ENVISION ENERGY (DENMARK) APS Patent applications |
Patent application number | Title | Published |
20160017864 | VORTEX GENERATOR UNIT FOR A WIND TURBINE BLADE - A wind turbine blade vortex generator unit and a method for installing it, where a wind turbine blade has at least one series of vortex generator units formed of fins extending substantially perpendicular to the surface of the airfoil and substantially in a direction from the leading edge towards the trailing edge of the wind turbine blade. The vortex generator units each comprises a fin connected to an outer side of the fin base, and where the fin is delta shaped tapering from a trailing edge towards a leading edge and where each of the vortex generator units has a layer of adhesive on an inner side of the base that extends to an outermost periphery of the base. The vortex generator unit has exactly one fin, and the base has an airfoil shaped periphery with a rounded leading edge and a trailing edge. | 01-21-2016 |
20150345465 | WIND TURBINE BLADE LIFTING DEVICE AND A METHOD FOR LIFTING A WIND TURBINE BLADE - A wind turbine blade lifting device having a length, a width and a height and is suitable for lifting and handling a wind turbine blade or a part of a wind turbine blade, also having a length, a width and a height, where the lifting device has a chassis with at least one set of connection means for coupling to a lifting apparatus, and a mechanism for engaging a wind turbine blade or blade part. Also, a method for installing at least a part of a wind turbine blade, e.g., a full wind turbine blade or an inner blade part for a partial pitch wind turbine blade having an inner blade part and an outer blade part. | 12-03-2015 |
20150267681 | WIND TURBINE HAVING EXTERNAL GLUING FLANGES NEAR FLAT BACK PANEL - A wind turbine with a wind turbine tower, a nacelle on the tower, a rotor hub rotatably mounted to the nacelle, and at least one wind turbine blade having a blade root mounted to the rotor hub, a tip end, a pressure side and a suction side connected to each other via a leading edge and a trailing edge, a first shell part having inner and outer surfaces and a second shell part having inner and outer surfaces, the shell parts having flanges that extend outwards from the trailing edge of the shell parts and away from the outer surface with gluing surfaces which are glued together when the two shell parts are placed on top of each other. This allows the glue line to be moved out of the inner area defined by the shell parts so that the glue process can be controlled more effectively. | 09-24-2015 |
20140317927 | METHOD FOR ASSEMBLING AND TRANSPORTING AN OFFSHORE WIND TURBINE - A method for assembly and installation of an offshore wind turbine, where components such as a nacelle, one or more tower sections and/or blades for at least one wind turbine is manufactured, assembled at or transported to a harbor area, where said components are loaded onto a transport and installation vessel and subsequently transported to an erection site. The method involves at least the steps of assembling at least one nacelle for a two-bladed wind turbine having hub with two sets of blade installation interfaces facing in a radial direction, the blade installation interfaces having a 180 degree angular distance therebetween, installing at least one, but preferably two inner blade parts to the hub, and arranging the at least one nacelle with the at least one inner blade part attached to the hub on the deck of a transport and installation vessel. | 10-30-2014 |
20140286778 | UNIT FOR ROTATING CABLE SPACING PLATES IN A WIND TURBINE TOWER - A wind turbine having a wind turbine tower with a nacelle provided on the top to which a rotor hub with one or more wind turbine blades is rotatable mounted. A cable twisting system is arranged inside the wind turbine tower and suspended from the bottom of the nacelle. The cable twisting system comprises a number of cable spacing plates having a number of guiding means for guiding the electrical cables from the nacelle to the bottom of the wind turbine tower. A first and second element having engaging fingers configured to be brought into contact with each other are coupled to two adjacent cable spacing plates. The first element rotates relative to the second element when the nacelle is yawing, bringing the fingers into contact with each other. The two elements then rotate together as the nacelle continues to yaw in the same direction. | 09-25-2014 |
