Abstract: An arrangement utilizes diffractive, reflective and/or refractive optical elements combined to intensify and homogenize electromagnetic energy, such as natural sunlight in the terrestrial environment, for purposes such as irradiating a target area with concentrated homogenized energy. A heat activated safety mechanism is also described.
Abstract: An arrangement utilizes diffractive, reflective and/or refractive optical elements combined to intensify and homogenize electromagnetic energy, such as natural sunlight in the terrestrial environment, for purposes such as irradiating a target area with concentrated homogenized energy. A heat activated safety mechanism is also described.
Abstract: Arrangements may include a concentrator constructed and arranged to receive incident electromagnetic energy and to concentrate the incident electromagnetic energy to a greater intensity level; an electromagnetic receiving device comprising a first surface constructed and arranged to receive the concentrated electromagnetic energy, and a second surface opposite the first surface; a heat transport device comprising at least one duct and a first surface; and a thermal interface layer physically connected to at least a portion of the second surface of the electromagnetic energy receiving device and the first surface of the heat transport device, the thermal interface material being both electrically and thermally conductive. Related methods and additional arrangements are also described.
Type:
Application
Filed:
October 23, 2008
Publication date:
October 29, 2009
Applicant:
SUNRGI
Inventors:
KRS Murthy, Robert S. Block, Allen J. Amaro
Abstract: An arrangement utilizes diffractive, reflective and/or refractive optical elements combined to intensify and homogenize electromagnetic energy, such as natural sunlight in the terrestrial environment, for purposes such as irradiating a target area with concentrated homogenized energy. A heat activated safety mechanism is also described.
Abstract: An arrangement includes a solar energy receiving device and at least one component in thermal communication with the solar energy receiving device, the at least one component formed from a composite material, the composite material may comprise a matrix of carbon-based fibers, the carbon-based fibers comprising one or more of: mesophase carbon, carbon nanotubes, graphite, graphene and pan carbon. According to a further optional aspect, there is provided a solar energy receiving device comprising a first surface for receiving solar energy incident thereon, and a second opposing surface, the second surface being electrically conductive; at least one heat transport device in direct contact with at least a portion of the second surface, the at least one heat transport device may comprise at least one internal passage and at least one duct; and a heat transport media flowing within the at least one internal passage and at least one duct. Related methods and additional arrangements are also described.
Type:
Application
Filed:
October 23, 2008
Publication date:
July 9, 2009
Applicant:
SUNRGI
Inventors:
Murthy KRS, Robert S. Block, Allen J. Amaro