A system for providing electrical energy to heating and cooling units associated with a building. Conduits are positioned within the building, such that the end portions are open to exterior wall surfaces of the building. Wind deflector mechanisms positioned at the end portions of the conduits direc
A system for providing electrical energy to heating and cooling units associated with a building. Conduits are positioned within the building, such that the end portions are open to exterior wall surfaces of the building. Wind deflector mechanisms positioned at the end portions of the conduits direct wind from the exterior wall surfaces into the conduits, impacting venturi elements and wind collector devices positioned within the conduits. The venturi elements are pivotally mounted within the conduits to accelerate the wind towards the wind collectors regardless of in which direction the wind flows, rotating the wind collectors operatively associated with a wind turbine device. The wind turbine device converts mechanical energy to electrical energy which is provided to the heating and cooling units.
대표청구항▼
1. A method for providing electrical energy to a climate control system for a building, comprising: determining airflow direction within a plurality of conduits based on the direction of environmental wind impacting exterior wall surfaces of the building, the conduits extending through the building
1. A method for providing electrical energy to a climate control system for a building, comprising: determining airflow direction within a plurality of conduits based on the direction of environmental wind impacting exterior wall surfaces of the building, the conduits extending through the building and being disposed between adjacent floors with each conduit having first and second end portions open to the exterior wall surfaces of the building;based on the airflow direction, moving air inlet elements between an inward position and an outward position at the first and second end portions of the conduits, the inward position directing the environmental wind from the exterior wall surfaces of the building into the conduits, the outward position allowing the airflow to exit the end portions of the conduits;accelerating the airflow within the conduits with venturi elements pivotally mounted within the conduits, the venturi elements causing the airflow to accelerate towards a wind collector device positioned within the building, the accelerated wind causing the wind collector device to rotate, producing mechanical energy;converting the mechanical energy produced by the rotation of the wind collector device into electrical energy with a wind turbine device; andsupplying the electrical energy from the wind turbine device to the climate control system associated with the building. 2. The method of claim 1, further comprising circulating air through the conduits and the building with an impeller. 3. The method of claim 1, further comprising storing the electrical energy in a battery after converting the mechanical energy into electrical energy. 4. The method of claim 1, wherein the climate control system comprises a heating unit. 5. The method of claim 1, wherein the climate control system comprises a cooling unit. 6. A method for providing electrical energy to a climate control system for a building, comprising: directing wind from exterior wall surfaces of the building into a plurality of conduits extending through the building to a central portion of the building, the conduits being disposed between adjacent floors with each conduit having an end portion open to the exterior wall surfaces of the building;accelerating airflow within the conduits with venturi elements pivotally mounted within the conduits, the venturi elements moving between a first position and a second position to allow for bidirectional airflow, the first position causing the airflow to accelerate within the conduits towards the end portions of the conduits, the second position causing the airflow to accelerate within the conduits towards a wind collector device positioned within the central portion of the building, the accelerated wind causing the wind collector device to rotate, producing mechanical energy;converting the mechanical energy produced by the rotation of the wind collector device into electrical energy with a wind turbine device; andsupplying the electrical energy from the wind turbine device to the climate control system associated with the building. 7. The method of claim 6, further comprising moving air inlet elements between an inward position and an outward position at the end portions of the conduits, the inward position directing environmental wind from the exterior wall surfaces of the building into the conduits, the outward position allowing airflow to exit the end portions of the conduits. 8. The method of claim 6, further comprising circulating air through the conduits and the building with an impeller. 9. The method of claim 6, further comprising storing the electrical energy in a battery after converting the mechanical energy into electrical energy. 10. The method of claim 6, wherein the climate control system comprises a heating unit. 11. The method of claim 6, wherein the climate control system comprises a cooling unit.
Tallal, Jr., Joseph J.; Chalker, Daniel J.; Warren, Jr., Sanford E.; Flores, Edwin S., System and building for generating electricity using wind power.
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