20140248112 | TWO OR THREE WIND TURBINE BLADES AS ONE UNIT - The invention relates to a method for transporting two or three pre-bend wind turbine blades for a wind turbine and to a wind turbine blade transport unit, said wind turbine blades each having a length extending from a first end, e.g. a root end describing a first end plane, to a second end, e.g. a tip end, where said length is at least 35 metres, said wind turbine blades each comprising a central longitudinal axis extending perpendicular from said first end plane and towards said second end, said wind turbine blade further comprises an aerodynamically shaped body comprising a pressure side, a suction side, a leading edge and a trailing edge. According to the invention the wind turbine blades are fixated in specific positions in relation to one or two other wind turbine blades as one single transport unit. | 09-04-2014 |
20140237932 | TOWER ASSEMBLY SYSTEM FOR WIND TURBINES AND METHOD THEREOF - The present invention relates to a tower assembly system, a method of assembling a wind turbine tower and a wind turbine thereof. Three or more guidance devices may be mounted to a mounting flange in the upper end of a lower tower section and/or in the lower end of an upper tower section. The guidance device comprises a contact surface for contacting a mating contact surface on the opposite tower section. The guidance device comprises a mounting flange for mounting the device to the mounting flange of the tower section using fastening means. This allows the guidance devices to catch and guide the free hanging tower section into the correct position on the stationary tower section. This enables the assembly time to be reduced with up to 50% compared with the present assembly methods. The guidance devices allow the workers to guide the free hanging tower section into position from the ground. | 08-28-2014 |
20140219797 | PARTIAL PITCH WIND TURBINE WITH FLOATING FOUNDATION - The present invention relates a wind turbine comprising a wind turbine tower with a nacelle provided on the top to which a rotor hub with one or more wind turbine blades is rotatably mounted so that they form a rotor plane. A floating foundation having a upper section is mounted to the bottom of the wind turbine tower, wherein the foundation has a buoyant body configured to be installed at an offshore position having a water depth of about 40 m or more. The wind turbine blade comprises an inner blade section coupled to an outer blade section by a pitch junction in which a pitch mechanism is coupled to a pitch control system configured to regulate the pitch of the outer blade section relative to the inner blade section at wind speeds above a first wind speed. This allows the pitching to be used to counteract the tilting of the wind turbine caused by the different thrusts acting on the structure. This allows for a more linear control of the bending moment induced in the structure, since the blade sections provides a more constant thrust acting on the rotor hub which in turn allows the large negative damping loads and stresses introduced in the wind turbine to be eliminated. | 08-07-2014 |
20140217741 | SYSTEM FOR TWISTING CABLES IN A WIND TURBINE TOWER - The invention relates to a wind turbine having a wind turbine tower and a nacelle provided on top of the tower to which a rotor hub with one or more wind turbine blades is rotatably mounted. A cable twisting system is arranged inside the tower and suspended from the bottom of the nacelle. The cable twisting system comprises cable spacing plates coupled to a suspension element. Guiding means guide the electrical cables from the nacelle to the bottom of the tower. The suspension element is a torsion element having a first end capable of twisting relative to a second end when torque is applied to the first end therefore allowing individual cable spacing plates to be rotated in a more uniform manner when the nacelle is yawing. This also allows upwards movement of the cable spacing plates caused by the applied torque to start at the uppermost cable spacing plate. | 08-07-2014 |
20140175796 | WIND TURBINE HAVING A HTS GENERATOR WITH A PLURALITY OF PHASES - The present invention relates to a wind turbine having a wind turbine tower with a nacelle provided on the top to which a rotor hub with one or more wind turbine blades is rotatably mounted by a rotor shaft. A generator is arranged in the nacelle, wherein the superconducting rotor coils induce a current in the stator coils when the rotor is rotated, and wherein the stator coils are arranged in at least four phases. One or more converter modules convert the power output from the generator so that it matches the power of a power grid. The generator side of the converter modules comprises a number of rectifying circuits equal to the phases in the generator, while the power grid side comprises a number of inverting circuits equal to the phases of the power grid. This allows the transient of the electromagnetic brake torque relative to the nominal electromagnetic torque of the generator to be reduced. The ripples of the electromagnetic torque are also reduced since the switching frequency of the converter is increased. This in turn reduces the mechanical stresses occurring in the drive train in the event of a failure or error occurring in one of the converter modules. The present invention also relates to a method of operation of such a wind turbine where the defective converter module is selectively switched off and the wind turbine is put into operation again at a lower operation level. | 06-26-2014 |
