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An annular finger seal is adapted to be interposed between a high pressure upstream region and a lower pressure downstream region to provide noncontact sealing along a rotatable member. The finger seal comprises axially juxtaposed downstream and upstream finger elements, each having integrally space

An annular finger seal is adapted to be interposed between a high pressure upstream region and a lower pressure downstream region to provide noncontact sealing along a rotatable member. The finger seal comprises axially juxtaposed downstream and upstream finger elements, each having integrally spaced fingers. The downstream fingers each have a lift pad, whereas the upstream fingers lack a pad. Each pad extends in a downstream direction. Each upstream finger is spaced from the rotating member a greater distance than each pad. Upon sufficient rotational speed of the rotating member, each pad is operative to lift and ride on a thin film of fluid intermediate the rotating member and the pad.

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1. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, the finger seal comprising:circumferentially extending first and second finger elements,wherein the first and seco

1. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, the finger seal comprising:circumferentially extending first and second finger elements,wherein the first and second finger elements each include a plurality of spaced integral fingers, wherein the fingers define gaps therebetween,wherein the first and second finger elements are adjacently positioned so that the fingers of each block the gaps of the other,a lift pads,wherein each lift pad extends from a respective finger,wherein each lift pad is adapted to be arranged adjacent a rotating member, whereby at least a portion of each lift pad is operative to lift away from the rotating member upon at least one of sufficient rotational speed of the rotating member or hydrostatic pressure loading adjacent the lift pad,wherein when the first finger element is positioned downstream of the second finger element, all lift pads of the finger seal extend from their respective finger in a downstream direction. 2. The apparatus according to claim 1wherein the first finger element is an annular finger element,wherein the first finger element has an innermost diameter,wherein the second finger element is an annular finger element,wherein each second finger element finger has an innermost diameter,wherein each second finger element finger innermost diameter is larger than the first finger element innermost diameter. 3. The apparatus according to claim 2 wherein the first finger element includes lift pads, wherein each lift pad of the first finger element has an innermost diameter, wherein each second finger element finger innermost diameter is larger than each lift pad innermost diameter of the first finger element. 4. The apparatus according to claim 3 wherein each lift pad of the first finger element has an outermost diameter, wherein each second finger element finger innermost diameter is smaller than each lift pad outermost diameter of the first finger element. 5. The apparatus according to claim 2 and further comprising a forward cover plate, an aft cover plate, a forward spacer, an aft spacer, a seal dam, and a pressure balance cavity. 6. The apparatus according to claim 1 wherein the fingers of only the first finger element each include a lift pad extending therefrom. 7. The apparatus according to claim 1 wherein each lift pad has a greater axial dimension than its respective finger. 8. The apparatus according to claim 1 wherein each lift pad extends in a direction away from the other one of the first and second finger elements. 9. The apparatus according to claim 1 and further comprising an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure,wherein the first finger element is positioned downstream of the second finger element,wherein all lift pads extend in a downstream direction. 10. The apparatus according to claim 9 and further comprising a rotatable member,wherein each lift pad is arranged adjacent the rotatable member, whereby at least a portion of each lift pad is operative to lift away from the rotatable member upon at least one of sufficient rotational speed of the rotatable member or hydrostatic pressure loading adjacent the lift pad. 11. The apparatus according to claim 10 wherein the second finger element is spaced from the rotatable member. wherein the groove pattern comprises one of a herringbone groove pattern, a double herringbone groove pattern, a buckets groove pattern, or a combination of grooves having varying widths and lengths. 12. The apparatus according to claim 11 wherein the finger seal provides sealing to the rotatable member, and wherein the second finger element remains spaced from the rotatable member during the sealing. 13. The apparatus according to claim 10wherein the rotatable member comprises a rotor, wherein the rotor comprises a groove pattern thereon, wherein the groove pattern is operative to generate hydrodynamic lift during rotation of the rotor,wherein the groove pattern comprises one of a herringbone groove pattern, a double herringbone groove pattern, a buckets groove pattern, or a combination of grooves having varying widths and lengths. 14. The apparatus according to claim 1 wherein the at least a portion of each lift pad is operative to lift away from the rotating member as a result of at least hydrostatic pressure loading adjacent the lift pad. 15. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, the finger seal comprising:a circumferentially extending downstream finger element,wherein the downstream finger element includes a plurality of spaced integral downstream fingers,wherein the downstream fingers define gaps therebetween,wherein each downstream finger includes a lift pad extending in a downstream direction, wherein each lift pad is adapted to be arranged adjacent a rotating member, whereby at least a portion of each lift pad is operative to lift away from the rotating member upon at least one of sufficient rotational speed of the rotating member or hydrostatic pressure loading adjacent the lift pad,a circumferentially extending upstream finger element,wherein the upstream finger element includes a plurality of spaced integral upstream fingers,wherein the upstream fingers define gaps therebetween,wherein the upstream finger element has an innermost diameter larger than an innermost diameter of the downstream finger element,wherein the upstream and downstream finger elements are adjacently positioned so that the fingers of each block the gaps of the other. 