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Results 1-10 of 41,679 for Criteria: Office(s):all Language:EN Stemming: true maximize
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NoCtrTitlePubDateInt.ClassAppl.NoApplicantInventor
1. WOWO/2014/114966 - SHELTER FOR CULTURES IN ROWS WITH SOLAR AND WIND GENERATORS31.07.2014
A01G 13/02
PCT/IB2013/000087GURIOLI, AnastasioGURIOLI, Angelica
The photovoltaic-wind shelter for the agriculture comprises supports (22) for photovoltaic panels and it is supported by poles for rows (20) with wires (21) for the support of branches of fruit trees and vines. Said shelter consists of a silicon photovoltaic panel (1) with wavy surface (2) closed upper by a protection glass (3), resisting to the hail, and laterally from a containment body (4) with joint (5) between the various panel containment bodies. It further provides a second silicon panel (8) with inside space (9) such to permit the housing of wind turbines (10), connected with a generator (12) for the production of electric energy.

2. WOWO/2014/114295 - CONTROL OF WIND TURBINES31.07.2014
F03D 7/04
PCT/DK2013/050022VESTAS WIND SYSTEMS A/SCAPONETTI, Fabio
A method of controlling a wind turbine is described. The method involves forecasting the temperature evolution of a component of the wind turbine based upon the current operating parameters of the wind turbine and upon a required power output; predicting from the temperature forecast a future alarm event caused by the temperature of the component exceeding a first threshold level or falling below a second threshold level; and adjusting the operating parameters of the wind turbine to control the temperature evolution of the component thereby to avoid or delay the predicted alarm event.

3. WOWO/2014/113888 - MULTIPLE AIRFOIL WIND TURBINE BLADE ASSEMBLY31.07.2014
F03D 1/06
PCT/CA2014/050046DISTRIBUTED THERMAL SYSTEMS LTD.HARRISON, Howard
A wind turbine blade assembly for a wind turbine having a root portion proximal to a hub of said wind turbine and a tip portion distal to said hub, comprising a primary airfoil having a primary leading edge and a secondary airfoil having a secondary leading edge wherein there is an aerodynamic gap between said primary airfoil and said secondary airfoil, with said primary airfoil configured to be located upwind of said secondary airfoil when assembled on the wind turbine.

4. WOWO/2014/114445 - METHOD FOR ADJUSTING THE AZIMUTH OF A WIND ENERGY PLANT, AZIMUTH ADJUSTMENT SYSTEM AND WIND ENERGY PLANT31.07.2014
F03D 7/02
PCT/EP2014/000150SENVION SEHANSEN, Marco
The invention relates to a method for adjusting the azimuth of a wind energy plant, wherein during an azimuthal rotation of a nacelle (1) comprising a rotor (2, 3, 4) on a tower (15) of the wind energy plant, at least one azimuth braking device (13) is acted upon with a constant residual pressure for generating a constant residual holding moment. The invention further relates to an azimuth adjustment system of a wind energy plant, and to a wind energy plant. In the method according to the invention, the constant residual pressure and/or the constant residual holding moment is adjusted prior to the start of the azimuthal rotation subject to at least one wind speed parameter (33), and the residual pressure and/or the residual holding moment is not changed during the azimuthal rotation, in particular during the time of current feed to the azimuth drive motors.

5. WOWO/2014/116185 - OFFSHORE FACILITY31.07.2014
B63B 35/44
PCT/SG2014/000032TMT PTE. LTD.SU, Hsin Chi
An offshore facility (100) comprising a floating platform (102); a metal processing apparatus ( 104) disposed on the floating platform; and a power management module (106) adapted to manage and provide a stable power supply to the metal processing apparatus. The offshore facility (100) may also include a power generation system, comprising a plurality of wind turbines (304) and/or a gas turbine (710), for supplying the metal processing apparatus which optionally includes a furnace (108). The offshore facility (100) may further include an LNG regasification facility and a mooring system (306) configured to supply gas or electrical power from the floating platform to another location.

