| Patent application number | Description | Published |
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| 20080231131 | Commercial Low Cost, High Efficiency Motor-Generator - A motor-generator includes a rotor that rotates about an axis of rotation, and a stator that is stationary and magnetically interacts with the rotor. The rotor is constructed of two spaced apart rotor portions having magnetic poles that drive magnetic flux across an armature airgap formed therebetween. An armature, located in the armature airgap, has a substantially nonmagnetic and low electrical conductivity form onto which wire windings are wound. The form has a free end that extends inside the rotor, and a support end that attaches to the stationary portion of the motor-generator. The form is constructed with a thin backing portion and thicker raised portions extending from the backing portion in the direction of the magnetic flux. The wire windings have multiple individually insulated conductor wire. The conductors of a single wire are electrically connected together in parallel and electrically insulated between each other along their length inside the armature airgap. The wire windings are wound on to the form by inserting the wire to lie between the raised portions; the form provides position location and support for the wire windings during the winding process, and subsequently reacts the electromagnetically induced torque on the windings to the stationary portion of the motor-generator through the support end of the form and prevents the windings from contacting the rotor portions during rotation of the rotor. | 09-25-2008 |
| 20090097981 | Low Cost Wind Turbine - A vertical axis wind turbine includes an elongated rotor propelled by wind-drag, having a high aspect ratio, with a length, L, and diameter, D, wherein 5| 04-16-2009 | |
| 20100060001 | WIND TURBINE SAFETY SYSTEM AND METHODS - A wind turbine for extracting energy from the wind and providing electrical energy to a load. The wind turbine may include a rotor arranged to drive a generator, and an electronic controller for connecting the generator to an electrical load. The electronic controller operates to reduce the tip speed ratio of the turbine rotor as wind speed increases. The rotor is designed have a power coefficient at low values of tip speed ratios that becomes negative for wind speeds exceeding a predetermined wind speed value. The electronic controller cooperates with the turbine rotor such that the turbine rotor looses a positive power coefficient and the wind turbine slows when wind speeds exceed the predetermined wind speed value. | 03-11-2010 |
| 20100060002 | WIND TURBINE DIRECT CURRENT CONTROL SYSTEM AND METHODS - A wind turbine control system converts AC power generated by the wind turbine to DC power for use in a load. The control system may include a plurality of modules that convert the AC power to DC power. The control system may include a turbine module that converts the AC power produced by a generator of the wind turbine to DC power. The turbine module may also include a boost converter that boosts the DC current to a higher voltage that improves efficient transfer of the DC power to the load. The control system may further include an output module having a buck converter that bucks the voltage of the DC power to a level needed for use by the load. The control system may control the amount of power generated by the wind turbine based on power needs of the load. | 03-11-2010 |
| Patent application number | Description | Published |
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| 20080265095 | Energy absorbing impact band and method - An energy absorbing apparatus and system for leading edge structures includes an impact member, such as a “bird-band”, of a plastically deformable material of a predetermined configuration positioned with the structure in an area of the leading edge of the structure to absorb energy of an impact of a projectile with the leading edge of the structure, and to redistribute the energy of the impact to the structure, and can break up the projectile, and can increase the impact area. The structure can have one or more sheet members, such as a single sheet, or an inner face sheet and an outer face sheet with a core positioned between the inner face sheet and the outer face sheet. One or more impact members of the plastically deformable material can be positioned with one or more of the single sheet, the inner face sheet, the outer face sheet or the core. | 10-30-2008 |
| 20100095832 | COMPOSITE CONTAINMENT OF HIGH ENERGY DEBRIS AND PRESSURE - A protective device for use in containing high energy debris and pressure is provided which employs a plurality of energy absorption elements disposed on an outer surface of an inner sheet, where the outer surface faces away from the body being protected and toward the high energy event, such as an explosion. Each energy absorption element extends generally away from the body to permit the high energy event to first impact upon the energy absorption elements, rather than the body. Energy absorbing elements are configured with a base and a cap and are formed of laminate composite materials. As such, energy absorption elements are configured to contain or reduce high energy debris material and pressure impacting the energy absorption element through delamination and possibly penetration of the composite material. | 04-22-2010 |
| 20110095131 | ENERGY ABSORBING IMPACT BAND - An energy absorbing system may include a structure formed of an inner face sheet and an outer face sheet and having a core positioned therebetween. The structure may have a leading edge. An impact member formed of a plastically deformable material may be positioned with the inner face sheet within an area of the leading edge. The impact member may absorb energy from an impact of a projectile with the leading edge and redistributing the energy of the impact to the structure. | 04-28-2011 |
