Abstract: A climate control apparatus is disclosed. The climate control apparatus of the present invention switches between types of heat depending on the ambient temperature of an outdoor space. The climate control apparatus includes an exterior housing, an electric heating coil, a steam heating coil, a temperature sensor, a controller, and a heating switch to heat an indoor space more efficiently than existing climate control apparatuses.
Abstract: An electric vehicle charging unit is disclosed. The electric vehicle charging unit uses a specially configured housing and a turbine to charge the batteries of a vehicle when attached to such vehicle. In particular, the electric vehicle charging unit preferably uses the housing to channel air flow, during operation of the vehicle, into the turbine to generate power, which can be used to charge one or more batteries of the vehicle.
Abstract: An exhaust system for generating electricity is disclosed. The exhaust system for generating electricity uses a specially configured housing, a plurality of static velocity increasing devices, a turbine, and a fan to generate electricity and concurrently exhaust air from a building. In particular, the specially configured housing preferably is designed to be significantly more aerodynamic and reduces any turbulence inside the housing.
Abstract: An energy recapturing apparatus is disclosed. The energy recapturing apparatus is housed within a frame that is configured to fit within a preexisting fluid passageway. The frame is further attached to a sliding mechanism, which enables the frame to be easily removed from the preexisting fluid passageway. Further, the frame is configured to accept at least one turbine that contains a plurality of blades. The turbine is able to convert the energy of fluid movement into electricity.
Abstract: An energy capture device is disclosed. The energy capture device, notably, comprises a turbine and a static velocity increasing device, surrounded by an enclosure. The turbine is configured to receive air that has been sped up by the static velocity increasing device. The turbine is then able to convert the energy of fluid movement into electricity.
Abstract: An energy recapturing apparatus is disclosed. The energy recapturing apparatus is housed within a frame that is configured to fit within a preexisting fluid passageway. The frame is further attached to a sliding mechanism, which enables the frame to be easily removed from the preexisting fluid passageway. Further, the frame is configured to accept at least one turbine that contains a plurality of blades. The turbine is able to convert the energy of fluid movement into electricity.