20140119915 | WIND TURBINE WITH AN OFFSET SUCTION SIDE - Wind turbine having a wind turbine tower, a nacelle provided on the wind turbine tower, a rotor hub rotatably mounted to the nacelle, and one or more wind turbine blades having a root end to be mounted to the rotor hub, a tip end, and pressure and suction sides connected to each other via a leading edge and a trailing edge. The wind turbine blade has a plurality of cross-sectional profiles arranged according to the surface of the suction side so that the surface of the suction side forms a line having a predetermined curvature which curves towards the pressure side of the wind turbine blade and/or forms an approximately straight line along at least part of the relative length. The line crosses each cross-sectional profile in that point on the pressure side where the maximum relative thickness of that profile perpendicular relative to its chord line is measured. | 05-01-2014 |
20140064856 | METHOD OF INSTALLING AN OFFSHORE WIND TURBINE AND A TRANSPORT VESSEL THEREOF - A method of installing an offshore wind turbine and a transport vessel for use therewith in which a part of a wind turbine is secured to the transport vessel by raising the part in a perpendicular direction relative to the transport vessel into a transport position using a lifting device arranged on the transport vessel at a loading site. The transport vessel is then moved from the loading site out to an installation site. The transport vessel is secured to an offshore foundation which is located at the installation site. The wind turbine is then lowered onto an upper part of the offshore foundation using the lifting means. Finally, the transport vessel is released and moved away. This method eliminates the need for specially designed installation vessels using a crane to install an offshore wind turbine, thereby reducing the total installation costs. | 03-06-2014 |
20140049131 | ELECTRICAL MACHINE WITH MAGNETIC FLUX INTENSIFIER - An electrical machine has a stator-rotor configuration in which the rotor has at least two poles. The poles are configured to rotate in an angle and to electromagnetically interact with one or more teeth that is a part of a stator adjoined in a fixed position to the electrical machine. The configuration forms a gap in the lateral direction between the poles and the teeth. At least one of the poles is formed of a permanent magnet material and a magnetic flux intensifier is arranged relative to at least one of the poles and one of the teeth. The magnetic flux intensifier is configured to concentrate the magnetic field lines between a pole and the teeth. | 02-20-2014 |
20140017079 | METHOD AND SYSTEM TO ACTIVELY PITCH TO REDUCE EXTREME LOADS ON WIND TURBINE - The present invention relates to a method of controlling an idling wind turbine in which wind condition data and wind turbine position data are collected by a sensor system, a control system computes an optimal pitch angle for a rotor blade of the wind turbine, and a pitching system continuously turns the rotor blades in the same direction in multiples of 360 degrees. The present invention further relates to a wind turbine with a sensor system including a wind sensor that measures wind condition data in the vicinity of the wind turbine, and a control system including a computer that executes a control algorithm and processes sensor input from the sensor system to compute an optimal pitch angle value for a rotor blade on the hub. This allows pitching the rotor blade into angle in which the mechanical loads of that rotor blade are reduced to a minimum when idling. | 01-16-2014 |
20130323070 | TRAILING EDGE TAPE - A wind turbine rotor blade for a wind turbine having a length extending from a first end, a leading edge and a trailing edge, where a pressure side and a suction side extend between the leading edge and the trailing edge and thus define an airfoil shaped cross section. At least along a part of the length of the wind turbine rotor blade, the trailing edge comprises a trailing edge part having a first and a second installation flange, each of which has a width. The installation flanges are arranged in connection with a trailing edge extender, the first and second installation flanges both having an inner surface for installation on the pressure side and the suction side of the wind turbine blade. Also, method for fitting a wind turbine rotor blade with a trailing edge part is provided. | 12-05-2013 |
