This invention is a renewable energy generator. This is a device for converting low pressure gas into a buoyancy force to create mechanical energy. The device consists of a round cylinder tank with a large radius containing a fluid where the aspect ratio of the round height over width greatly favors the height. Inside this tank is a submerged wheel with a plurality of cups between two supporting rings on the perimeter of the wheel. The rings are connected to a centralized hub and shaft which extend through the sides of the tank at the center. Air or gas is injected in the lower section of the tank to fill the cups and displace the fluid. The displacement of fluid creates an unbalance upward buoyancy force and rotates the wheel along the perimeter which turns the shaft and drives other devices in particular electric alternators to produce renewable electricity.

A turbine that has a plurality of compartments. Each compartment has associated thereto a respective opening. Each opening defining a fluid communication path between an outside of the turbine and a respective compartment. The turbine also has a plurality of conduits. Each conduit connects a respective compartment to an adjoining compartment. Each conduit defines a fluid communication passageway between the respective compartment and the adjoining compartment. The turbine is configured for immersion in liquid and for powering by gas displacing some of the liquid out of one or more than one compartment. The present disclosure also describes a method of driving such a turbine.

A system in a water body uses buoyant force of gaseous Hydrogen and Oxygen to generate electrical power with one or more turbines that includes power resulting from the buoyant force while transporting the Hydrogen or Oxygen to a higher elevation, without loss of electrons, for conversion to electricity at the higher elevation. Conversion of Hydrogen and Oxygen to water through a Hydrogen Fuel Cell or by burning at the higher elevation may generate additional steam power, hydropower, or purified water. Portable submersible modules may transport the system below or above the water to and from the base of a plumbing portion of the system. The amount of gaseous fuel energy available at the higher elevation is not detrimentally impacted by the generation of electricity by the turbine.

An apparatus, system and method for utilizing a source of liquid to rotate an output shaft and produce rotational torque that operates a machine to produce electricity, operate a pump or accomplish other work. Liquid from the supply of liquid flows into a flow chamber where the liquid is mixed with pressurized gas to form an aerated flow stream that flows upward in the flow chamber to lift the liquid to a position above a liquid-driven rotating mechanism, such as a water turbine or open impeller. The liquid is directed to the rotating mechanism by liquid discharge devices. Liquid passing through the rotating mechanism rotates the output shaft and then flows back into the supply of liquid. A supply of pressurized gas supplies the gas to the flow chamber. Gas discharge vents remove the gas from the aerated flow stream upstream of the liquid discharge devices.

The hydroelectric power generating system includes a reservoir for retaining a body of water and an outer vessel that surrounds a peripheral wall of the reservoir. A circumferential canal extends between an upper portion of the reservoir peripheral wall and the outer vessel. One or more penstocks extend below the canal between the reservoir and the outer vessel. Each penstock has one or more hydroelectric turbine generators installed therealong. A plurality of primary wind turbines can be disposed on a peripheral wall of the reservoir and a plurality of air columns can be disposed within the reservoir to generate auxiliary power.

A system in a water body uses buoyant force of gaseous Hydrogen and Oxygen to generate electrical power with one or more turbines that includes power resulting from the buoyant force while transporting the Hydrogen or Oxygen to a higher elevation, without loss of electrons, for conversion to electricity at the higher elevation. Conversion of Hydrogen and Oxygen to water through a Hydrogen Fuel Cell or by burning at the higher elevation may generate additional steam power, hydropower, or purified water. Portable submersible modules may transport the system below or above the water to and from the base of a plumbing portion of the system. The amount of gaseous fuel energy available at the higher elevation is not detrimentally impacted by the generation of electricity by the turbine.

A system in a water body uses buoyant force of gaseous Hydrogen and Oxygen to generate electrical power with one or more turbines that includes power resulting from the buoyant force while transporting the Hydrogen or Oxygen to a higher elevation, without loss of electrons, for conversion to electricity at the higher elevation. Conversion of Hydrogen and Oxygen to water through a Hydrogen Fuel Cell or by burning at the higher elevation may generate additional steam power, hydropower, or purified water. Portable submersible modules may transport the system below or above the water to and from the base of a plumbing portion of the system. The amount of gaseous fuel energy available at the higher elevation is not detrimentally impacted by the generation of electricity by the turbine.