DE202006001113U1 - Water power plant on weir to create electricity has a water wheel on water, with electronically controlled hydraulic system - Google Patents

Abstract

The water power plant has a water wheel (1) on the water to create electricity. There may be several water wheels alongside each other or one behind the other. The water wheel may be fitted with an electronically controlled hydraulic system (4). The plant may be positioned on a weir. The blade ends of the water wheel may be rounded.

Description

With the installation of water wheels along the weirs, whose mode of operation is on the water surface can be electrical Electricity, in big Scope are generated.

The Electricity generation is not compatible with conventional power generation Weir, comparable. The weirs are in the cities, sometimes several times.

generation of electricity, which in the production of no smoke and exhaust the air gives off. Nor does the generation of electricity by water involve any Dangers, such as in the production of nuclear energy and its subsequent Garbage disposal.

Also nature is not corrupted, as in wind turbines.

The hydroelectric power plant should be equipped with electronically controlled hydraulics, so that the wheel always has the right position and "floats" even on flooding on the water 2 and thus can generate electricity.

The Water wheel should be provided with a cover with insulation layer be., Which prevents the icing of the wheel, in heavy frost.

The water wheel can, through the movable suspension 2 In winter, approaching ice floes easily overcome. The parts 1 - 4 must be made in a stable construction.

The Blade ends of the wheel should have a curve, so that fish On contact of the wheel can not be injured and so the bike safely Can happen.

Also, the water wheel must have an adjustable stop, which prevents the wheel at low water level, can go too far down. Minimum distance to the weir 6 cm. The hydropower plant is on a concrete structure 5 , assembled.

The lower part of the concrete structure 5 must be narrower in the entire width about 20 cm, so that the upper wheel in the up and down movement, on the hydraulics and the suspension, the lower wheel can pass.

For the generation of electricity, there is a generator in the interior of the wheel. 3 , 10 The interior of the wheel has a diameter of about 1.0 Mt. Total diameter of the water wheel about 1.8 Mt.

1 Cross section of a hydropower plant with a normal water level of approx. 0.25 Mt.

2 Cross-section of a hydroelectric power plant at a water level of 4.0 mt.

3 Cross section of a waterwheel 1 .

• 1. Das Wasserrad 1 kann variabel groß gestaltet werden, was einen maximale Kraftentwicklung bei der Erzeugung von Strom, in großem Umfang zuläßt. Das besichtigte Wehr 7 in Weißenfels, Markwerbenerstraße, hat eine geschätzte Länge von ca. 80,0 Mt. Es können, bei einer angenommenen Wasserradlänge von 2,5 Mt. und bei einem 1,5 Mt. langen Zwischenraum von Rad zu Rad, 20 Wasserräder längs des Wehres installiert werden. Wasserräder können aber auch hintereinander installiert werden. An dem o. g. Wehr können 2 Reihen angebracht werden. Zusammen ergibt das eine Gesamtzahl von 40 Steck. Wasserräder. Sie stellen zusammengenommen eine gewaltige Kraft dar.
• 2. Wenn eine, wie hier dargestellte Wasserkraftanlage erst einmal installiert ist, braucht sie nur wenig Wartung.
• 3. weil eine solche Anlage, außer Wasser, keine anderen Rohstoffe benötigt, wäre bei Anwendung des Wasserrades der wirtschaftliche Nutzen enorm.
• 4. Auf Grund der erschöpflichen Energieträger Kohle und Gas, bietet sich die Energiegewinnung durch das schnelle und kraftvoll fließende Wasser am Wehr, geradezu an.

The particular advantages of generating electricity with this waterwheel are:

• 1. The waterwheel 1 can be made variable in size, which allows maximum power generation in the generation of electricity on a large scale. The visited weir 7 in Weissenfels, Markwerbenerstraße, has an estimated length of about 80.0 Mt. It can, with an assumed Wasserradlänge of 2.5 Mt. and a 1.5 m. interval between wheel to wheel, 20 water wheels along the weir be installed. Water wheels can also be installed one behind the other. At the above weir 2 rows can be attached. Together this gives a total of 40 plug. Waterwheels. Together they represent a tremendous power.
• 2. Once a hydroelectric power plant has been installed, it needs little maintenance.
• 3. Because such a plant, except water, does not require any other raw materials, the economic benefits would be enormous when using the waterwheel.
• 4. Due to the exhaustible energy sources coal and gas, the energy production through the fast and powerfully flowing water at the weir, offers upright.

In the figures is the waterwheel 1 , the suspension 2 , the bracket for the suspension 3 , Hydraulics 4 , Concrete construction 5 , Weir 6 , Water 7 , Water level height 8th , Heel in concrete construction 9 , Interior of the waterwheel 10 represented.

Claims (5)

Hydropower plant, for the production of electric energy, at the weir characterized in that the water wheel ( 1 ), to generate electricity, is located on the water. Hydroelectric power plant, according to claim 1, characterized in that several water wheels can be installed side by side and also possibly in succession. ( 1 u. 2 ) Hydroelectric power plant according to claim 1, characterized in that the water wheel ( 1 ) with an electronically controlled hydraulic ( 4 ) is equipped. Hydroelectric power plant, characterized according to claim 1, characterized that one new generation of electricity, carried out at the weir. Hydroelectric power plant, according to claim 1, characterized in that the blade ends of the water wheel ( 1 ) are rounded. ( 3 , 10 )