20130315740 | METHOD AND EQUIPMENT FOR TURNING A BLADE OR A BLADE PART FOR A WIND TURBINE DURING PRODUCTION OR INSTALLATION - A method for installing an inner blade part or a wind turbine blade and to a lifting bracket for use in performing said method, e.g., a inner blade part for a partial pitch wind turbine blade comprising an inner blade part and an outer blade part, said inner blade part comprising a first flange for connection to a hub flange at a wind turbine hub and a second flange for connection to an outer blade part, said flanges all comprising a number of bolts and/or bolt holes. The lifting bracket has a flange for connection to a suitable number of bolts and/or bolt holes at said second flange on the inner blade part, the flange having a first surface and an opposite second surface arranged for interfacing with the first flange, and further the lifting bracket also has at least one lifting lug and at least one counter weight. | 11-28-2013 |
20130270937 | WIND TURBINE WITH IMPROVED COOLING - A wind turbine with a wind turbine tower; a nacelle; a wind turbine rotor hub having at least one blade mounted thereon; a shaft coupled to the wind turbine rotor hub, and to a generator which has a rotor with at least one superconducting rotor coil and a stator with at least one conductive stator coil. The rotor coil and the stator coil have interacting magnetic fields for inducing current in the stator coil. A stator iron and at least a part of the stator coils are thermally coupled by first and second types of cooling channels along an inner and an outer periphery of the stator iron, respectively. The cooling channels guide a coolant that conducts heat away from the stator coil. Interconnecting pipes are coupled to at least a first chamber or a second chamber of the second type of cooling channels. | 10-17-2013 |
20130270826 | WIND TURBINE WITH A PRIMARY AND A SECONDARY GENERATOR AND METHOD OF OPERATING SUCH WIND TURBINE - This invention relates to a wind turbine of variable speed type including: a wind turbine tower; a nacelle on said wind turbine; a wind turbine rotor hub rotatably mounted at said nacelle, said wind turbine rotor hub having at least one wind turbine blade mounted thereon and a shaft coupled to said wind turbine rotor hub and to, optionally via a gear box, a primary generator which via power lines has a primary stator electrically connected to a grid connection and a primary rotor electrically connected to a back-to-back converter at a generator side converter end wherein the back-to-back converter at a grid side converter end is electrically connected to the grid connection. The wind turbine further includes a secondary generator coupled to the shaft via a mechanical coupling and electrically connected to the primary rotor of the primary generator and the generator side converter end of the back-to-back converter. | 10-17-2013 |
20130259688 | PITCH LOCK SYSTEM - A pitch lock system for a wind turbine with a rotor, at least one pitchable blade and a interface having a pitch bearing system with a first bearing ring, a second bearing ring and a pitch drive installed at a support plate at a structural part connected to the first bearing ring and interacting with teeth on a toothed element, where the toothed element is in fixed connection with the second bearing part. The pitch lock system has at least a base plate and an arrangement for fastening the base plate indirectly to the first bearing ring and a locking pawl that can be fasten to the base plate with an element on the locking pawl interacting with the toothed element. | 10-03-2013 |
20130236304 | NACELLE STAND AND A METHOD FOR ASSEMBLING AND TESTING A NACELLE FOR A WIND TURBINE - A nacelle stand and a method for building and testing a nacelle for a wind turbine using a nacelle stand, the nacelle stand being suitable for supporting a nacelle for a wind turbine, during manufacturing and assembly of the nacelle, testing and transport. The nacelle stand has a connecting arrangement for rigid connection to a yaw system arranged at the main frame of the nacelle, a midsection, a horizontal bedplate and a center part with a number of fingers extending away from the center part in a horizontal plane, the fingers each having an angle larger than 0 degrees and less than 90 degrees relative to a longitudinal axis of the stand. | 09-12-2013 |
20130161959 | WIND TURBINE WITH SEALED OFF STATOR CHAMBER - A wind turbine having a wind turbine tower with a nacelle; a wind turbine rotor hub with at least one rotatably mounted wind turbine blade; a shaft coupled to the wind turbine rotor hub and a generator. The generator has a rotor having at least one superconducting rotor coil arranged rotatably relative to a stator having at least one stator coil. The rotor is arranged in a rotor housing and the stator is arranged in a stator housing, the housings being separated by a rotor-stator gap. The stator housing has a stator inner shell and a stator outer shell connected together by at least one stator housing end plate. The stator inner shell has a first inner shell element attached to a stator iron that is connected to a second inner shell element. A pressure plate is attached to the second inner shell element and the stator outer shell. | 06-27-2013 |
