Abstract: A method for operating a solar thermal system. The method includes providing a photovoltaic apparatus coupled to a solar thermal apparatus. In a preferred embodiment, the solar thermal apparatus comprises flow region having a first measurement region and a second measurement region. The first measurement region is configured by a spatial distance to the second measurement region according to one or more embodiments. The present method also includes receiving electrical information associated with operation of the photovoltaic apparatus and receiving thermal information associated with operation of the solar thermal apparatus. In a specific embodiment, the thermal information is derived from the first measurement region and the second measurement region.

Abstract: A solar energy system. The system includes a thermal solar system comprising a plurality of thermal modules spatially configured as an N by M array. In a specific embodiment, the plurality of thermal modules are configured to form an aperture region and a backside region. The system has an air moving device comprising a drive device coupled to a blower device. In a specific embodiment, the drive device is spatially disposed within a fluid drive region. The system has a controller operably coupled to the air moving device.

Abstract: A method for operating a thermal solar system, e.g., solar system, photovoltaic system, thermal system, includes providing a thermal array including a plenum. The thermal array may be subjected to a freezing condition, which can include, for example, one or more ice particles and/or crystals, e.g., ice crystal, frost, snow, sleet. The method includes operating a fan device coupled to a drive device in a first direction to cause fluid flow from a second region to a first region that includes at least the plenum for the thermal array. The fan is coupled to the drive device disposed in a fluid flow region between the first region and second regions. The method also includes transferring thermal energy to the thermal array using at least the flow of fluid from the second region to the first region to cause the one or more ice particles and/or crystals to thaw for removal of the one or more ice particles and/or crystals.

Abstract: A method provides a ventilation control compliant with an adopted ventilation standard for efficient energy usage and conservation of energy resources. The method includes operating a home energy system to generate solar energy within a daily active period and draw fresh air from an ambient region, setting a daily ventilation period as a fractional period of a day, the ventilation period being coincident with the active period during a heating period for the home or a time period after the active period during a cooling period for the home, determining a target volume, determining a flow rate for delivering the fresh air during the ventilation period, performing ventilation in the ventilation period to deliver the fresh air into the home using the flow rate, and monitoring an accumulated total ventilation volume of the delivered fresh air until the accumulated total ventilation volume is within a vicinity of a target volume.