This disclosure provides an apparatus, system and method for an energy capturing pod (ECP). The ECP includes a specialized funnel shell, a first turbine, and a second turbine. The specialized funnel shell is designed to accelerate in coming wind speed and is structured with a first choke point and a
This disclosure provides an apparatus, system and method for an energy capturing pod (ECP). The ECP includes a specialized funnel shell, a first turbine, and a second turbine. The specialized funnel shell is designed to accelerate in coming wind speed and is structured with a first choke point and a second choke point for wind. The first turbine is located at the first choke point. The second turbine is located at the second choke point.
대표청구항▼
1. An energy capturing pod (ECP) for accelerating air, the ECP comprising: a specialized funnel shell comprising: a horizontal top airfoil that is inverted and linear along a width of the specialized funnel shell,a horizontal bottom airfoil that is linear along the width of the specialized funnel sh
1. An energy capturing pod (ECP) for accelerating air, the ECP comprising: a specialized funnel shell comprising: a horizontal top airfoil that is inverted and linear along a width of the specialized funnel shell,a horizontal bottom airfoil that is linear along the width of the specialized funnel shell, andtwo vertical side airfoils that are linear along a height of the specialized funnel shell;a first row of independent turbines located at a neck of the specialized funnel shell; anda second row of independent turbines located at a back of the specialized funnel shell, wherein each turbine is on a separate axle. 2. The ECP of claim 1, wherein: the first row of independent turbines is a vertical row, andthe second row of independent turbines is a vertical row. 3. The ECP of claim 1, wherein: ends of the horizontal top airfoil and the two vertical side airfoils meet as corners; andends of the horizontal bottom airfoil and the two vertical side airfoils meet as corners. 4. The ECP of claim 1, further comprising: a first battery configured to store electrical energy generated by the first row of independent turbines and the second row of independent turbines;a processor coupled to the first battery and configured to: detect when the first battery is fully charged or removed; andtransfer the electrical energy to a second battery when the first battery is fully charged or removed. 5. The ECP of claim 4, further comprising an energy transfer port configured to export the electrical energy. 6. The ECP of claim 5, wherein the processor is further configured to transfer the electrical energy to the energy transfer port for exporting when the first battery is fully charged or removed. 7. The ECP of claim 5, wherein the processor is further configured to: receive, from an ECP server, instructions for regulating a transfer of the energy;transfer the electrical energy to the first battery and the energy transfer port according to the instructions received from the ECP server. 8. An energy capturing pod (ECP) system for capturing wind, the ECP system comprising: an ECP server configured to monitor and control a plurality of ECPs; andthe plurality of ECPS, each of the ECPs comprising: a specialized funnel shell comprising: a horizontal top airfoil that is inverted and linear along a width of the specialized funnel shell,a horizontal bottom airfoil that is linear along the width of the specialized funnel shell, andtwo vertical side airfoils that are linear along a height of the specialized funnel shell;a first row of independent turbines located at a neck of the specialized funnel shell; anda second row of independent turbines located at a back of the specialized funnel shell, wherein each turbine is on a separate axle. 9. The ECP system of claim 8, wherein: the first row of independent turbines are in a vertical row; andthe second row of independent turbines are in a vertical row. 10. The ECP system of claim 8, wherein: ends of the horizontal top airfoil and the two vertical side airfoils meet as corners; andends of the horizontal bottom airfoil and the two vertical side airfoils meet as corner. 11. The ECP system of claim 8, each of the ECPs further comprising: a first battery configured to store electrical energy generated by the first row of independent turbines and the second row of independent turbines; anda processor coupled to the first battery and configured to: detect when the first battery is fully charged or removed, andtransfer the electrical energy to a second battery when the first battery is fully charged or removed. 12. The ECP system of claim 11, further comprising an energy transfer port configured to export the electrical energy. 13. The ECP system of claim 12, wherein the processor is further configured to transfer the electrical energy to the energy transfer port for exporting when the first battery is fully charged or removed. 14. The ECP system of claim 12, wherein the processor is further configured to: receive, from the ECP server, instructions for regulating a transfer of the energy;transfer the electrical energy to the first battery and the energy transfer port according to the instructions received from the ECP server. 15. A method for controlling an energy capturing pod (ECP) for capturing wind comprising: increasing a speed of wind using a specialized funnel shell with a horizontal top airfoil that is inverted and linear along a width of the specialized funnel shell, a horizontal bottom airfoil that is linear along the width of the specialized funnel shell, and two vertical side airfoils that are linear along a height of the specialized funnel shell;generating electrical energy from wind using a first row of independent turbines located at a neck of the specialized funnel shell and a second row of independent turbines located at a back of the specialized funnel shell, wherein each turbine is on a separate axle. 16. The method of claim 15, wherein: the first row of independent turbines are in a vertical row, andthe second row of independent turbines are in a vertical row. 17. The method of claim 15, wherein: ends of the horizontal top airfoil and the two vertical side airfoils meet as corners, andends of the horizontal bottom airfoil and the two vertical side airfoils meet as corners. 18. The method of claim 15, further comprising exporting electrical energy using an energy transfer port. 19. The method of claim 18, further comprising: storing the electrical energy generated by the first row of independent turbines and the second row of independent turbines in a first battery;detecting when the first battery is fully charged or removed; andtransferring the electrical energy to the energy transfer port when the first battery is fully charged or removed. 20. The method of claim 18, further comprising: receiving, from an ECP server, instructions for regulating a transfer of the energy;transferring the electrical energy to a first battery and the energy transfer port according to the instructions received from the ECP server.
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이 특허에 인용된 특허 (35)
Alston Jerry L., Apparatus for converting aircraft exhaust into useful energy.
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