WO2008092178A2

WO2008092178A2 - Hydraulic power plant comprising a running wheel, sliding block, and flotsam screen

Info

Publication number: WO2008092178A2
Application number: PCT/AT2008/000024
Authority: WO
Inventors: Hermann Riegerbauer
Original assignee: Hermann Riegerbauer
Priority date: 2007-01-30
Filing date: 2008-01-28
Publication date: 2008-08-07
Also published as: WO2008092178A3; AT504753A1; AT504753B1

Abstract

Disclosed is a system comprising at least one flotsam screen, at least one sliding block, and at least one running wheel for a hydraulic power plant. In said system, it is easy to find the optimal position of the individual parts.

Description

Impeller, backdrop and propellant rake for a hydroelectric power plant

The invention also relates to an impeller according to the preamble of claim 5. The invention further relates to a propellant rake for a hydroelectric power plant according to the preamble of claim 9.

An object of the invention is to increase the efficiency of a hydroelectric power plant.

This object is achieved according to the invention with a backdrop of the type mentioned above in that the backdrop comprises one or more elements. This object is further achieved in that a Treibgutrechen has a U-shaped profile in the direction of flow and that an impeller is movably arranged.

It is a merit of the invention that a hydroelectric power plant can be operated efficiently even at low water levels. The special design of the Treibgutrechens allows cost-effective operation, since the flotsam does not have to be disposed of. The adjustability of the system propellant rack, scenery and impeller for a hydroelectric power plant allows efficient use of existing water even in difficult situations.

In a preferred embodiment of the invention, at least one element of the slide is arranged to be movable.

Conveniently, at least one element of the backdrop is movable via an adjusting mechanism.

Another advantage of the invention is that at least one element of the backdrop can be made normal to the water flow.

In a preferred embodiment, an impeller for a hydroelectric power plant is arranged to be movable.

Another advantage of the invention is that an impeller for a hydroelectric power plant via an adjustment mechanism is movable.

It may also be advantageous that the adjusting mechanism for the impeller comprises an adjustable compensating device.

In a preferred embodiment, the adjustment mechanism may comprise a sliding counterweight. In order to allow an adaptation of the hydroelectric power plant or the impeller to the underwater, the impeller comprises in a particularly efficient embodiment, at least one buoyant body.

An embodiment with a high practical use is that a Treibgutrechen for a hydroelectric power plant has a V-shaped profile in the direction of flow.

An embodiment with increased efficiency results from the fact that the Treibgutrechen is arranged to be movable.

Another advantage is that the Treibgutrechen is movable via an adjusting mechanism.

It is particularly advantageous if the propellant rack has a region which allows a storage of flotsam material.

A further improvement of the subject invention is that the adjusting devices for the elements of the scenery and the impeller are combined.

A particularly adapted to the intended use embodiment can be achieved when the adjusting devices for the Treibgutrechen, the elements of the scenery and the impeller are combined.

Conveniently.

A preferred manufacturing method is that.

It is particularly advantageous if.

The invention together with further advantages is explained below with reference to some non-limiting embodiments, which are illustrated in the drawings. In this show:

Fig. 1 is a schematic cross section of the hydroelectric power plant;

2 shows a cross section of a rod of a Treibgutrechens,

3 is a perspective view of a rod of a Treibgutrechens,

Fig. 4 shows an embodiment of a Treibgutrechens.

According to FIG. 1, the hydropower plant comprises at least one impeller (7), which is coupled to a device for generating electricity. The device for generating electricity can also be mounted in the impeller (7) itself. The impeller (7) is mounted movably and adjustably. The adjustment can be made via an adjusting device (4). The adjusting device (4) can be connected to a sensor, which is arranged in front of the impeller (7) and triggers the adjustment or the raising or lowering of the impeller, when the supplied amount of water (8) changes or when flotsam which can damage the impeller is registered. The impeller (7) may further comprise an adjustable compensating device (5), which has a displaceable counterweight (6). The displaceable counterweight (6) can also be designed as a generator for generating electricity. For this purpose, the generator must be suitably connected to the impeller (7). By a suitable adjustment of this compensating device (5) can be achieved that when flotsam is carried by the water to the impeller (7) and this reaches a size that could damage the impeller, the impeller is lifted by the weight of the propellant from the water or at least shifted so far that the flotsam can pass under the impeller. This embodiment allows the operation of the hydroelectric power plant without Treibgutrechen, whereby the maintenance can be reduced and the efficiency of the hydroelectric power plant can be increased. Before or under the impeller (7) is arranged a link (1), which comprises at least one adjustable element (1,2). The adjusting mechanism (3) for an element (1, 2) can be arranged above or below the element (1, 2). On one side, the element (1,2) can be movably mounted. The adjustability of the element (1,2) allows an adaptation of the scenery on the inflowing amount of water (8). When increasing the amount of water (8), for example, the element (1) can be lowered in order to achieve an acceleration of the inflowing into the impeller (7) water. In this way, the efficiency of the hydroelectric power plant can be adapted to the existing amount of water (8). With a suitable adjustment of the element (1) this can be used as a water barrier by the element (7) is placed normal to the water flow. The adjustable gate (1) can be used as a lock or to adjust the damming height. The element (7) may comprise further adjustable segments (not shown in the figures) in order to achieve optimum adjustability of the link (1).

