The electrical power generation system using renewable energy is particularly adapted to provide electrical power to an independent or remotely situated electrical device such as a street light, emergency call box, or illuminated road sign. The system includes a pivotally mounted venturi with vanes assuring that the venturi is oriented into the prevailing wind. A vertical axis wind turbine is installed in the venturi throat, and drives a shaft extending through the column upon which the venturi is installed to a generator at the base of the column. The venturi and vanes may include photovoltaic cells thereon for further electrical power. The venturi may be heated from a geothermal source, and may include a variable diameter internal wall to adjust the cross-sectional area of the throat of the venturi. The use of functionally graded materials and other phase change materials may also improve the performance of the device.

The electrical power generation system using renewable energy is particularly adapted to provide electrical power to an independent or remotely situated electrical device such as a street light, emergency call box, or illuminated road sign. The system includes a pivotally mounted venturi with vanes assuring that the venturi is oriented into the prevailing wind. A vertical axis wind turbine is installed in the venturi throat, and drives a shaft extending through the column upon which the venturi is installed to a generator at the base of the column. The venturi and vanes may include photovoltaic cells thereon for further electrical power. The venturi may be heated from a geothermal source, and may include a variable diameter internal wall to adjust the cross-sectional area of the throat of the venturi. The use of functionally graded materials and other phase change materials may also improve the performance of the device.

An integrated mobile solution to electric vehicle charging and sharing without dependency on connection with an electrical power grid or utility. An integrated platform can include a platform housing secured to a transport base unit that is configured to facilitate transport of the integral platform among a road or other terrain. The integrated platform includes a plurality of renewable energy units that can generate electrical power from one or more renewable energy sources, including solar and wind power. Electrical power generated by the renewable energy units can be stored in one or more batteries, and selectively provide power for charging electric vehicles, as well as for components of the integral platform used for vehicle sharing services. An environmental sensing unit of the integrated platform can sense outside ambient conditions which can be transmitted from the integrated platform for sharing or use by other parties or applications.

An integrated mobile solution to electric vehicle charging and sharing without dependency on connection with an electrical power grid or utility. An integrated platform can include a platform housing secured to a transport base unit that is configured to facilitate transport of the integral platform among a road or other terrain. The integrated platform includes a plurality of renewable energy units that can generate electrical power from one or more renewable energy sources, including solar and wind power. Electrical power generated by the renewable energy units can be stored in one or more batteries, and selectively provide power for charging electric vehicles, as well as for components of the integral platform used for vehicle sharing services. An environmental sensing unit of the integrated platform can sense outside ambient conditions which can be transmitted from the integrated platform for sharing or use by other parties or applications.

The present invention provides an energy storage management device, a power generation system and a power distribution method based on blockchain technology, which comprises an energy storage battery pack, a plurality of battery pack arrays, and an energy storage battery pack connected with a load; AC/DC bidirectional inverter module is connected with power generation device, energy storage battery pack and load respectively; the control module is electrically connected with the energy storage battery pack and AC/DC two-way inverter module respectively. It is used to control the AC/DC two-way inverter module that converts the output electric energy of the generation device and transfer the energy storage battery pack. Furthermore, it is used to control the AC/DC two-way inverter module and the energy storage battery pack to transmit electric energy to the load.

The present invention provides an energy storage management device, a power generation system and a power distribution method based on blockchain technology, which comprises an energy storage battery pack, a plurality of battery pack arrays, and an energy storage battery pack connected with a load; AC/DC bidirectional inverter module is connected with power generation device, energy storage battery pack and load respectively; the control module is electrically connected with the energy storage battery pack and AC/DC two-way inverter module respectively. It is used to control the AC/DC two-way inverter module that converts the output electric energy of the generation device and transfer the energy storage battery pack. Furthermore, it is used to control the AC/DC two-way inverter module and the energy storage battery pack to transmit electric energy to the load.

Methods and systems for substantially continual electrical power generation for a moving vehicle are disclosed herein. According to the various embodiments discussed herein, the battery range can be increased significantly using a variety of energy sources. The energy sources are configured to facilitate continual electricity generation based on: (i) one or more generators positioned around predetermined vehicle parts; (ii) wind energy created by the motion of the vehicle in relation to the surrounding medium, and (iii) solar energy. The system for continual electrical power generation in a moving vehicle has a generator having a coil-and-magnet arrangement around one or more vehicle components/modified components. The system further has an energy generator for converting solar energy and wind energy into electricity.

Methods and systems for substantially continual electrical power generation for a moving vehicle are disclosed herein. According to the various embodiments discussed herein, the battery range can be increased significantly using a variety of energy sources. The energy sources are configured to facilitate continual electricity generation based on: (i) one or more generators positioned around predetermined vehicle parts; (ii) wind energy created by the motion of the vehicle in relation to the surrounding medium, and (iii) solar energy. The system for continual electrical power generation in a moving vehicle has a generator having a coil-and-magnet arrangement around one or more vehicle components/modified components. The system further has an energy generator for converting solar energy and wind energy into electricity.

An underwater pumped storage power plant that includes: an accumulator system with pressure vessels fillable with water and; a water outlet for water flow out of the system into a surrounding ocean against hydrostatic water pressure (PT) corresponding to water depth (T); a pump at the water outlet to pump water out of the system by converting electrical energy into potential energy corresponding to a displaced water column PT; a water inlet to allow water flow into the system from the surrounding ocean; a common generator at the water inlet, to convert the potential energy back into electrical energy when water flows in; electric lines to transport the electrical energy from the ocean surface to the power plant and back, wherein the pressure vessels are pressure-resistant and resistant to deformation from the PT at the ocean floor.

An automatic intelligent hybrid electricity generating device designed to get maximum electrical energy from renewable energy resources i.e., wind and sunlight and works intelligently and moves automatically to get maximum available energy resources i.e., sunlight or wind, thereby eliminating separate installation of solar panels and wind turbine and increases efficiency.