20130156560 | WIND TURBINE NACELLE COVER AND A METHOD FOR INSTALLING A GENERATOR ON A MAINFRAME IN A NACELLE - A wind turbine and to a method for installing a generator for a wind turbine, in which a nacelle and a mainframe for installation of, e.g., a generator and a main shaft, is installed on top of a tower. The nacelle further has a nacelle cover extending over the main frame from the hub and to a rear end, covering components installed on the main frame. The nacelle cover has at least a first part and a second part, the first part having a interface for engagement with a corresponding interface on the second part, the second part of the nacelle cover housing a generator as one unit. By having the generator and the second part of the nacelle cover as a single unit, installation can be performed in one go and then only one hoist with a crane is needed. | 06-20-2013 |
20130154272 | WIND TURBINE WITH SEALED OFF STATOR CHAMBER - A wind turbine having a wind turbine tower with a nacelle; a wind turbine rotor hub with at least one rotatably mounted wind turbine blade; a shaft coupled to the wind turbine rotor hub and a generator. The generator has a rotor with at least one superconducting rotor coil arranged rotatably relative to a stator having at least one stator coil. The rotor is arranged in a rotor housing and the stator is arranged in a stator housing, the housings being separated by a rotor-stator gap. The stator housing has a stator inner shell and a stator outer shell connected together by at least one stator housing end plate. The stator inner shell has a first inner shell element attached to a stator iron which is connected to a second inner shell element. A pressure plate is attached to the second inner shell element and the stator outer shell. | 06-20-2013 |
20130119663 | WIND TURBINE WITH ADDITIONAL ROTOR MOMENT OF INERTIA AND A METHOD FOR CONTROLLING A WIND TURBINE WITH ADDITIONAL ROTOR MOMENT OF INERTIA - This invention relates to a wind turbine having an additional mass each placed between a mounting end and a free end of at least two rotor blades. This invention further relates to a method for controlling a wind turbine with a pitch system for pitching a blade in a pitch angle and with blades with a mass for increased inertia, which wind turbine is operated in a normal operation mode in which a generator has a generator speed at a generator torque, and which wind turbine is to remain electrically coupled to a grid during a low voltage condition and with supplied current specifications, torque reference, power references, or according to a grid code. | 05-16-2013 |
20130106112 | WIND TURBINE COMPRISING A CABLE LOOP | 05-02-2013 |
20130058784 | PITCH LOCK SYSTEM - A pitch lock system for a wind turbine with a rotor having at least one pitchable or at least partially pitchable blade connected to the rotor at a interface, the blade having an outer blade part and an inner blade part, the blade parts being interconnected at an interface, having a pitch bearing construction with a first bearing ring and a second bearing ring for pitching at least a part of the blade in relation to the rotor. The pitch lock system has a movable toothed segment for interacting with at least one toothed element, and where the pitch lock system further includes an actuator for activating and moving the movable toothed segment into engagement with the toothed element, and thus, locking the pitch bearing construction and thus locking the pitch bearing in the actual position. | 03-07-2013 |
20130004312 | WIND TURBINE AND AN ASSOCIATED YAW CONTROL METHOD - A method of controlling the yawing of two-bladed wind turbine is described. The yaw speed of the turbine is increased when the wind turbine rotor blades are in a substantially vertical position, and the yaw speed may be reduced when the blades are substantially horizontal. By modulating the yaw rate based on the rotational angle of the blades, the effect of the yaw moments on the wind turbine structure is reduced, and the wind turbine may be designed to take into account such reduced forces. | 01-03-2013 |
20120321482 | WIND TURBINE BLADE - A blade for a partial pitch wind turbine is described, wherein the blade has a truncated aerodynamic profile provided at the pitch junction of the blade. The truncated trailing edge acts to prevent the formation of a trailing edge gap during pitching between the trailing edges of the inner and outer blade sections of a partial pitch blade, thereby reducing the negative impact of air leakage, etc., when pitching a partial pitch blade. | 12-20-2012 |
