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Results 1-10 of 66,757 for Criteria: Office(s):all Language:EN Stemming: true maximize
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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. 09347435 System and method for identifying the likelihood of a tower strike where a rotor blade strikes the tower of a wind turbineUS24.05.2016
F03D 11/00
13882733Ib Svend OlesenIb Svend Olesen

A system for identifying the likelihood of a wind turbine rotor blade striking a wind turbine tower comprises a device for sensing bending of a wind turbine rotor blade and a device for sensing bending of a wind turbine tower. In a preferred embodiment Long Period Grating (LPG) sensors are used to measure bending of the tower. Preferably a plurality of LPG sensors is provided along the length of the blade. In one embodiment at least one of the LPG sensors comprises two sensing elements arranged to sense in perpendicular directions. In another embodiment a plurality of LPG sensors are provided each on different sides of the wind turbine tower. A processor uses the sensed blade and tower bending to determine whether the distance between the blade and the tower will be below a predetermined minimum value. If the distance is determined to be below the predetermined minimum value a controller may be used to adjust a wind turbine variable to reduce loading on the blade and thereby reduce the likelihood of a tower strike.


2. 09347689 Apparatus and method for renewable energy systemUS24.05.2016
H02J 1/00
13735674Georgy MamdouhGeorgy Mamdouh

A renewable energy system comprising a solar panel that is adapted to be mounted on a structure and convert solar energy into electrical energy, a windmill that is adapted to be mounted on the structure and convert wind energy into electrical energy, and a means for shutting down the renewable energy system that is adapted to automatically shut down the system in the event of an emergency. A method for a renewable energy system comprising providing a renewable energy system and converting renewable energy into electrical energy.


3. 20160138426 SYSTEM FOR PACKAGING ELECTRONIC COMPONENTS IN A ROTATABLE SHAFTUS19.05.2016
F01D 25/28
14541196General Electric CompanyDonald W. Shaw

A system for packaging electronic components in a rotatable shaft includes an annular carrier shaft having a first end that is axially spaced from a second end and an inner surface that is radially spaced from an outer surface, and a plurality of transmitter assemblies annularly arranged within the carrier shaft. Each transmitter assembly includes a transmitter housing radially supported within the carrier shaft via a pair of circumferentially spaced rail members. Each transmitter assembly comprises a daughter board that extends laterally and longitudinally across a bottom portion of the transmitter housing and at least one electronic component electrically coupled to the daughter board. The electronic component extends substantially perpendicular to the daughter board within the transmitter housing.


4. 20160138561 METHOD FOR MOUNTING A WIND TURBINE ROTOR BLADE, AND WIND TURBINE ROTOR BLADEUS19.05.2016
F03D 1/00
14900020WOBBEN PROPERTIES GMBHAlexander HOFFMANN

A method for mounting a wind turbine rotor blade which has at least one release unit is provided. A hoisting rope is fastened on or in the rotor blade. First ends of at least one auxiliary rope are fastened on or in the release unit in the rotor blade. The rotor blade is lifted up by means of the hoisting rope. The rotor blade is mounted on a rotor of the wind turbine. The release unit is activated so that the first ends of the auxiliary ropes are released. The auxiliary ropes can be removed.


5. 20160138562 ASSEMBLY WITH HANDLING UNIT FOR MOVING A WIND TURBINE COMPONENT, SUCH AS A WIND TURBINE HUB, FROM A TRANSPORTATION POSITION TO A WIND TURBINE ASSEMBLY POSITION IN OR ON THE NACELLE, THE MAIN SHAFT OR THE HUBUS19.05.2016
F03D 1/00
15007680Vestas Wind Systems A/SGunnar Kamp Storgaard Pedersen

The invention relates to a method for moving a wind turbine component, such as a wind turbine hub, from a transportation position to a wind turbine assembly position. The method comprises the steps of: attaching a handling unit to a structural part of the wind turbine component, operatively connecting the handling unit to a wire of a crane system, lifting the wind turbine component with the crane system to an assembly position of the wind turbine, the handling unit and the wind turbine component being suspended from a wire of the crane system, and rotating the wind turbine component with the handling unit during the lifting of the wind turbine component in order to orientate the wind turbine component for assembly. The invention also relates to a handling unit and a wind turbine hub and use hereof.


