The present disclosure relates to the field of power electronics and provides a power generating system and method for a vehicle. The present disclosure provides an alternative system for charging an energy storage device that is used to drive a vehicle and also to reduce dependency of the vehicle on the energy storage device.

A method and stand-alone composite power station having multiple power sources including one or more photovoltaic panels, wind turbines, and/or generators, detached from a utility grid. The composite power station supplies power to the composite energy storage arrangement for supplying power to equipment, vehicles, and/or power consumers. The power station includes a composite energy storage arrangement having at least one stationary element and at least one mobile element. A composite power import processing arrangement supplies power to at least one of the stationary element and the mobile element under allocation control of a composite power import allocation arrangement, and a composite power export processing arrangement supplies power from at least one stationary element and mobile element under allocation control of a composite power export allocation arrangement for downstream use by a vehicle, equipment, and/or power consumer.

An electric vehicle can include an electric drive capable of moving the vehicles, together with a non-battery operative feature to enhance the performance of the vehicle, such as extending the range or increasing the power. The non-electrical enhanced feature is independent and not integrated with the electric drive, to enable the return of the vehicle design to pure electrical power with minimum modification.

Provided is a device configured to determine a power capacity of a battery of a vehicle, predict a first set of values indicative of amounts of power to be stored during a time interval by the battery, the power being generated by a renewable energy generator carried by the vehicle, and predict a second set of values indicative of amounts of energy to be consumed from the battery during the time interval based on previous energy consumption by the vehicle. The device is also configured to determine a score based on the power capacity, the first set of values, and the second set of values. The system is also configured to determine whether the score satisfies a threshold and, in response to a determination that the score satisfies the threshold, activate an internal combustion engine to charge to the battery.

A movable wind power charging device includes a shaft, at least one stator secured on the shaft, a rotor rotatably mounted on the shaft and surrounding the at least one stator, and at least one impeller secured on the rotor. The at least one stator includes a plurality of stator coil windings. The rotor has a bearing mounted on the shaft, and has a plurality of magnets corresponding to the stator coil windings of the at least one stator. The movable wind power charging device is mounted on a transportation which includes a battery. An electric cord is connected between the at least one stator of the movable wind power charging device and the battery of the transportation.

A power generation system includes an aircraft that includes a propulsor and a platform attached to a structure and configured to support the aircraft. The propulsor is configured to generate electrical power via a wind rotating the propulsor while the aircraft is supported by the platform. A method for using a propulsor of an aircraft to generate electrical power includes positioning the aircraft such that the aircraft is supported by a structure and generating the electrical power via a wind rotating the propulsor while the aircraft is supported by the structure.

An electrical machine comprising: at least one stator, at least one module, the at least one module comprising at least one electromagnetic coil and at least one switch, the at least one module being attached to the at least one stator; at least one rotor with a plurality of magnets attached to the at least one rotor, an integrated electrical differential coupled to at least one of the rotors, the at least one integrated electrical differential permitting the at least one rotor to output at least two rotational outputs to corresponding shafts, wherein the at least two rotational outputs are able to move the shafts at different rotational velocities to one another. The electrical machine is configured to fit into a housing, and that can be retrofitted into a conventional vehicle by replacing the mechanical differential.

A vehicle is provided that determines a first triggering event in predetermined triggering event information has occurred, in response to a first event, automatically forwards a first communication to a selected third party vendor to preorder a product or service of the selected third party vendor in connection with a transaction with the user, determines a second triggering event in the triggering event information has occurred, and in response to the later second event, automatically sends an authorization to complete the transaction by providing financial information to the selected third party vendor.

Reactive spoilers for aircraft and associated methods. In one embodiment, a wing of an aircraft includes a leading edge, a trailing edge, and an upper surface and a lower surface between the leading edge and the trailing edge. The wing further includes a reactive spoiler disposed on the upper surface between the leading edge and the trailing edge. The reactive spoiler comprises one or more turbines configured to raise in relation to the upper surface into an airflow passing over the upper surface, and to reduce lift of a wing section behind the turbines. The turbines are configured to convert kinetic energy from the airflow into electrical energy.

An ecological system for use in land or marine vehicles is provided, which uses wasted airmass making it to pass through two subsystems which allow lighten the load of the moving vehicle and generates electrical energy. Therefore, showing an economy in fuel, tires, and general maintenance savings, as well as a decrease of contaminants thrown to the environment.