Patent ID: 8479806

Claim:
A two-phase micro-channel heat sink comprising: a first plurality of juxtaposed channel walls, each wall having a wall thickness, wherein the first plurality of channel walls defines a corresponding first plurality of flow micro-channels extending longitudinally between adjacent walls, wherein each micro-channel in the first plurality of micro-channels defines a flow channel width and a flow channel height configured to accommodate a flow of coolant therein; a second plurality of juxtaposed channel walls spaced from the first plurality of juxtaposed channel walls, wherein the second plurality of juxtaposed channel walls defines a corresponding second plurality of flow micro-channels extending longitudinally between adjacent walls; and a substrate defining a boiling region adapted to accommodate flow boiling of the coolant and being thermally coupled to the first plurality of juxtaposed channel walls and the second plurality of juxtaposed channel walls, wherein said flow boiling of the coolant generates a two-phase flow of coolant, wherein at least one gap between the first plurality of channel walls and the second plurality of channel walls defines at least one corresponding transverse micro-channel extending transverse to the flow micro-channels such that the first and second pluralities of flow micro-channels are cross-connected and thereby configured to facilitate pressure equalization in the two-phase flow of coolant among the flow micro-channels of the first plurality and the second plurality of flow micro-channels and inhibit unstable flow oscillations among the flow micro-channels, wherein the at least one gap comprises a plurality of gaps defining a corresponding plurality of transverse micro-channels and the flow micro-channels define a flow channel width of about 100 μm, a wall thickness of about 100 μm, and a flow channel height of about 600 μm, and the transverse micro-channels have a similar width and height and are spaced apart at about 1 mm intervals along the flow direction.