energy tower and, if necessary, the access to the energy tower also outside the time P by repatriation of the solar module in the parking position by remote control is possible.