Fan system with integrated fan-shroud channel for reduced recirculation flow

What is claimed is: 1. A fan system ( 10 ) comprising: a ring fan ( 12 ) having a hub ( 30 ), a plurality of fan blades ( 32 ) and a ring structure ( 34 ), the hub ( 30 ) being rotatable about a rotary axis (A), the plurality of fan blades each ( 32 ) being disposed circumferentially about the hub ( 30 ) and having a first end ( 36 ), which is fixedly coupled to the hub ( 30 ), a second end ( 38 ), which is opposite the first end ( 36 ), a leading edge ( 40 ) and a trailing edge ( 42 ), the ring structure ( 34 ) having a ring member ( 46 ) and a flange member ( 48 ), the ring member ( 46 ) having a hollow cylindrical shape and being fixedly coupled to the second ends ( 38 ) each of the plurality of fan blades ( 32 ), the flange member ( 48 ) extending radially outwardly from the ring member ( 46 ); and a fan shroud ( 14 ) having an annular shroud flange ( 54 ), a shroud body ( 56 ) and a plurality of shroud guide vanes ( 58 ), the annular shroud flange ( 54 ) extending radially outwardly from the shroud body ( 56 ) and being disposed along the rotary axis (A) between the flange member ( 48 ) and the shroud body ( 56 ), the shroud body ( 56 ) being disposed about the ring member ( 46 ) and having a first body portion ( 70 ), a second body portion ( 72 ) and a divergent nozzle ( 74 ), the first body portion ( 70 ) being coupled to the shroud flange ( 54 ) and having a first interior surface ( 80 ) of a first diameter, the second body portion ( 72 ) being coupled to the first body portion ( 70 ) on a side opposite the shroud flange ( 54 ), the second body portion ( 72 ) having a second interior surface ( 82 ) proximate the first interior surface ( 80 ) of the first body portion ( 70 ), the second interior surface ( 82 ) having a second diameter that is smaller than the first diameter, the divergent nozzle ( 74 ) being coupled to the second body portion ( 72 ) on a side of the second body portion ( 72 ) that is opposite the first body portion ( 70 ), the divergent nozzle ( 74 ) diverging outwardly from the second body portion ( 72 ), each of the plurality of shroud guide vanes ( 58 ) extending over the shroud flange ( 54 ) and at least a portion of the first interior surface ( 80 ) on the first body portion ( 70 ); wherein a recirculation throttle ( 88 ) is formed by the shroud body ( 56 ) and the ring member ( 46 ) at a location where the first and second body portions ( 70 , 72 ) of the shroud body ( 56 ) intersect one another; and wherein the divergent nozzle ( 74 ) and a trailing end ( 50 ) of the ring member ( 46 ) cooperate to form a dynamic sealing feature ( 90 ). 2. The fan system ( 10 ) of claim 1 , wherein the dynamic sealing feature ( 90 ) is configured to create a first air pressure in a space ( 102 ) between the ring member ( 46 ) and the second body portion ( 72 ) that is equal to a second air pressure in a space ( 104 ) between the flange member ( 48 ) and the shroud flange ( 54 ) during operation of the fan system ( 10 ) when the ring fan ( 12 ) is rotating relative to the fan shroud ( 14 ) within a predetermined speed range. 3. The fan system ( 10 ) of claim 1 , wherein the dynamic sealing feature ( 90 ) is configured to minimize a pressure difference between a first air pressure in a space ( 102 ) between the ring member ( 46 ) and the second body portion ( 72 ) that is equal to a second air pressure in a space ( 104 ) between the flange member ( 48 ) and the shroud flange ( 54 ) during operation of the fan system ( 10 ) when the ring fan ( 12 ) is rotating relative to the fan shroud ( 14 ) within a predetermined speed range. 4. The fan system ( 10 ) of claim 1 , wherein each of the plurality of shroud guide vanes ( 58 ) have a first vane portion ( 96 ) and a second vane portion ( 98 ), the first vane portions ( 96 ) extending from the shroud flange ( 54 ) in a direction toward the flange member ( 48 ) and curving about the rotary axis (A), the second vane portions ( 98 ) extending radially inwardly from the first interior surface ( 80 ) and being straight or curving about the rotary axis (A) to a lesser extent than that of the first vane portions ( 96 ). 5. The fan system ( 10 ) of claim 1 , wherein the ring member ( 46 ) extends along the rotary axis (A) forwardly of the leading edges ( 40 ) of the plurality of fan blades ( 32 ). 6. The fan system ( 10 ) of claim 1 , wherein the trailing end ( 50 ) of the ring member ( 46 ) is disposed forwardly of the trailing edges ( 42 ) of the plurality of fan blades ( 32 ). 7. The fan system ( 10 ) of claim 1 , further comprising an electric motor ( 16 ) having a stator ( 18 ) and a rotor ( 20 ), the stator ( 18 ) being coupled to the fan shroud ( 14 ), the rotor ( 20 ) being coupled to ring fan ( 12 ).