20240014778. IMPROVED SOLAR CONCENTRATOR simplified abstract (GREENETICA DISTRIBUTION S.R.L.)
Contents
IMPROVED SOLAR CONCENTRATOR
Organization Name
GREENETICA DISTRIBUTION S.R.L.
Inventor(s)
Antonio Sichirollo of Montebelluna (IT)
Andrea Biasutti of PORDENONE (IT)
IMPROVED SOLAR CONCENTRATOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240014778 titled 'IMPROVED SOLAR CONCENTRATOR
Simplified Explanation
The abstract describes a solar concentrator system that includes a support structure with a main axis, a reflecting mirror that can rotate around a transversal rotation axis, and a concave shaped profile to focus solar rays towards a focal zone. The system also includes a receiver to acquire the focused solar rays and a controller with a processor and motor to move the mirror on command.
- The support structure defines a main axis transversal to the ground.
- The reflecting mirror is constrained to the support and can rotate around a transversal rotation axis.
- The concave shaped profile is used to focus solar rays towards a focal zone.
- The receiver acquires the focused solar rays.
- The controller, which includes a processor and motor, moves the mirror around the axes relative to the support.
Potential applications of this technology:
- Solar power generation: The system can be used to concentrate solar rays onto a receiver, which converts them into electrical energy.
- Solar heating: The focused solar rays can be used for heating purposes in various applications, such as water heating or space heating.
- Solar cooking: The concentrated solar rays can be utilized for cooking food in solar cookers.
Problems solved by this technology:
- Increased efficiency: By using a concentrator system, a larger amount of solar energy can be captured and utilized, leading to improved efficiency compared to traditional solar panels.
- Space optimization: The concentrator system allows for the collection of solar energy in a smaller area, making it suitable for installations with limited space.
Benefits of this technology:
- Higher energy output: The concentrator system enables the collection of a larger amount of solar energy, resulting in increased energy output.
- Versatility: The system can be used for various applications, including power generation, heating, and cooking.
- Cost-effectiveness: By maximizing the use of solar energy, the concentrator system can provide a cost-effective solution for renewable energy generation.
Original Abstract Submitted
solar concentrator including support defining a main axis transversal to ground, reflecting mirror constrained to the support and defining a rotation axis transversal to the main axis around which the mirror can rotate relative to the support, and a concave shaped profile to focus solar rays towards a focal zone, a receiver to acquire the focused solar rays, controller to move, on command, the mirror around the axes relative to the support and including a processor and motor. the receiver includes acquisition strings parallel to the rotation axis, operationally connected to the processing generator and for converting the solar rays into electrical energy. the processor to detect the electrical energy quantity acquired by each string with a predetermined sampling frequency, to calculate the sum of the electrical energies and move the mirror along a spiral trajectory until identifying a mirror position at which the sum is maximum.