Fan with pivotable blades, and corresponding electronics cooling system and methods

What is claimed is: 1. A fan, comprising: a housing defining a duct; a spindle concentrically located about a central axis within the duct; one or more fan blades extending radially from the spindle toward a surface of the duct; wherein each fan blade is pivotable about a radial axis between a closed position where the each fan blade is in contact with each adjacent fan blade and an axially displaced open position where the each fan blade is physically separated from the each adjacent fan blade; one or more actuators operable to automatically transition the each fan blade from the axially displaced open position to the closed position when the spindle stops rotating; a driver concentrically located within the spindle, such that the spindle rotates around the driver, the driver comprising one or more actuation arms, wherein rotation of the driver causes each actuation arm to radially displace a lever, thereby transitioning the each blade to the axially displaced open position. 2. The fan of claim 1 , wherein the each fan blade draws air through the duct when the spindle rotates and the each fan blade is in the axially displaced open position. 3. The fan of claim 2 , wherein the each fan blade restricts airflow through the duct when in the closed position. 4. The fan of claim 1 , the one or more actuators comprising one or more springs, each spring applying a loading force on the each fan blade to bias the each fan blade toward the closed position. 5. The fan of claim 4 , the each fan blade comprising a shaft and a paddle, the each spring positioned about the shaft and biasing the paddle toward the closed position. 6. The fan of claim 5 , the each fan blade further comprising the lever coupled to the shaft opposite the paddle. 7. The fan of claim 6 , the lever comprising a weight wherein inertia of the weight transitions the each fan blade from the closed position to the axially displaced open position when the spindle exceeds a predefined rotational velocity. 8. The fan of claim 1 , further comprising a rib limiting radial displacement of the lever when the spindle exceeds a predefined rotational velocity. 9. The fan of claim 8 , wherein a radial displacement is limited to about forty-five degrees about the radial axis. 10. An electronics cooling system, comprising: a chassis; a plurality of fans coupled to a sidewall of the chassis; wherein each fan comprises: a housing defining a duct; a spindle centrally located within the duct; and one or more fan blades extending radially from the spindle toward a surface of the duct and pivotable about a radial axis between a closed position restricting airflow through the duct and an axially displaced open position drawing air through the duct when the spindle rotates; wherein each of the one or more fan blades automatically transitions from the axially displaced open position to the closed position when the spindle ceases rotation; and a driver situated concentrically within the spindle, such that the spindle rotates around the driver, the driver automatically transitioning the one or more fan blades to the axially displaced open position when the driver rotates, the driver comprising one or more actuation arms, wherein rotation of the driver causes each actuation arm to radially displace a lever, thereby transitioning the each blade to the axially displaced open position. 11. The electronics cooling system of claim 10 , wherein the each of the one or more fan blades automatically transitions to the axially displaced open position when the spindle exceeds a predefined number of revolutions per minute. 12. A method for a fan, the method comprising: causing a spindle of the fan, situated within a duct, to rotate, thereby causing one or more blades extending radially from the spindle to automatically pivot about a radial axis from a closed position restricting airflow through the duct to an axially displaced open position drawing air through the duct; automatically returning the one or more blades to the closed position when the spindle ceases rotating; providing a driver concentrically located within the spindle, such that the spindle rotates around the driver, the driver comprising one or more actuation arms, wherein rotation of the driver causes each actuation arm to radially displace a lever coupled to each fan blade from a first position to a radially displaced second position to cause the each fan blade to pivot about the radial axis from the closed position restricting airflow through the duct to the axially displaced open position drawing air through the duct.