20120321471 | WIND TURBINE BLADE - A wind turbine blade is described having a pitch system coupling which is adapted to allow fasteners, such as bolts, of such a coupling to be tightened from the inside of the blade. This removes the need for relatively difficult and expensive external maintenance operations to tighten pitch coupling bolts. The coupling is arranged to present first and second internal bearing surfaces, against which the bolts of the pitch coupling can be tightened. The coupling may comprise a shaped end portion of an inner blade section, and/or the pitch system may comprise an additional bolting collar to facilitate this arrangement. | 12-20-2012 |
20120294723 | WIND TURBINE AND WIND TURBINE BLADE - A partial pitch wind turbine is described wherein the wind turbine blade has an inner blade section designed for stall-controlled operation and an outer blade section designed for pitch-controlled operation. The different blade profiles for the different sections allow for the efficient operation of the blade while providing for the control of the wind turbine to effectively reduce blade root moments. The outer blade sections can be pitched out of the wind to reduce root moments due to the outer blade sections, while the increasing power capture of the inner blade section maintains nominal power output. | 11-22-2012 |
20120294715 | WIND TURBINE AND WIND TURBINE BLADE - A method for controlling a two-bladed pitchable swept-blade wind turbine in extreme wind conditions is described, wherein when extreme conditions are detected or forecast for the wind turbine, the wind turbine blades are pitched such that they will stabilise in a substantially horizontal arrangement. The blades can be yawed such that the tip ends of the wind turbine blades point in the same direction towards the surface level, thereby lowering the centre of mass of the rotor assembly of the wind turbine blades and the rotor hub. The lower centre of mass of the assembly results in the stabilisation of the blades in a substantially horizontal position, resulting in a reduced surface area of the blades exposed to the extreme wind forces. This reduced surface area provides for a reduction in the extreme loads which may be experienced by the wind turbine in such extreme wind conditions. | 11-22-2012 |
20120294714 | WIND TURBINE AND ASSOCIATED CONTROL METHOD - A method for controlling a two-bladed pitchable swept-blade wind turbine in extreme wind conditions is described, wherein when extreme conditions are detected or forecast for the wind turbine, the wind turbine blades are pitched such that they will passively align in a substantially horizontal arrangement. The blades can be yawed such that a tip of one of the wind turbine blades points into the wind direction, resulting in a reduced surface area of the blades exposed to the extreme wind forces. This reduced surface area provides for a reduction in the extreme loads which may be experienced by the wind turbine in such extreme wind conditions. | 11-22-2012 |
20120288371 | WIND TURBINE AND AN ASSOCIATED CONTROL METHOD - A partial pitch wind turbine and an associated control method are described wherein the wind turbine blade comprises an inner blade section designed as a stall-controlled blade and an outer blade section designed as a pitch-controlled blade. During operation of the wind turbine, the outer blade sections are pitched out of the wind to reduce the lift force generated in the outer blade sections, thereby reducing the blade root moments due to reduced moment arms. Meanwhile, the inner blade sections continually produce increasing power output for increasing wind speed, thereby allowing for nominal power output to be maintained while effectively de-rating the outer blade sections. | 11-15-2012 |
20120282093 | WIND TURBINE AND ASSOCIATED CONTROL METHOD - A method for controlling the position of blades of a two-bladed wind turbine when extreme conditions are detected or forecast for the wind turbine. When extreme conditions are detected or forecast, the wind turbine blades are positioned in a horizontal arrangement, and actively yawed such that a tip of one of the wind turbine blades points into the wind direction. The blades are yawed such as to actively follow the changing wind direction, resulting in a reduced surface area of the blades exposed to the extreme wind forces, due to the spear-like arrangement of the turbine blades. This reduced surface area provides for a reduction in the extreme loads which may be experienced by the wind turbine in such extreme wind conditions. | 11-08-2012 |
