Apparatus and method for mitigating thermal excursions in air core reactors due to wind effects

The claimed invention is: 1. An air core, dry type, power reactor of the type having multiple concentrically positioned winding layers extending along a central axis and above arms of a spider unit when the reactor is horizontally positioned with respect to a horizontal ground plane, the winding layers arranged in spaced-apart relation providing air gaps between the winding layers allowing air to flow along the winding layers, comprising: a deflector positioned to receive air from wind blowing toward the reactor and to guide the air in a vertical direction from the deflector and through the gaps, wherein the deflector comprises a plenum including a base plate and a plurality of vertical walls extending upward from the base plate, an intake opening to the plenum for receiving the air and an outlet from the plenum through which received air is directed upward toward the gaps. 2. The reactor of claim 1 wherein the deflector is positioned between the winding layers and the ground plane. 3. An air core, dry type, power reactor of the type having multiple concentrically positioned winding layers extending along a central axis and above arms of a spider unit when the reactor is horizontally positioned with respect to a horizontal ground plane, the winding layers arranged in spaced-apart relation providing air gaps between the winding layers allowing air to flow along the winding layers, comprising: a deflector positioned to receive air from wind blowing toward the reactor and to guide the air in a vertical direction from the deflector and through the gaps, wherein the deflector comprises a series of plena integrally formed with the base plate, each of the plena extending away from the central axis, wherein: the series of plena is positioned around the axis; and each of the plena is defined by a plurality of vertical walls extending upward from the base plate, an intake opening for receiving the air and an outlet through which received air is directed upward toward the gaps. 4. The reactor of claim 3 , wherein the base plate includes a cutout through which a leg member of the reactor extends. 5. The reactor of claim 3 , wherein at least one vertical wall defines a portion of each of two adjacent plena. 6. The reactor of claim 3 , wherein each plenum comprises two vertical walls unique to that plenum. 7. The reactor of claim 3 , wherein the deflector includes a base plate comprising a plurality of separate portions. 8. The reactor of claim 3 , wherein the deflector comprises a single base plate having an outer periphery which extends about the central axis and an inclined surface which rises from the outer periphery toward the central axis. 9. The reactor of claim 1 , wherein the base plate is frustoconical in shape. 10. The reactor of claim 1 wherein the reactor comprises an air cavity between the central axis and an inner-most one of the winding layers, and the base plate comprises a central opening through which air may travel from below the reactor into the cavity. 11. The reactor of claim 10 , further including a vertical plate extending about the central opening, above the first spider unit and into the air cavity along an inner surface of the inner-most winding layer. 12. The reactor of claim 1 , wherein the deflector comprises a series of plena integrally formed with the base plate, each of the plena extending away from the central axis, wherein: the series of plena is positioned around the axis; and each of the plena is defined by a plurality of vertical walls extending upward from the base plate, an intake opening for receiving the air and an outlet through which received air is directed upward toward the gaps. 13. The reactor of claim 12 , wherein the base plate includes a cutout through which a leg member of the reactor extends. 14. The reactor of claim 12 , wherein at least one vertical wall defines a portion of each of two adjacent plena. 15. The reactor of claim 12 , wherein each plenum comprises two vertical walls unique to that plenum. 16. The reactor of claim 12 wherein the deflector includes a base plate comprising a plurality of separate portions. 17. The reactor of claim 12 , wherein the deflector comprises a single base plate having an outer periphery which extends about the central axis and an inclined surface which rises from the outer periphery toward the central axis.