A treatment system for solid bulk materials such as limestone or mineral ore is provided having a belt conveyor configured for receiving the solid bulk material upon a transportation surface thereof and for displacing the material from a charging region to a discharging region according to a rectilinear path and a heating chamber, configured to receive a solar radiation conveyed by an external field of heliostats. A length portion of the transportation surface passes within or below the heating chamber so that thermal energy associated with the solar radiation is transferred to the bulk material by direct impingement or by reflection or re-irradiation by internal surfaces or walls of the heating chamber.

Tray assemblies and methods of their use to dry products with sunlight. Such a tray assembly includes at least a first base having four side walls, a bottom wall, legs configured to support the bottom wall above the surface when resting thereon, side wall holes in the side walls, and bottom wall holes in the bottom wall. A cover is releasably coupled to the base to define an enclosure between the cover, the side walls, and the bottom wall. At least one window is provided in the cover to allow infrared radiation to pass therethrough that is absorbed by interior surfaces of the base to cause an increase in a temperature within the enclosure sufficient to increase a rate of drying products located within the enclosure.

This invention is a combination washer and dryer powered by solar energy. The solar energy unit collects solar energy and converts it into electrical energy which is stored in an energy storage device. The solar energy unit connects to the main enclosure to power the electronic control circuits and the motor in the main enclosure. Within the main enclosure is a second energy storage device. The main enclosure also comprises a receptacle for liquid, detergent, and the clothing bin. The clothing bin is rotated or agitated by a motor according to instructions provided by the electronic control circuit and powered by either the solar panel directly or by one of the two energy storage devices.

The present invention comprises an apparatus having a base that has the ability to inlet air, a heater contained within the core of the base whereby the heater can be turned on or turned off either manually, or an auto-fashion, circuitry that allows control of the clothes drying process, outlets that deliver hot air, cool air, or alternating hot air, cool air be passed to attached clothes and a hanging mechanism that allows various clothes to be hung on the apparatus.

A photovoltaic intensification system includes a solar array stand, further including a mounting base; a mounting column; a solar array frame, a solar array, solar array lenses or reflectors, a light sensor, an elevation actuator, and a horizontal actuator; and a solar system cart, further including: a cart enclosure, a radiant solar cooker chamber, cart reflectors, and cart wheels. Further included are a vertical tilt ring, a strong-arm rod, a mass pivot rod, an elevation actuating ring, a horizontal tilt ring, and mounting brackets. A power and control system for photovoltaic intensification further includes a battery charger, a battery, an A/C inverter, a solar control unit, a remote control, a thermo electric freezer component, and a heat exchanger. A solar control unit includes a light sensor control circuit and a temperature control circuit, or a processor, a non-transitory memory, an input/output, an actuator controller, and a temperature controller.

A solar oven designed for year-round use is readily-accessible and easy to use by simply removing a protective oven cover. The solar oven replicates the mainstream cook's current pattern with standard stoves, requiring little set-up or storage. Access to the solar oven is from the front and solar heat is stored in an upper oven chamber. By changing the solar oven chamber above the door, heat remains in the trapezoidal-pyramid cover during transfers and condensation is reduced to a minimum. By raising and lowering the floor, the solar oven allows the gasketed oven chamber to perform food cooking while being protected to prevent loss of heat. The solar oven remains available in all weather, does not fade in color and is attractive to most mainstream cooks.

There is described here a method of desiccation of aerobic granules.

To position a solar oven radiation collection device, a structural extension assembly extends in a radial direction with respect to a structure. A moveable transport provides linear movement of the solar oven radiation collection device along an axis of the structural extension assembly. A linear deploy electric motor is used to control linear movement of the solar oven radiation collection device along the axis of the structural extension assembly. A solar altitude electric motor is used to adjust orientation of the solar oven radiation collection device to take into account changes in solar altitude with respect to time. A solar azimuth electric motor is used to adjust orientation of the solar oven radiation collection device to take into account changes in azimuth with respect to time.

The present invention is directed to time and energy efficient drying of organic matter. The present invention features a drying system which may include a solar tower, a shredder, and an input conveyor for transporting the organic matter to conveyors positioned in a cascading configuration. The system may further include sensors for collecting information, and a control system for receiving the information to determine a speed of the conveyors. The system may further include an output conveyor for transporting the organic matter from the conveyors to a storage. The system may further include water condensers to reclaim water evaporated from the organic matter to be stored and repurposed. The system may further include a solar power system for converting sunlight into power for the system. Sunlight may cause a thermal gradient within the solar tower, causing air in an upper portion to be hotter than air in a lower portion.

An example light concentrator system for precision thermal processes includes a stabilizing base and a structure attached to the stabilizing base. The structure includes support arms. An azimuth control rotates the structure. A primary solar collector on the support arms is rotatable about two axes based on various positions of the sun throughout the day. Elevation actuators adjust an angle of the primary solar collector relative to position of the sun. Collector distancing actuators adjust distance of the primary solar collector toward and away from the sun. A variety of Thermal Processing Units (TPUs) are configured for a specific process or set of processes implementing concentrated solar energy from the primary solar collector at the receiver plane. Position of the spot can be moved on a fixed receiver plane through translation of the lens relative to the support arms or through rotation of a redirecting mirror.