DE19805667A1 - Plant for wind energy power system with secure supply - Google Patents

Abstract

The wind power plant has a vertical axis wind power installation (1) generating a current, and several horizontal axis wind power installations (2-6) generating current in conjunction with the vertical axis one. Current from the power installations is transformed in a transformer stage (7) in the upper region of the vertical axis wind power installation. The vertical axis wind power installations provide a carrier support construction erected at a spacing of 250m in one direction, e.g. north-south, and in another direction, e.g. west-east. The current is passed on to the next needed transformer device up to the consumer in one or more vertical axis wind power installations to the side of above-water conductors in the offshore region or above-ground conductors in the land region, held on cantilever beams (8).

Description

The registration concerns a system for a supplier secure wind power grid system in which a vertical axis wind put together into one unit power plant and several horizontal axis wind Power plants in a row arrangement for the generation of electrical current, for transforming electrical Electricity and for the secure supply of electrical current via power plants up to which the Ver consumers who help shape security be used.

Characteristic is the wind power grid system, where the in series along (north-south) and across (West-East) in approx. 250 m distance arranged and interconnected individual systems in particular Any size self-sufficient in the offshore sector Include power generation area and electricity in unbe limited quantity and arbitrarily high with over Feed water pipes into overland pipes.

It cannot be ruled out that according to the previous i state of the art individual components of this Wind power grid system to be regarded as known are.

So z. B. from DE 26 20 862 C2 a wind power plant in Tower construction known in which when using Senk right rotors and wind wings the individual construction cuts rotatable around the stationary tower frame are arranged. In this regard, it should be noted that the  Subject of application with a tower diameter of approx. 30 m of an outside perpendicularly stati and particularly resilient supporting structure tion is required so that this citation for the desired wind power grid system contains no noteworthy information.

In DE G 93 16 862 U1 are on a common tapered section support element in the height profile of one or more rotatable Panels for photovoltaic conversion from Son nominal energy housed in electrical energy as well as from O.K. turbine driven electric generator in front is seen. It should be noted that the An notification object with a tower diameter of approx. 30 m of a vertically static outside as well as particularly resilient tower construction may and also this citation for the desired wind power grid system contains no noteworthy information.

In US 4 134 707 one is on four corner supports dramatically running external construction recognizable, in which there is an oversize on an inner axis nale upper wind vane is attached and this in axis concentric wind-absorbing or wind-resistant serrated panels are assigned. To this construction is made up of four side hawser held in the vertical. It should also be noted here that the registration object with a circular diameter of approx. 30 in a vertically static outside as well as particularly resilient tower construction may, these requirements from the document  are not removable and regarding the con did not use any wind power grid system Notes are recognizable.

Connection cables, rope are also known Railway cabins and rotating cogwheels for Slewing ring guide.

There is no provision in any of the references safe wind power grid system.

Based on this state of the art, the Subject to be solved in the application Land area and especially in the offshore area every single system to a high-performance system expand with your own transformer and with by lining up the systems at approx. 250 m Distance both in one direction (e.g. north-south) as well as in another direction (e.g. west-east) one statically connected in any size and wind energy developed within traffic Manufacture power system in cooperation with security of supply for today's power plants guarantee and influence the power consumers options regarding their electricity consumption costs to develop.

This task is done with the combination of the individual Features of claim 1 solved.

The advantages achieved with the invention exist especially in that this wind energy stream network system both in land and offshore is very versatile. Doing so in the land area viewed globally and export-oriented weak or  hardly populated wind-intensive areas preferred, so as not to deal with the well-known disadvantages such as noise pollution, lighting effects, landscaping impairment and proximity to settlements become.

Another advantage is offered in the offshore area, where high wind intensity and horizontal axes prevail in a planned installation field in the Baltic Sea and in particular in the North Sea approx. 15 km west of the island of Sylt with a water depth of 11 m-21 m -Wind turbines analogous to proven values on the Schleswig-Holstein west coast, a result of approx. 1000 Kwh / year per square meter of rotor circle area. This includes an estimated 0.8 MW of power potential for the vertical axis wind turbine ( 1 ), 1.5 MW each for the three upper horizontal axis wind turbines ( 2-4 ), for the two lateral horizontal axis wind turbines ( 5 + 6 ) 0.6 MW each and thus a total of 6.5 MW.

This gives the particular advantage that in An consider the less and less and therefore always increasingly expensive fossil fuels such as coal Oil-gas here because of the infinite wind energy Series production is always inexpensive The alternative presented is offered Today 's power plants as producers and users of Hydrogen can be included and consumers through deliberate action those to be paid by them Can affect electricity costs. From the crowd would approx. 20,000 plants with 6.5 MW each at one Performance potential of approx. 130,000 MW in one area area of 3 × 400 = approx. 1 200 sq km with 16 plants each  qkm the current nationwide needs together men work with today's in the security of supply integrated power plants.

The subject of the patent is based on the Drawings explained:

Show it:

Fig. 1:
A cut on a scale of approx. 1: 1,000 with the vertical axis wind turbine ( 1 ) provided as a supporting structure, the upper horizontal axis wind turbine ( 2 ), the horizontal axis wind turbines ( 3 + 4 ) provided at the same elevation with a low lattice tower, the lower ones circulation-controlled horizontal-axis wind turbines ( 5 + 6 ), the existing transformer station ( 7 ) in the immediate vicinity of the line, the cantilever beams ( 8 ) of the generally north-south direction overwater and overland lines ( 9 ), which always with fixed wind pressure-controlled connecting cables ( 10 ) for the simultaneous reception of the cable car cabins ( 11 ) with the entry height of the floor of the traffic floor ( 12 ) including the centrally available circular circuit device ( 13 ), the two pieces provided for each system opposite each other Elevators ( 14 ), the supply and disposal ship ( 15 ) with a heavy-duty crane ( 16 ), the upper rotating platform ( 17 ) for the H horizontal-axis wind turbines 2-4 including electromotive slewing ring guide ( 18 ), the electromotive slewing ring guide ( 19 ) for horizontal-axis wind turbines 5 + 6 and the associated supporting structures ( 20 ).