The impeller (7) and / or the backdrop can be slidably arranged as a whole to compensate for an increase or decrease of the underwater at the outlet of the hydroelectric power plant. This displacement can be done mechanically via a guide or by the impeller (7) has floats that are required for adaptation to the changed underwater.

In the schematic representation in Fig. 2 shows the cross section of a rod of a Treibgutrechens (9). The arrow shows the direction of flow of the water. The flotsam can get stuck at the tips. By the U- or V-shape of the Treibgutrechens (9) between the tips of a backwash of the propellant is achieved. In a further embodiment, the shape may also be rectangular or square with an open side in the direction of flow. All forms described have a self-cleaning effect and make it difficult to get stuck.

By a suitable inclination of the Treibgutrechens (9) (Figure 3), the flotsam is moved to an area that can serve as a catchment area, collection area or storage area for the flotsam.

A particular embodiment of the Treibgutrechens invention (9) is shown in Fig. 4. The Treibgutrechen (9) via an adjusting device (11) is arranged to be movable. The Treibgutrechen (9) may have a shape that allows flooding of the propellant to a designated area (10). This area (10) can be designed so that over a longer period no emptying must be made. Once the Aufschwemmbereich (10) is filled, the Treibgutrechen (9) can be rotated by an adjusting device (11) to empty the flotsam. This emptying should be combined with a lifting of the impeller (7) to avoid contamination or damage of the impeller (7). This emptying can be done automatically or according to a predetermined schedule. Sensors can be provided to monitor the amount of stored propellant. From an economic point of view, a release of the stored propellant makes sense, as this can save the disposal costs for the flotsam.

The system of Treibgutrechen (9) and / or backdrop (1) and / or impeller (7) can be generated prefabricated and introduced as a whole in a body of water. A suitable device for power generation must be connected to the impeller (7). As materials for the individual components plastic, concrete, reinforced concrete, wood and steel are conceivable.

Claims

claims:

1. backdrop (1) for a hydropower plant, characterized in that the link (1) comprises at least one element (1,2).

2. link (1) according to claim 1, characterized in that at least one element (1,2) is arranged to be movable.

3. link (1) according to claim 2, characterized in that at least one element (1,2) via an adjusting mechanism (3) is movable.

4. link (1) according to claim 2 or 3, characterized in that at least one element (1) can be made normal to the water flow.

5. impeller (7) for a hydroelectric power station, characterized in that the impeller (7) is arranged to be movable.

6. impeller (7) according to claim 5, characterized in that the impeller (7) via an adjusting mechanism (4) is movable.

7. impeller (7) according to claim 6, characterized in that the adjusting mechanism (4) comprises an adjustable compensating device (5).

8. impeller (7) according to claim 6 or 7, characterized in that the adjusting mechanism (4) comprises a displaceable counterweight (6).

9. impeller (7) according to one of the preceding claims, characterized in that the impeller comprises at least one buoyant body.

10. Treibgutrechen (9) for a hydroelectric power plant, characterized in that the Treibgutrechen (9) has a u- or v-shaped profile in the direction of flow.

11. Treibgutrechen (9) according to claim 9, characterized in that the Treibgutrechen (9) is arranged to be movable.

12. Treibgutrechen (9) according to claim 9 or 10, characterized in that the Treibgutrechen (9) via an adjusting mechanism (11) is movable.

13. propellant rack (9) according to claim 9, 10 or 11, characterized in that the Treibgutrechen (9) has an area (10) which allows a storage of flotsam.

14. System consisting of at least one link (1) and at least one impeller (7) for a hydroelectric power station, characterized in that the adjusting devices (3,4,5,6) for the elements of the link (1) and the impeller

(7) are combined.

15. System consisting of at least one Treibgutrechen (9), at least one link (1) and at least one impeller (7) for a hydroelectric power plant according to one of the preceding claims, characterized in that the adjusting devices (3,4,5,6,11 ) for the Treibgutrechen (9), the elements (1,2) of the slide (1) and the impeller (7) are combined.