A solar collector with reflecting surfaces according to the present invention prevents overheating of the solar collector by reflecting the radiation in a way that the light beams, by means of a first transparent surface, are corrected to the preferred angle and further directed towards channels. On a second transparent surface the beams are directed again and on a third transparent surface the light beams are reflected if in the channels is air. If the working fluid flows through the channels, on the third surface there is no reflection, so the light beams pass through the opaque part of an absorber where the solar radiation is converted into the thermal energy that is then removed by the working fluid.

A solar energy capture, conversion and storage system for use on a roof of a building for capturing and converting incident solar radiation to heat and electricity. The invention provides an optimized solar energy capture and conversion system that monitors immediately available incident radiation comprising a mounting structure which supports a matrix in which is embedded a conduit containing a working fluid. The fluid or fluid mixture includes at least one hydro-fluoro-ether (HFE). Valves are arranged to open/close ports which connect the solar energy capture system to either a combined heat/electrical generating system or an energy storage system that incorporates a phase change material to store heat energy. Control of the valves is supervised by an energy management system.

A solar energy capture, conversion and storage system for use on a roof of a building for capturing and converting incident solar radiation to heat and electricity. The invention provides an optimized solar energy capture and conversion system that monitors immediately available incident radiation comprising a mounting structure which supports a matrix in which is embedded a conduit containing a working fluid. The fluid or fluid mixture includes at least one hydro-fluoro-ether (HFE). Valves are arranged to open/close ports which connect the solar energy capture system to either a combined heat/electrical generating system or an energy storage system that incorporates a phase change material to store heat energy. Control of the valves is supervised by an energy management system.

Inventive concentrated solar power systems using solar receivers, and related devices and methods, are generally described.

Inventive concentrated solar power systems using solar receivers, and related devices and methods, are generally described.

A solar collector system comprising at least one heliostat and an inflatable cover configured to protectively conceal the at least one heliostat while it tracks the sun. The inflatable cover comprises a flexible membrane, which is transparent and colorless so that sunlight is transmitted through the cover. The cover may comprise an elastomeric material such as ethylene tetrafluoroethylene (ETFE). The solar collector system may further include a pump for inflating the inflatable cover, a pressure relief valve configured to prevent air pressure in the inflatable cover from exceeding a predetermined threshold, and a pressure sensor configured to automatically turn on the pump when the internal pressure falls below a predetermined threshold. The inflatable cover effectively removes wind loading from the heliostats, thus enabling the heliostats to use low-power, less-expensive actuators.

A concentrator tube comprises a reflector portion having two walls; and an aperture closing an opening to the reflector portion. The aperture and the reflector portion extend longitudinally. The aperture is substantially flat relative to curvature of the reflector portion.

A system includes an algae bioreactor that contains an algae slurry, a heat exchanger in fluid communication with the algae bioreactor to receive the algae slurry from the algae bioreactor and heat and increase a pressure of the algae slurry, and one or more valves and a flash vessel in fluid communication with a discharge of the heat exchanger to flash the algae slurry and create steam and algae biomass. A separator receives the algae biomass from the flash vessel and separates oils from the algae biomass to generate a biofuel.

A receiver for solar concentrating systems including a container including at least one transparent wall configured to receive solar rays from a solar concentrator and defining at least one cavity housing, a conversion module configured to convert solar energy taken from the solar rays into thermal and/or electrical energy and housed within part of the cavity close to the wall and separated from the wall by a slot, and transparent optical gel housed within the cavity and configured to completely occupy at least the slot to shield the conversion module.

A receiver for solar concentrating systems including a container including at least one transparent wall configured to receive solar rays from a solar concentrator and defining at least one cavity housing, a conversion module configured to convert solar energy taken from the solar rays into thermal and/or electrical energy and housed within part of the cavity close to the wall and separated from the wall by a slot, and transparent optical gel housed within the cavity and configured to completely occupy at least the slot to shield the conversion module.