A solar cell array assembly that includes a first solar cell having a first side and a second side; a second solar cell in a stacked below the first cell, the second cell having a first side and a second side; and a structural conductor disposed between the first cell and second cell; wherein the structural conductor being selected to support a weight of, at least, the first cell to maintain a selected distance between the first cell and the second cell; and wherein the structural conductor being electrically coupled to the second side of the first cell and the first side of the second cell.

A solar cell array assembly that includes a first solar cell having a first side and a second side; a second solar cell in a stacked below the first cell, the second cell having a first side and a second side; and a structural conductor disposed between the first cell and second cell; wherein the structural conductor being selected to support a weight of, at least, the first cell to maintain a selected distance between the first cell and the second cell; and wherein the structural conductor being electrically coupled to the second side of the first cell and the first side of the second cell.

A light-concentrating mechanism comprises an angle-selective reflection means that reflects light having an incident angle of at least a first threshold angle and transmits at least some of the light having an incident angle smaller than the first threshold angle, and an angle-increase reflection means that reflects incident light at an angle greater than the incident angle of said light, the two means being arranged to have a gap therebetween. The angle-increase reflection means reflects, at an angle equal to or greater than the first threshold angle, at least some of the light transmitted by the angle-selective reflection means, and the angle-selective reflection means reflects the light reflected by the angle-increase reflection means and has an angle that is equal to or greater than the first threshold angle. Light is propagated and concentrated by the gap between the angle-selective reflection means and the angle-increase reflection means.

A light-concentrating mechanism comprises an angle-selective reflection means that reflects light having an incident angle of at least a first threshold angle and transmits at least some of the light having an incident angle smaller than the first threshold angle, and an angle-increase reflection means that reflects incident light at an angle greater than the incident angle of said light, the two means being arranged to have a gap therebetween. The angle-increase reflection means reflects, at an angle equal to or greater than the first threshold angle, at least some of the light transmitted by the angle-selective reflection means, and the angle-selective reflection means reflects the light reflected by the angle-increase reflection means and has an angle that is equal to or greater than the first threshold angle. Light is propagated and concentrated by the gap between the angle-selective reflection means and the angle-increase reflection means.

A construction thermoacoustic partition to isolate areas from external or internal environments, refrigeration, and vehicles. The partition consists of a frame with airtightly glued insulating panels, transparent or not. If glass pane, frame, and panels are glued, they create an airtight chamber where pressure, light and solar tracking sensors are located. In its internal perimeter it has photovoltaic cells and a blind whose sheets are photovoltaic cells that make it self-sufficient in energy. The profile of the frame has channels to circulate air, where electric resistance is located, which in winter raises the temperature of the panel edges, in another, fans, temperature sensors, micro-pump, wires and reinforcements are located. The horizontal planes that create these channels have coextruded thermoacoustic bridges. It has a microprocessor with automatic or digitally modified instructions, with voice and remotely, so that components act in real time, depending to changes in the environment, which can be with Artificial Intelligence.

The present application relates to novel compounds and to devices which contain these compounds. The application also relates to a device for regulating the passage of energy from an outside space into an inside space, to a window containing the said device, and to uses of the said devices and compounds.

The present application relates to novel compounds and to devices which contain these compounds. The application also relates to a device for regulating the passage of energy from an outside space into an inside space, to a window containing the said device, and to uses of the said devices and compounds.

[Problem] To provide a light-concentrating mechanism that is suitable for photovoltaic power generation. [Solution] This light-concentrating mechanism comprises an angle selective reflection means that reflects light having an incident angle of at least a first threshold angle and transmits at least some of the light having an incident angle smaller than the first threshold angle, and an angle-increase reflection means that reflects incident light at an angle greater than the incident angle of said light, the two means being arranged so as to have a gap therebetween. The angle-increase reflection means reflects, at an angle that is equal to or greater than the first threshold angle, at least some of the light that has been transmitted by the angle-selective reflection means, and the angle-selective reflection means reflects the light that has been reflected by the angle-increase reflection means and has an angle that is equal to or greater than the first threshold angle, and light is propagated and concentrated by the gap between the angle-selective reflection means and the angle-increase reflection means.

[Problem] To provide a light-concentrating mechanism that is suitable for photovoltaic power generation. [Solution] This light-concentrating mechanism comprises an angle selective reflection means that reflects light having an incident angle of at least a first threshold angle and transmits at least some of the light having an incident angle smaller than the first threshold angle, and an angle-increase reflection means that reflects incident light at an angle greater than the incident angle of said light, the two means being arranged so as to have a gap therebetween. The angle-increase reflection means reflects, at an angle that is equal to or greater than the first threshold angle, at least some of the light that has been transmitted by the angle-selective reflection means, and the angle-selective reflection means reflects the light that has been reflected by the angle-increase reflection means and has an angle that is equal to or greater than the first threshold angle, and light is propagated and concentrated by the gap between the angle-selective reflection means and the angle-increase reflection means.

A building-integrated hybrid photovoltaic and radiant cooling device integrated into a building structure, including a chiller, a cooling device for cooling fluid supplied to a radiant cooling panel, a return pipe conveying the fluid from the radiant cooling panel to cool a photovoltaic device, and at least one supply pipe transporting the fluid from the photovoltaic device to the chiller, the cooling device reducing a surface temperature of the radiant cooling panel only to the extent necessary to also avoid condensation being formed on the radiant cooling panel, i.e. to just above the dew point.