Fig. 2:
A page cut on a scale of approx. 1: 1,000 with the vertical axis wind turbine ( 1 ) provided as a supporting structure, the upper horizontal axis wind turbine ( 2 ) including stabilizing strut, the horizontal axis wind turbines ( 3 + 4 ) provided at the same elevation with a low lattice tower, the lower ones circulation-controlled horizontal-axis wind turbines (5 + 6), the transformer level ( 7 ) in the immediate vicinity of the line, the overwater line ( 9 ), the wind pressure-controlled connecting cables ( 10 ), which are always fixed in the middle, for the simultaneous reception of the cable car cabins ( 11 ) with floor entry height the traffic floor ( 12 ) including the centrally available annular circular device ( 13 ), the upper rotating platform ( 17 ) for the Horizontalach sen wind turbines 2-4 including electro motor slewing ring guide ( 18 ), the electromotive slewing ring guide ( 19 ) for the Horizontalach sen wind turbines 5 + 6 as well as here appropriate supporting structure ( 20 ).

Fig. 3:
A plan view of the plant on a scale of approx. 1: 1,000 with the vertical axis wind turbine ( 1 ) provided as a supporting structure, the upper off-center horizontal axis wind turbine ( 2 ), the counterbalanced horizontal axis wind turbines ( 3 + 4 ) with a low lattice tower the lower, rotation-controlled horizontal-axis wind turbines ( 5 + 6 ), the cantilever beams ( 8 ) of the over-water or overland lines ( 9 ), which generally run in a north-south direction, the wind pressure-controlled connecting cables ( 10 ), which are always fixed in the middle, for simultaneous recording the cable car cabins ( 11 ), the two pieces opposite lifts ( 14 ) provided for each system, the upper rotating platform ( 17 ) for the horizontal-axis wind turbines 2-4 including electromotive slewing ring guide ( 18 ) and the horizontal-axis wind turbines 5 + 6 associated supporting structures ( 20 ).

Fig. 4:
A plan view of the installation area on a scale of 1: 375,000 with the 20 km × 20 km = 400 sq km large installation fields ( 21-23 ), indicated in the north-south direction and in the south-north direction the supply field supply lines ( 24 ) and the higher-tensioned installation field main lines ( 25 ) indicated in the west-east direction towards the mainland mainland lines.

Reference list

1

Vertical axis wind turbine

2nd

Horizontal axis wind turbine

3-4

Horizontal axis wind turbines

5-6

Horizontal axis wind turbines

7

Substation floor

8th

Cantilever

9

Over water pipes overland pipes

10th

Connecting cables

11

Cable car cabins

12th

Traffic floor

13

Circular device

14

Lifts

15

Supply and disposal ship

16

Heavy duty crane

17th

Upper rotating platform

18th

Electromotive slewing ring guide - top -

19th

Electromotive slewing ring guide - below -

20th

Supporting structure

21-23

Installation fields

24th

Installation field supply lines

25th

Installation main lines

Claims (1)

1. Installation for a secure wind energy-electricity network system, characterized in that

• a) a vertical-axis wind turbine ( 1 ) generates electricity.
• b) generate several horizontal-axis wind turbines ( 2-6 ) in connection with the vertical-axis wind power plant.
• c) in a substation level ( 7 ) in the upper region of the vertical-axis wind turbine ( 1 ) according to a + b, the electricity generated for the forwarding is transformed as required.
• d) in one or more of the vertical axes - wind turbines ( 1 ) laterally on cantilevers ( 8 ) held overwater pipes ( 9 ) in the offshore area or overland pipes ( 9 ) in the land area the current is forwarded to the next required transformer device to the consumer.
• e) the vertical axis wind turbines ( 1 ) serving as a supporting structure at a distance of approx. 250 m in one direction (e.g. north-south) and at a distance of approx. 250 m in a different direction (e.g. west-east).
• f) the more or less large number of vertical axis wind turbines ( 1 ) result in a compact and in size adaptable to any need wind power network system.
• g) the stability of the vertical-axis wind turbines ( 1 ) to one another is ensured in both directions by centrally arranged, for safety reasons, double-designed motor winch-based and computer-controlled the required tensile stress from exposed connecting cables ( 10 ).
• h) the connecting cables ( 10 ) also serve as cable cars, on which cable car cabins ( 11 ) in each direction for personnel and small material transport on arrival and departure at the level of the traffic floor ( 12 ) including local circular device ( 13 ) and including existing lifts ( 14 ).
• i) in the offshore area, a supply and disposal ship ( 15 ) with a heavy-duty crane ( 16 ) attached ensures the heavy-duty transport including assembly as well as other supply and removal.
• k) the generated electrical power is directed to today's power plants, where hydrogen is stored in excess wind energy by means of electrolysis and in the event of a lack of wind using hydrogen engines, the existing generators ensure security of supply to the consumer.
• l) Newly constructed electricity meters are installed in the area of the pantographs, which signal hertz- or frequency-controlled every 4 hours by means of luminous digits if the wind energy surplus is low and the wind energy deficit signals a higher electricity price, meaning that the consumer sensibly Can affect the amount of electricity costs and the electricity meter automatically releases the monthly bill for transfer to the energy supply company when the 4 hour cycles are calculated at the end of the month.