Disclosed is an air-compression energy-storage and power-supply system having air purification capability through using solar energy. The system includes: a solar energy power supply device, it utilizes solar energy to produce power for the system itself, and for users to use in daytime; an air purification device, with its exhaust fan connected to a transformer power distribution device to obtain the power for rotation, so that outside air flows into the air cylinder after filtering by the air filter, then the purified air is exited from the air cylinder to provide purified air; an air-compression energy-storage and power-supply device, used to compress the purified air into high pressure for storage, and the high pressure purified air is released at night, for the generator to produce power for user to use at night; and a wind power transmission device, disposed above the air purification device.

Disclosed is an air-compression energy-storage and power-supply system having air purification capability through using solar energy. The system includes: a solar energy power supply device, it utilizes solar energy to produce power for the system itself, and for users to use in daytime; an air purification device, with its exhaust fan connected to a transformer power distribution device to obtain the power for rotation, so that outside air flows into the air cylinder after filtering by the air filter, then the purified air is exited from the air cylinder to provide purified air; an air-compression energy-storage and power-supply device, used to compress the purified air into high pressure for storage, and the high pressure purified air is released at night, for the generator to produce power for user to use at night; and a wind power transmission device, disposed above the air purification device.

Kinetic Energy Electric Power is an ecofriendly method of producing utility-scale electricity. It does not need high pressure steam to operate, there is no need for expensive steam turbines, nor do any of its operating plants need to be placed within any particular geographical location or weather condition such as sunny, windy, near water, etc. This invention is driven by heated air flowing through a system of solar thermal panels containing mineral oil, or another suitable heat-retaining liquid, that is circulated within a closed circuit piping network through one or more thermal energy storage tanks then through heat exchangers located in one or more large heat chambers that have a chimney stack extending skyward in order to facilitate the draft of air. As the air inside the chambers is heated and expands, it is forced out the top, because of stack effect, through the chimney, thus forcing fresh air to flow in through an opening at the chambers' bottom that brings outside air in via a passageway and travels through one or more paddlewheel-like wind turbines that drive multiple large, weighted flywheels that have multiple electric generators attached to them via gear/clutch mechanisms and producing utility-grade electricity 24/7, 365.

A system includes a thermal transpiration generator having a vacuum-sealed container, a rotatable shaft within the container, bearings supporting the shaft within the container, a first set of vanes secured to the shaft, a second set of vanes secured to the shaft, a first receiving lens for focusing energy on the first set of vanes, a second receiving lens for focusing energy on the second set of vanes, and a flywheel secured to the shaft. An electric generator is located outside the container and is coupled to the rotatable shaft with a magnetic coupler to be driven by rotation of the shaft. The system further includes a light energy collector system concentrating energy on each of the first and second receiving lenses, and an outer housing located about the container and the electric generator.

A system includes a thermal transpiration generator having a vacuum-sealed container, a rotatable shaft within the container, bearings supporting the shaft within the container, a first set of vanes secured to the shaft, a second set of vanes secured to the shaft, a first receiving lens for focusing energy on the first set of vanes, a second receiving lens for focusing energy on the second set of vanes, and a flywheel secured to the shaft. An electric generator is located outside the container and is coupled to the rotatable shaft with a magnetic coupler to be driven by rotation of the shaft. The system further includes a light energy collector system concentrating energy on each of the first and second receiving lenses, and an outer housing located about the container and the electric generator.

A downdraft-tornado-wind-chimney and a updraft-tornado-wind-chimney create the compressed-and-high-velocity-air for a rotating-turbine. A photovoltaic-powered-blower and a high-temperature-solar-collectors create the compressed-and-high-velocity-air. A downdraft-tornado-wind-chimney inject the compressed-and-high-velocity-air into a photovoltaic-powered-blower, a high-temperature-solar-collectors and a rotating-turbine. A updraft-tornado-wind-chimney extract the compressed-and-high-velocity-air from a photovoltaic-powered-blower, a high-temperature-solar-collectors and a rotating-turbine. The combination of the updraft-tornado-wind-chimney, a downdraft-tornado-wind-chimney, a photovoltaic-powered-blower, and a high-temperature-solar-collectors drive a rotating-turbine.

A downdraft-tornado-wind-chimney and a updraft-tornado-wind-chimney create the compressed-and-high-velocity-air for a rotating-turbine. A photovoltaic-powered-blower and a high-temperature-solar-collectors create the compressed-and-high-velocity-air. A downdraft-tornado-wind-chimney inject the compressed-and-high-velocity-air into a photovoltaic-powered-blower, a high-temperature-solar-collectors and a rotating-turbine. A updraft-tornado-wind-chimney extract the compressed-and-high-velocity-air from a photovoltaic-powered-blower, a high-temperature-solar-collectors and a rotating-turbine. The combination of the updraft-tornado-wind-chimney, a downdraft-tornado-wind-chimney, a photovoltaic-powered-blower, and a high-temperature-solar-collectors drive a rotating-turbine.

A flat solar chimney in accordance with the invention reduces a building's cooling load by dissipating the solar energy outside the building. What Applicants have done is construct an outer wall having an inner air space before the building structure. The solar light is absorbed by the outside layer which includes a porous metal layer. The heated high surface area foam metal creates a convective air flow in the channel that extends vertically with openings at the bottom and top. This flow dissipates the absorbed heat and is totally external to the building's interior.

In a further embodiment of the invention, a plurality of rectangular slats either horizontally or vertically disposed act as venetian style blinds. The dynamic blinds allow visual function or the solar chimney as per need.

Disclosed are systems and methods for pump control of a closed thermodynamic cycle system, such as a Brayton cycle. Operational parameters such as working fluid temperature, thermal fluid temperature, stream pressure, and power generation may be the basis for controlling a thermal fluid pump rate.

Disclosed are systems and methods for pump control of a closed thermodynamic cycle system, such as a Brayton cycle. Operational parameters such as working fluid temperature, thermal fluid temperature, stream pressure, and power generation may be the basis for controlling a thermal fluid pump rate.