6. 20160138563 ROTOR BLADE OF A WIND TURBINE AND WIND TURBINEUS19.05.2016
F03D 1/06
14897611WOBBEN PROPERTIES GMBHAndree ALTMIKUS

A rotor blade of an aerodynamic rotor of a wind turbine, comprising: at least a first and a second wing fence, with the first wing fence being arranged at the rotor blade in radial direction, in relation to an axis of rotation of the rotor, in a range between 25% and 40%, and the second wing fence being arranged at the rotor blade in radial direction, in relation to an axis of rotation of the rotor, in a range between 45% and 60%.


7. 20160138564 A FLUID DRIVEN PRIME MOVER SYSTEMUS19.05.2016
F03D 3/04
14900438Das Ajee KAMATHDas Ajee KAMATH

A fluid driven prime mover system (20) comprising, a pressure element (30) that combines a first suction element (40) which includes a convergent divergent nozzle system with a convergent divergent nozzle (42), that creates a lower pressure zone (44) which is communicated to a first desired point, with a first head element that includes at least a diffuser nozzle system (32) which converts fluid flow energy into a high pressure head such that said high pressure head is directed towards a second desired point. A first channel element (50) communicates the first desired point to an outlet (62) of a positive displacement fluid motor (60) and a second channel element (52) directs the second desired point to an inlet (64) of the positive displacement fluid motor (60) such that said positive displacement fluid motor (60) is motored by a fluid flow throughput caused by a pressure differential at said inlet (64) and said outlet (62) that results in the positive displacement fluid motor (60) working as a drive unit with power or torque take off.


8. 20160138565 WIND TURBINE FOR ELECTRIC VEHICLEUS19.05.2016
F03D 3/06
14898756Gevorg Serezaevih NoroianGevorg Serezaevih Noroian

The invention relates to mechanical engineering and can be applied to the modernization of electric vehicles in order to conserve energy while in motion. An electric vehicle wind generator, containing a cylindrical chamber having wind wheels positioned therein. A shaft can be installed vertically, horizontally, or at any angle. The shaft is provided with a disk and the disk is provided with blades; the blades consist of a support beam, which is affixed to the disk, and of wings which are installed onto the beam with the help of arcs; a plurality of arcs is installed on each blade in accordance with the width and length of the blade; the arcs on the support beam can rotate, changing the angle of the wings relative to a base; the arcs are affixed by means of clamping bolts, the height of the arcs depends on the size of the turbine, and the arcs are installed beginning from the end of the blade; the base of the turbine is the component on which the turbine is installed. A small space, an air fairing, exists between the turbine and the base. The wider the blades, the larger the fairing distances between them, wherein without the fairing, an air lock is created, decreasing the efficiency of the turbine. The invention provides for an increase in the operating area of the turbine, and also for the possibility of installing the turbine on any components and assemblies.


9. 20160138566 SYSTEM AND PROCESS FOR STARTING THE FLIGHT OF POWER WING AIRFOILS, IN PARTICULAR FOR WIND GENERATORUS19.05.2016
F03D 7/06
14897586KITE GEN RESEARCH S.R.L.Massimo IPPOLITO

A system is described, for starting the flight of power wing airfoils, in particular for a wind generator, comprising at least one wing profile, operatively connected through control tie-rods, to winches or other control mechanisms of a flight of such wing profile, and at least one autonomous transporting flying vector adapted to be connected through disengageable connecting means to at least one wing profile and to transport in flight such wing profile. A process is further described, for starting the flight of such power wing airfoils through such system.


10. 20160138567 2-D FAIRING FOR A WIND TURBINE TOWERUS19.05.2016
F03D 9/00
14898085UNIVERSITY OF VIRGINIA PATENT FOUNDATIONEric Loth

A wind turbine for generating electricity having a turbine assembly mounted on an inner support positioned within an aerodynamic fairing. The turbine assembly has an electrical generator positioned on the inner support and having a rotor shaft rotatable by a rotor blade. The aerodynamic fairing reduces the drag and wake created by the inner support.



Results 1-10 of 66,757 for Criteria: Office(s):all Language:EN Stemming: true
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