Enhanced spray cooling technique for wedge cooling
First Claim
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1. An oil-cooled electrical generator comprising:
- a rotor having coils positioned around a hollow shaft, an interior of the hollow shaft configured to receive shared oil from a gearbox;
one or more wedges interspersed between and in contact with the coils;
one or more spray pipes supported on radial pipe supports within the one or more wedges, the one or more spray pipes having holes formed therein;
a manifold ferrule circumscribing the shaft and being in fluid communication with the interior of the shaft; and
one or more manifold pipes in fluid communication with the manifold ferrule and the one or more spray pipes such that, upon rotation of the rotor, oil from the interior of the shaft emerges from the holes as spray, internally constrained within the one or more wedges, to internally cool the one or more wedges and provide for cooling of one or more adjacent coils.
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Abstract
A wedge cooling apparatus and method for cooling a rotating machine, such as a generator, disperses a spray of cooling fluid into the wedges of the generator via a pipe that runs along the length of each of the wedges. The pipe may include a plurality of spray delivery devices to spray cooling fluid from the pipe to the inside of the wedges. The spray cooling method results in a high heat transfer coefficient of about 2000-3000 W/m2C as opposed to conventional conduction cooling, which has a heat transfer coefficient of about 200-300 W/m2C. The apparatus and method of the present invention efficiently removes heat from high powered, high current density designed generators.
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Citations
15 Claims
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1. An oil-cooled electrical generator comprising:
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a rotor having coils positioned around a hollow shaft, an interior of the hollow shaft configured to receive shared oil from a gearbox; one or more wedges interspersed between and in contact with the coils; one or more spray pipes supported on radial pipe supports within the one or more wedges, the one or more spray pipes having holes formed therein; a manifold ferrule circumscribing the shaft and being in fluid communication with the interior of the shaft; and one or more manifold pipes in fluid communication with the manifold ferrule and the one or more spray pipes such that, upon rotation of the rotor, oil from the interior of the shaft emerges from the holes as spray, internally constrained within the one or more wedges, to internally cool the one or more wedges and provide for cooling of one or more adjacent coils. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A rotating machine rotor comprising:
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a shaft; a plurality of coils disposed on the shaft; one or more wedges disposed between the coils; bands securing the one or more wedges on the rotor; a manifold comprising a manifold ferrule adapted to circumscribe the shaft; one or more manifold pipes each having a first end attached to the manifold ferrule and a second, opposite end attached to a wedge pipe extending into the wedges, the wedge pipe being supported centrally in the wedge with one or more radial pipe supports; a plurality of oil channels running from an inside surface of the manifold ferrule to the wedge pipes; and a plurality of holes disposed along the wedge pipes, wherein the wedge pipes are configured to enable oil to can emerge from the holes in a cooling spray as a result of pressure produced by centrifugal force resulting from rotation of the rotor, and wherein the wedge pipes are configured to enable the cooling spray to impinge on interior surfaces of the wedge pipes and to be thereby constrained within the wedge pipes. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
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Specification