CH685354A5 - Water-driven power generation plant - Google Patents

Abstract

The generation plant has a water=wheel (6), positioned across the bed (2) of a stream or river, beneath a waterfall, so that it is rotated by the passage of the water across the top of the water-wheel. The water-wheel may be provided by a number of individual water-wheels mounted on a common shaft (7), to extend across the full width of the river or stream bed, the front edge (3) of the waterfall projecting over a part of the water-wheel which is located in a recess beneath the front edge.

Description

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The present invention relates to a hydropower plant with at least one water wheel arranged transversely to the bed of a stream or river and over which the water flows. Such a system is known from D-A 3 639 989. The water wheel is arranged in a transverse channel in the river bed and substantially below the water level. However, this design has the disadvantage that the flow energy of the water can only be used to a small extent, that a lot of energy is lost due to the formation of eddies in the cross-channel not flowed through, and that there is a considerable risk of this cross-channel being silted up or silted up.

The aim of the present invention is to remedy these disadvantages without interfering with the natural course of the stream or river in an unsustainable manner. At the same time, the disadvantages of conventional small or medium-sized hydropower plants, such as sanding of the turbine inlets and obstruction by leaves in autumn, are to be avoided. The realization and the economical operation of such conventional smaller hydropower plants is hardly possible anymore.

The solution according to the invention now consists in the water wheel being arranged below a hold-up and overflowing with the falling water. This system is particularly suitable for mountain streams and rivers, where structures with raids are often required anyway. The hydropower plant according to the invention can be implemented in existing raids, but it can preferably be carried out when renewing or creating new structures. However, the application of the hydropower plant according to the invention is not limited to typical mountain streams or rivers, but can also be advantageously created for streams and rivers in the central plateau.

The invention will now be explained in more detail using an exemplary embodiment of a two-stage hydropower plant shown in the drawing.

Fig. 1 shows a schematic cross section, and

Fig. 2 shows a schematic longitudinal section through the system. A two-stage hold-up is built into the river bed 1. The structure is made of concrete, the bank structure partly made of natural stones, and particularly stressed areas can be reinforced by steel cladding. This applies in particular to the shallow inlet 2, which according to FIG. 1 can be slightly inclined in order to accelerate the flow and to distribute it practically uniformly over the entire width of the river bed. The two raids each have a projection 3 and a rear wall 4 set back relative to the same. The sole 5 under the respective raid is inclined in the direction of flow, so that water and any debris can drain off as smoothly as possible on this smooth sole. Before or under each attack is a roller-like, elongated water wheel 6 with its shaft 7, which takes up practically the entire width of the river bed

rotatably mounted. In the side walls 8 and 9, bearings 10 are indicated for the shaft ends protruding into these walls. Another bearing 11 is indicated in the middle of each water wheel. The two water wheels consist of individual wheels 6 a of appropriate length, which are attached to the shafts 7. As indicated in Fig. 1, the water wheels are equipped with relatively few blades 12, between which closed cells are formed together with the end flanges of the wheels, which do not allow the water to pass inside the wheel. As indicated in Fig. 1, the water therefore flows over the waterwheels and only fills their cells, which are then immediately emptied again. It is therefore impossible for sludge or sand to get stuck in the waterwheels more often, since all possible solid parts always come out of the waterwheel together with the water or are thrown out. Coarse debris or driftwood jump over the water wheels or do not even come into contact with them. This is particularly true in the event of floods, in that the water mainly flows over the waterwheels without influencing them. The system, especially the water wheels, are dimensioned so that they use the available energy optimally when the water level is normal. As attachments can hit the waterwheels as mentioned, these wheels must be made particularly stable and wear-resistant, for example in cast steel.

In Fig. 2 it is indicated that the two shafts 7 of the water wheels are extended beyond their bearings 10 in gear 13. The two waterwheels are coupled to one another and to a generator 15 via this transmission and a further transmission 14.

As already mentioned at the beginning, the aim of the invention is to have the least possible, environmentally compatible intervention in the stream or river course. In fact, the system according to the invention does not influence the course of the river more drastically than a conventional, not particularly high raid. The waterwheels can have a diameter of about one meter, for example, in which case they can also be jumped over by fish.

On the other hand, if the water level is sufficient, sports boats can drive through the facility at least as easily as a free hold-up of the appropriate height.

A wide variety of designs are possible. The system can only be carried out in one stage or more than two stages can be combined and coupled with a common generator. The water wheels can have more blades than shown in the exemplary embodiment. While waterwheels with closed cells are shown in the exemplary embodiment, waterwheels could also be provided, each with a blade ring and interposed through channels, through which the water flows in at the top, and the wheel flows approximately diagonally and flows out at the bottom. That or the water wheels

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could also drive other machines, such as a water pump, a heat pump, or the like.

Claims (8)

Claims 1. Hydroelectric power plant with at least one water wheel (6) arranged transversely to the bed (2) of a brook or river, over which the water flows, characterized in that the water wheel (6) is arranged below a hold-up (3) and overflows with the falling water becomes. 2. Plant according to claim 1, characterized in that the roller-like water wheel (6) is constructed from individual wheels (6a) fastened on a shaft (7). 3. Installation according to claim 1 or 2, characterized in that the raid has a projection (3) partially over the water wheel (6) and a rear wall (4) set back relative to the same. 4. Installation according to one of claims 1-3, characterized in that under the water wheel (6) there is an inclined sole (5) from which water and bed load can flow freely. 5. Plant according to one of claims 1-4, characterized in that the water wheel (6) between blades (12) has closed cells. 6. Plant according to one of claims 1-4, characterized in that several water wheels (6) are arranged in cascade and coupled together with a driven unit, for example a generator (15). 7. Plant according to one of claims 1-6, characterized in that the waves (7) of the water wheels (6) in lateral bank structures (8, 9) and optionally also in between (11) are mounted. 8. Plant according to one of claims 1-7, characterized in that the stream or river bed (2) before the attack (3) is flat concrete or lined with steel. 5 10th 15 20th 25th 30th 35 40 45 50 55 60 65 3rd