6. WOWO/2014/114296 - WIRELESS IDENTIFICATION OF A WIND TURBINE31.07.2014
F03D 11/00
PCT/DK2014/000003KK-ELECTRONIC A/SNIELSEN, Rasmus
A system for connecting a handheld device to a predetermined member of a data communication network of a wind turbine, the system comprising a passive identification tag, comprising information for identifying said predetermined member of said data communication network and a handheld device comprising a data processor and an identification tag scanner, wherein said handheld device is configured for scanning said identification tag by means of said identification tag scanner to retrieve said information from said identification tag, and wherein said handheld device is further configured to process said information by means of said data processor, and wherein the result of said data processing is information enabling said handheld device to identify and directly access said predetermined member of said data communication network.

7. WOWO/2014/113885 - WIND TURBINE SYSTEM31.07.2014
H02K 1/06
PCT/CA2014/000081EQUIPEMENTS WIND MILL INC.KISOVEC, Jean-Francis
A wind turbine system comprises a current generator having a planar base member, a connection member secured at a geometrical center of the base member and configured to rotate about an axis transverse to a plane of the support member upon exertion of wind pressure on the wind turbine, a rotor assembly secured to the connection member for rotation about the axis, the rotor assembly spaced from the base member and comprising planar rotor members spaced from and parallel to one another; and a planar stator assembly secured to the base member and centered in a spacing between the rotor members, the stator assembly configured to generate a current upon rotation of the rotor assembly relative thereto. A control system supplies power from the generator to an electrical grid. A control system adjusts an angular position of the turbine blades. A wind sensor measures a differential wind pressure.

8. WOWO/2014/114648 - METHODS AND ARRANGEMENTS FOR CONTROLLING POWER GENERATORS31.07.2014
F03D 9/00
PCT/EP2014/051151ALSTOM RENOVABLES ESPAÑA, S.L.PINEDA AMO, Isaac
Methods and arrangements for controlling the reactive power of a power generator from an initial reactive power state to a desired reactive power state are disclosed. The power generator belongs to a power farm coupled to an electrical grid. During a transition state, changes in voltage and reactive power demand are detected and control of reactive power is passed from the power farm to the power generator controller, then to a transition controller and finally back to the power farm. The power generator may be a wind turbine and the power farm a wind farm.

9. WOWO/2014/114474 - METHOD FOR MEASURING A ROTOR BLADE ANGLE31.07.2014
F03D 7/02
PCT/EP2014/050058WOBBEN PROPERTIES GMBHSTOLTENJOHANNES, Jürgen
The invention relates to a method for detecting a blade angle (2) of a rotor blade (16) of a rotor (10) of a wind turbine (1), involving the steps: arranging and aligning a contactless measurement device (2) in front of the wind turbine (1); aligning the wind turbine (1) in its azimuth position in relation to the measurement device (2); rotating the rotor (10) of the wind turbine (1); scanning and detecting the profile (26) of the rotor blade (16) or of a part thereof at a pre-defined height by means of the contactless measurement device (2); and determining the blade angle (2) of the rotor blade (16) from the data received when scanning the profile (26).

10. WOWO/2014/112034 - ABNORMALITY DIAGNOSTIC METHOD AND SYSTEM24.07.2014
G01M 13/00
PCT/JP2013/050524MITSUBISHI HEAVY INDUSTRIES, LTD.YANO, Akihiko
An abnormality diagnostic method for a device that includes a first mechanical element that has a rolling contact portion, a second mechanical element that does not have a rolling contact portion, and a circulation line through which an oil circulates through the first mechanical element and the second mechanical element and that uses at least a portion of the oil as a lubricating oil for the rolling contact portion, comprises a detection step of detecting the number of wear debris particles contained in the oil flowing in the circulation line, a determination step of determining whether the number of wear debris particles detected in the detection step exceeds a threshold value, a ratio acquisition step of acquiring a particle count ratio for flat particles to particles of other shapes in the wear debris, and an abnormality location identification step of identifying, on the basis of the particle count ratio, the mechanical element, from the first mechanical element and the second mechanical element, in which the abnormality occurred when the number of wear debris particles has been determined, in the detection step, to exceed the threshold value.


Results 1-10 of 41,679 for Criteria: Office(s):all Language:EN Stemming: true
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