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Method for Operating A Wind Turbine
| Content Provider | The Lens |
|---|---|
| Abstract | A method for operating a wind turbine comprising an aerodynamic rotor with an approximately horizontal axis of rotation, an electrical generator and operating devices is disclosed, wherein the wind turbine is intended for feeding electrical energy into an electrical supply grid, and is kept in a starting state for starting the generator while the wind turbine cannot be completely put into operation, in particular the generator cannot be started. |
| Related Links | https://www.lens.org/lens/patent/010-919-102-936-413/frontpage |
| Language | English |
| Publisher Date | 2019-11-26 |
| Access Restriction | Open |
| Content Type | Text |
| Resource Type | Patent |
| Jurisdiction | United States of America |
| Date Applied | 2016-02-23 |
| Agent | Seed Ip Law Group Llp |
| Applicant | Wobben Properties Gmbh |
| Application No. | 201615553883 |
| Claim | A method for operating a wind turbine comprising an aerodynamic rotor with an approximately horizontal axis of rotation, an electrical generator and power-consuming devices, the method comprising: configuring the wind turbine for feeding electrical energy into an electrical supply grid; and keeping the wind turbine in a starting state for starting the generator while the wind turbine cannot be put into operation, wherein keeping the wind turbine in the starting state includes aligning the wind turbine into the wind by: setting at least one of a tolerance angle to a first tolerance angle, and a waiting time to a first waiting time when the generator is in operation, and setting at least one of: the tolerance angle to a second tolerance angle, and the waiting time to a second waiting time when the generator is not in operation; and adjusting an azimuth angle of the wind turbine when an azimuth alignment at least one of: deviates from an optimum alignment into the wind by more than the tolerance angle, and deviates from the optimum alignment into the wind for longer than the waiting time. The method according to claim 1 , wherein the wind turbine cannot be put into operation when the wind turbine cannot be started because of at least one of: sufficient wind is not available; feeding into the electrical supply grid is not possible or permissible; and local regulations temporarily prohibit starting of the generator to avoid a disruptive shadow that is being cast or development of disruptive noise. The method according to claim 1 , wherein: keeping the wind turbine in the starting state for starting the generator comprises using energy from at least one energy storage. The method according to claim 1 , wherein keeping the wind turbine in the starting state includes: heating rotor blades of the aerodynamic rotor of the wind turbine to avoid a formation of ice or to thaw ice. The method according to claim 4 , wherein the tolerance angle and the waiting time depend on at least one of: whether the generator is in operation, and a wind speed. The method according to claim 1 , comprising: when there is no wind or when a measurement of wind direction is not available at the wind turbine, adjusting an azimuth position based on a wind direction measurement transmitted from a measuring mast or a weather station. The method according to claim 1 , comprising: starting a heating device of rotor blades when, based on a weather forecast, sufficient wind for operating the wind turbine, including the generator, is expected within a preparation time period, wherein the sufficient wind is strong and persistent enough that energy required for heating the rotor blades can be generated. The method according to claim 1 , comprising: operating a control system for at least one of preventing a formation of ice and removing ice that has formed when the generator is not being operated. The method according to claim 1 , comprising: calculating or predicting a starting time when the generator is expected to be started; bringing the wind turbine into the starting state for starting the generator a predetermined lead time before the starting time; and keeping the wind turbine ready in the starting state until the generator is started. A wind turbine configured to perform the method according to claim 1 . The wind turbine according to claim 10 , wherein at least one of the wind turbine or an electrical system network connected to the at least one of the wind turbine has at least one energy storage for storing energy and for delivering electrical energy, wherein the at least one energy storage is dimensioned such that it is able to store sufficient energy for heating rotor blades of the wind turbine. The wind turbine according to claim 11 , wherein the at least one energy storage is able to store enough energy to at least one of: allow rotor blades that are completely iced to be thawed, and allow the rotor blades to be heated with a maximum heating power for a predetermined heating time period. The wind turbine according to claim 12 , wherein the heating time period is at least one hour. The wind turbine according to claim 13 , wherein the heating time period is at least three hours. A wind farm comprising at least two wind turbines according to claim 10 . The wind farm according to claim 15 , comprising at least one energy storage dimensioned such that in the wind farm altogether sufficient energy for heating rotor blades of the wind turbines can be stored, wherein the sufficient energy allows the rotor blades of all the wind turbines of the wind farm that are completely iced to be thawed, allows the rotor blades of all the wind turbines of the wind farm to be heated with a maximum heating power for a predetermined time period that is at least one hour. The method according to claim 1 , wherein at least one of the tolerance angle and the waiting time are inversely proportional to the wind speed. The method according to claim 1 , further comprising: selecting at least one of a third tolerance angle and a third waiting time when the generator is not in operation when a wind direction measurement is obtained from a measuring mast or a weather station. |
| CPC Classification | WIND MOTORS Reduction Of Greenhouse Gas [Ghg] Emissions; Related To Energy Generation; Transmission Or Distribution INDEXING SCHEME RELATING TO WIND; SPRING; WEIGHT; INERTIA OR LIKE MOTORS; TO MACHINES OR ENGINES FOR LIQUIDS COVERED BY SUBCLASSES F03B; F03D AND F03G |
| Examiner | Viet P Nguyen |
| Extended Family | 087-111-300-355-136 176-674-495-458-180 010-919-102-936-413 134-921-347-886-492 189-335-587-233-179 037-582-022-380-477 028-599-658-804-348 042-456-157-536-161 027-532-691-059-80X 111-587-980-847-16X 163-264-560-369-931 181-197-398-139-542 023-919-108-949-305 156-159-913-104-667 077-895-558-090-425 091-673-695-079-146 152-254-315-913-19X |
| Patent ID | 10487801 |
| Inventor/Author | Beekmann Alfred Kruse Marcel |
| IPC | F03D7/02 F03D80/40 |
| Status | Active |
| Owner | Wobben Properties Gmbh |
| Simple Family | 087-111-300-355-136 176-674-495-458-180 010-919-102-936-413 134-921-347-886-492 189-335-587-233-179 037-582-022-380-477 028-599-658-804-348 042-456-157-536-161 027-532-691-059-80X 111-587-980-847-16X 163-264-560-369-931 181-197-398-139-542 023-919-108-949-305 156-159-913-104-667 077-895-558-090-425 091-673-695-079-146 152-254-315-913-19X |
| CPC (with Group) | F03D80/40 F03D7/026 F03D7/0284 Y02E10/72 Y02E70/30 F05B2240/221 |
| Issuing Authority | United States Patent and Trademark Office (USPTO) |
| Kind | Patent/New European patent specification (amended specification after opposition procedure) |