20120257973 | OFFSHORE WIND TURBINE HAVING A SUPPORT SYSTEM FOR INTERCHANGEABLE CONTAINERS, THE SUPPORT SYSTEM BEING COMBINED WITH A WAVE RUN-UP DEFLECTOR AND METHOD OF MANUFACTURING SAME - An offshore wind turbine comprising a tower, where said wind turbine at a level above sea level comprises at least one structure for storing at least one container, said container having the size and measures of a standard container, where said structure is arranged on the side of the tower, a method of manufacturing such a concrete structure for an offshore wind turbine. The structure for storing one or more containers includes a deck, and at least one bed for supporting at least one container along the containers lower surface and/or edges, where the structure is a concrete structure. By manufacturing the structure from concrete, a very robust and strong structure is achieved. | 10-11-2012 |
20120243992 | WIND TURBINE BLADE - A partial pitch wind turbine blade in which the pitch system of the blade functions as a lightning receptor. As the pitch system is of a relatively large dimension, it is able to dissipate the effects of a lightning strike without damage, and removes the needs for additional blade features normally used to conduct lightning around or away from the pitch system. | 09-27-2012 |
20120227357 | TRANSPORTATION METHOD FOR A WIND TURBINE BLADE - A method of transporting a wind turbine blade is described, wherein the blade comprises an inner extender section and an outer blade section. The inner extender section is approximately half the length of the outer blade section, and the method comprises securing a pair of inner extender sections together to form an extender transport section, which can be more easily transported as it is approximately the same length as an outer blade section. | 09-13-2012 |
20120201675 | WIND TURBINE AND AN ASSOCIATED CONTROL METHOD - A two-bladed partial-pitch wind turbine and a method of controlling such a wind turbine during high wind conditions are described. The turbine is operable to pitch the outer sections of the turbine rotor blades during extreme wind conditions (i.e. high wind loads) such that the outer blade sections are substantially orthogonal to the inner blade sections. This arrangement acts to reduce the extreme thrust loading experienced by the wind turbine structure during severe gusts (e.g. during hurricane or typhoon conditions), and accordingly reduces the risk of damage to the wind turbine in such conditions. | 08-09-2012 |
20120156051 | WIND TURBINE BLADE - A wind turbine blade is described wherein the blade comprises a hinged flap provided at the leading edge of the blade. The flap is arranged to hinge when the angle of attack of the incident airflow falls below a pre-defined angle, so that the aerodynamic profile of the blade is altered to reduce the magnitude of the negative lift coefficient of the blade. This reduces strain on the blade in such conditions, and associated fatigue loads on the blade and the wind turbine structure. The flap utilises simple biasing means, and does not require complicated sensor or actuation systems. | 06-21-2012 |
20120134825 | PITCH SYSTEM BALANCING - A balancing method and system for a partial pitch rotor blade for a wind turbine is described. Balancing elements are mounted to the pitch system of the rotor blade, which remove the need for complicated balancing operations to be performed which may affect the structural stability of the rotor blade body. A method is described wherein a suitable compensating balancing weight for mounting to the pitch system may be used, the weight chosen based on the known tip and root weights of standard blade extender and rotor blade parts used. | 05-31-2012 |
20110309632 | WIND TURBINE AND A SHAFT FOR A WIND TURBINE - A drive shaft for a wind turbine is shaped so as to allow for increased bending of the shaft, while being suitable for transferring torque in a wind turbine system. An example of such a shaping is a drive shaft having a helical rib defined on the surface of the shaft. A wind turbine incorporating such a shaft, and a method of manufacture of such a shaft are also described. | 12-22-2011 |
20110309631 | FLEXIBLE SHAFT WIND TURBINE - A horizontal-axis wind turbine of a rotor-support design is provided in which the structural load of the wind turbine rotor is carried by the wind turbine tower itself. The turbine uses a composite shaft to transfer torque from the wind turbine rotor to the generator, the shaft having high torsional strength but being flexible in bending. This prevents the transmission of bending moments from the rotor hub to the generator system. Accordingly, the components of the turbine can be rigidly mounted to the turbine main frame, removing the need for vibration damping elements. The result is a wind turbine of reduced weight, which can be modeled and designed for improved efficiency and performance. Furthermore, as the turbine components do not have to be load-balanced, the turbine can be of a modular construction for relatively easy servicing and/or upgrading. | 12-22-2011 |