DE102014003071A1 - Energy storage system in the wind boiler - Google Patents

Abstract

The finding that the market demands energy and storage together led to the patent application. The size of the tower diameter ensures the stability, which allows a performance of the wing wind turbine. The tower is the biggest cost factor and reduces costs with size (diameter 5 m = 0.82 m2 to 1 m3 storage volume and 30 m diameter = 0.15 m2 to 1 m3 storage volume). In the patent application Az. 102014003071.7 wind farms are provided for storage, which makes the wing wind turbine by the size of the storage and energy performance superfluous.

Description

The invention relates to: energy storage in Windkessle, with liquid and gas as a working medium from the prior art, storage systems for electrical energy from modular system (battery modules) are known, the temporal charging of the batteries and the storage capacity for "gaps" close as a drive system thought is. Also, storage systems are known which pump liquid into a reservoir and, if necessary, supply the liquid back to the turbine.

These systems have a low efficiency and are tied to location and not suitable to absorb the energy peak load.

The power generation of renewable energy, jeopardize the grid stability and generate grid fluctuation requiring an expensive grid expansion.

The Windkessel storage facility allows energy storage to be quickly and extensively managed as needed against the grid.

It is up to the designer to determine the basic quantities to what extent the energy is to be stored.

I deliberately in foil 1 by numbers The sizes of storage made clear.

The energy storage system works as follows:
The air chamber is made of prefabricated steel plates (according to the modular system) welded together on site, whereby the wall thicknesses are dependent on operating pressure. The air chamber is felt with a gas pressure of 6 at.

Through the patented chamber-cylinder construction 3 , Will the fluid through the high pressure pumps Out of the pelvis 5 , Pumped into the air chamber with increasing pressure.

The chamber cylinders are switched between to accelerate the storage process (40,178,578, KW Within 10.6 h, without 3. The memory process lasts 58.5 days.

The liquid in the air chamber compresses the gas and determines the operating pressure of the system. The gas form is unique at the beginning and always works in the workflow.

The stored energy in the air chamber is provided by the patented piston turbine 4 , Powered by the mains.

The piston turbine has an efficiency 1 - Friction and Increases the performance of the plant.

Since a wind farm has a number of "towers" and are used simultaneously in the network, the retrofitting of the wind turbines is provided during operation.

For information: I use the old units kg / m sec. And in the pressure of the technical unit at.

LIST OF REFERENCE NUMBERS

1

Air collectors

2

Medium-liquid

3

EP 1933006 A1 Chamber cylinder

4

EP 12007075 Kolbentubine

5

Pressure-free boiler (liquid)

6

Wind turbine

7

Retrofitting of the wind turbine

1

Air collectors

8th

Wing force device

9

Wing hinged

10

Steel rings T-shape

11

Ball rolling stock

12

Wind direction sign Guidance controllable

13

Sprocket drive

14

generator

15

gear shaft

16

reinforcing pipes

17

Hochdruckpompanlage

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 1933006 A1 [0014]
• EP 12007075 [0014]

Claims (4)

Windkessel from prefabricated steel plates on site welded together for high-pressure storage in which the working fluid and gas simultaneously perform work. Windkessel characterized in that a one-off pressure of 6 to 20 bar compressed by the injected liquid, causing the required working pressure. The coordination of the stored energy of the wind turbines to the benefit that the upper third of the wind boilers comes with quick and inexpensive marketing to application. The retrofitting of the "towers" of the current WT thereby characterized as in the point. 1 to 3. The existing construction with the Windkessel by struts and gussets in the composite are welded so that they form a kind of "carrier" and are therefore suitable for very high pressures in the air chamber.

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