DE102009039713A1 - Sea waves power plant comprises float, which is propelled by piston lever of large dimensioned single-piston-sea wave pump that pumps sea water into dam with high pressure through pipeline - Google Patents

Abstract

The sea waves power plant comprises a float, which is propelled by a piston lever of a large dimensioned single-piston-sea wave pump that pumps the sea water into a dam (18a) with high pressure through a pipeline (16). The elliptical shaped float is strengthened at the lower semi-ellipse, and is connected with a piston lever power transmission system.

Description

According to the current state of the art, ocean wave energy is predominantly obtained by buoy-like oscillating power plants. Such wave power plants use sea waves generated by sea waves in closed systems, which oscillate the air either by means of a float to move and thus drive a turbine with power generator, or by means of a float is an anchor with return spring and counterweight by magnetic field with coils back and forth moves and thus electricity is generated. Although such systems are small and easy to transport, they nevertheless prove to be of little advantage because relatively little energy can be expected (corresponding to 1 MW per system). Although a sea area the size of Spain could cover the entire world energy demand, according to the current state of the art this is so impossible in price comparison per KWh. Brandl wave generators or Brandl ocean wave force. [PDF] Microsoft Power Point's use of ocean wave power. In addition, such facilities read few ways to save energy for low-wave days, which is also disadvantageous.

The specified in the claim invention is based on the problem to win electric power in a large scale by means of ocean wave force to keep the footprint low, operate the system low maintenance, such as electric energy to win at any wave height and at low tide and high risk in a big way and wave energy for low-wave days to save.

The task of constantly recovering electric power by means of ocean wave force is to pump a large-sized sea-wave pump, which is driven by a float via a piston lever and a piston, whereby seawater in the reservoir is pumped through a high-pressure pipeline. At the full reservoir, the turbine systems are powered as in every classic hydroelectric power station.

In order to increase performance, it would make sense to set up a field of ten or more wave pumps at the same site, pumping seawater into a reservoir through a common pipeline. The pump assembly is equipped with a watertight housing for ebb and flow control. Pipe telescopic connection is watertightly connected to the pipeline, ensuring uninterrupted water flow through the pipeline to the reservoir, thus ensuring power generation.

The advantages achieved by the invention are that in such a system, free sea wave forces act on floats, so that the incoming bez. w. outgoing waves lift the float bez. w. lowering, with which the lift-down force is transmitted via the designated piston lever on piston of the sea-wave pump, whose task is to pump the free water through a pipeline to the reservoir. The wave raises the float when the wave has passed the float, the float lowers and the piston as well, whereby the water is squeezed out and the process repeats itself as often as swell is in motion. As a result, reservoir is constantly refilled by pipeline.

By means of a computer-hydraulically-controlled ebb and flood level control, the system is fully automatically adapted to the sea level, thus the system is protected from unwanted natural forces, which ensures smooth operation. The pump machinery is built hol and in the upper part of the plant, directly above the vents and the air-water separating blanket, watertight to prevent total flooding of the plant, so that no negative consequences for underwater weight of the plant arise. The pumping machine plant is in the lower part of the plant as well and is with Beflutung bez. w. Vents, with air vents and vents, such as air-to-water blankets, 1 , No. 7 . 8th and 12 ); Thus, an optimal underwater weight of the system is achieved and a precise-gentle lowering of the system allows what underwater mounting, flanging and screwing to main carrier significantly easier and significantly relieves hydraulic system. The pump machine assembly is anchored in the seabed anchored main carrier waterproof by means of a seal. The whole system is built of required salt water resistant material. The hydraulic low and low flood level control is installed in a waterproof housing at the bottom of the pump machine plant due to salt water and maintenance.

Main components of the Marine Wave Power Plant-β are: an elliptical-shaped float with reinforcement, ( 1 , No. 1 and 2 ); a ball and socket joint with tilt angle limiter, ( 1 , No. 3 ); a pump piston lever, ( 3 , No. 4. ); a pump machine construction, ( 1 , No. 5 ); a pump piston, ( 1 , No. 6 ); an air-water blanket, ( 1 , No. 7 ); Flooding and venting openings, ( 1 , No. 8th and 12 ); a set of free-hanging inlet and outlet water valves, 1 , No. 9 and 10 ); a telescope telescope connection, ( 1 , No. 11 ); a flange, ( 1 , No. 13 ); a main beam anchored in the seabed, 1 , No. 14 ); in a waterproof housing, computer-hydraulic-controlled low tide and high tide level control, ( 1 , No. 15 ); and a pipeline, ( 1 , No. 16 ).

Suitable locations for the construction of such a marine wave power plant could be systematically "sampled" with satellites in which regular waves are frequently observed. Then, in line with rocky shores, they can be mapped and geological tested to see if the desired regions are suitable for dam construction and marine wave power plant construction. Fjord sea coasts, bays and small steep river and creek estuaries are reservoir replenishment support sites for coastal dam construction, of course, with respect to environmentally friendly planning and shipping routes. Of course, even coastal regions are suitable for this purpose by a large-scale circular sea basin, built in shallow waters or on the shore. ( 2 ) Dimensioning of the plant is variable depending on the location and swell, whereby the output can be upwards of 30 MW per installation depending on the location and size of the ocean wave power plant. With such a system, wave energy, every wave-rich, geological-solid location, every swell and weather, will be used to safely generate large-scale electric power.

Advantages are clear: inexpensive, clean and very abundant wave energy, which can be won in all oceans on a large scale by such marine wave power plants.

In addition, coastal reservoir fed with seawater, has an advantage over the river reservoir, because sea water, especially after bad weather (downpours or rapid snowmelt) no soil with it carries in reservoir, as a result it does not need to be often cleaned like river bottom.

Such marine wave power plants could be connected to conventional power grids, or directly to use hydrogen and oxygen production on a large scale, which means a low-cost gasoline and aircraft industry. w. Kerosene, environmentally friendly on hydrogen operation remodeling allows.

EXAMPLES

The embodiments of the invention are illustrated in drawings and will be described in more detail below.

It shows:

1 : Ocean Wave Power Plant β, (during low tide and water discharge imaging)

2 : Sea basin

3 : Coastal reservoir

LIST OF REFERENCE NUMBERS

1

swimmer

2

swimmers gain

3

Ball lever joint with inclination angle limiter

4

Pump piston lever

5

Pumping machine building

6

pump pistons

7

Air-water separating ceiling

8th

Vent openings

9

Water inlet valve

10

water outlet

11

Tube telescopic connection piece

12

Flooding openings

13

flanging

14

Main beam (±? Main beam height is location and sea depth dependent)

15

Hydraulic ebb and flow leveling

16

pipeline

17

Pipeline turbine system

18

Sea Basin Reservoir

18a

coast reservoir

19

Water overflow pipe

20

Sea reservoirs

20a

Küstentaudamm

21

Jam Beck turbine system

21a

Coast dam turbine system

α

sea

β

Seabed

a & b

Wasseransaug-Outlet

λ

vaulted ceiling

¤

Ship & Aviation Warning Flash Light

Claims (2)

Marine Wave Power Plant-β is equipped with a float that uses a piston lever to propel a large-scale, one-shaft marine-wave pump that pumps seawater through a pipeline into a high-pressure reservoir. Elliptical-shaped float according to patent claim 1, is reinforced at lower half ellipse and is equipped with a tilt angle limited ball joint, which is connected to piston lever power transmission system.

Images