16. The apparatus according to claim 15 wherein each lift pad has an innermost diameter, wherein the innermost diameter of the upstream finger element is larger than the innermost diameter of each lift pad. 17. The apparatus according to claim 16 wherein each lift pad has an outermost diameter, wherein the innermost diameter of the upstream finger element is smaller than the outermost diameter of each lift pad. 18. The apparatus according to claim 15 wherein the fingers of only the downstream finger element each include a lift pad. 19. The apparatus according to claim 15 and further comprising an upstream region of relatively high fluid pressure, a downstream region of relatively lower fluid pressure, and a rotatable member,wherein the downstream finger element is positioned downstream of the upstream finger element,wherein each lift pad extends in a downstream direction,wherein each lift pad is arranged adjacent the rotatable member, whereby at least a portion of each lift pad is operative to lift away from the rotatable member upon at least one of sufficient rotational speed of the rotatable member or hydrostatic pressure loading adjacent the lift pad,wherein the upstream finger element is spaced from the rotatable member. 20. The apparatus according to claim 15 and further comprising a forward cover plate, an aft cover plate, a forward spacer, an aft spacer, a seal dam, and a pressure balance cavity. 21. The apparatus according to claim 15 wherein the lift pads comprise at least one lift pad from a group comprising: lift pads including a circumferential groove, converging flow axial tapered lift pads, converging flow circumferentially tapered lift pads, combination of axially and circumferentially tapered lift pads, axial Rayleigh-step lift pads, circumferential Rayleigh-step lift pads, circumferential step lift pads, orifice-compensated lift pads, orifice-compensated hydrostatic lift pads, orifice-compensated hydrostatic lift pads including a pocket, tapered outer diameter lift pads, rib stiffened lift pads, tapered rib lift pads, multi ribbed lift pads, and lift pads including a fillet adjacent a lift pad outside diameter. 22. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, the finger seal comprising:circumferentially extending first and second finger elements,wherein the first and second finger elements each include a plurality of spaced integral fingers, wherein the fingers define gaps therebetween,wherein the first and second finger elements are adjacently positioned so that the fingers of each block the gaps of the other,a lift pad extending from each finger of at least the first finger element,wherein each first finger element lift pad has an innermost diameter,wherein each first finger element lift pad has an outermost diameter,wherein each second finger element finger has an innermost diameter,wherein each second finger element finger innermost diameter is larger than each first finger element lift pad innermost diameter,wherein each second finger element finger innermost diameter is smaller than each first finger element lift pad outermost diameter,wherein each lift pad is adapted to be arranged adjacent a rotating member, whereby at least a portion of each lift pad is operative to lift away from the rotating member upon at least one of sufficient rotational speed of the rotating member or hydrostatic pressure loading adjacent the lift pad. 23. The apparatus according to claim 22 wherein when the first finger element is positioned downstream of the second finger element, each lift pad extends in a downstream direction. 24. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, the finger seal comprising:circumferentially extending first and second finger elements,wherein the first and second finger elements each include a plurality of spaced integral fingers, wherein the fingers define gaps therebetween,wherein the first and second finger elements are adjacently positioned so that the fingers of each block the gaps of the other,wherein the fingers of only the first finger element each include a lift pad extending therefrom,wherein each lift pad is adapted to be arranged adjacent a rotating member, whereby at least a portion of each lift pad is operative to lift away from the rotating member upon at least one of sufficient rotational speed of the rotating member or hydrostatic pressure loading adjacent the lift pad. 25. The apparatus according to claim 24 wherein when the first finger element is positioned downstream of the second finger element, each lift pad extends in a downstream direction. 26. An apparatus including:a finger seal adapted to be interposed between an upstream region of relatively high fluid pressure and a downstream region of relatively lower fluid pressure, wherein the finger seal comprising:a circumferentially extending downstream finger element,wherein the downstream finger element includes a plurality of spaced integral downstream fingers,wherein the downstream fingers define gaps therebetween,wherein each downstream finger includes a lift pad extending therefrom, wherein each lift pad extends in a downstream direction, wherein each lift pad has an innermost diameter, wherein each lift pad has an outermost diameter, wherein each lift pad is adapted to be arranged adjacent a rotating member, whereby at least a portion of each lift pad is operative to lift away from the rotating member upon at least one of sufficient rotational speed of the rotating member or hydrostatic pressure loading adjacent the lift pad,a circumferentially extending upstream finger element,wherein the upstream finger element includes a plurality of spaced integral upstream fingers,wherein the upstream fingers define gaps therebetween, wherein the upstream and downstream finger elements are adjacently positioned so that the fingers of each block the gaps of the other,wherein each upstream finger is d evoid of a lift pad,wherein each upstream finger has an innermost diameter, wherein each upstream finger innermost diameter is larger than each lift pad innermost diameter, wherein each upstream finger innermost diameter is smaller than each lift pad outermost diameter,an upstream cover plate, a downstream cover plate, an upstream spacer, a downstream spacer, a seal dam, and a pressure balance cavity,wherein the pressure balance cavity is at least partly created by the downstream spacer, the downstream cover plate, and the seal dam.