A seal ring for a rotatable shaft in a turbo machine includes a seal body configured for disposing around the shaft wherein a radial gap is defined between an inner surface of the seal body and the shaft. An upstream surface defined by the seal body extends from the inner surface, and an annular obs
A seal ring for a rotatable shaft in a turbo machine includes a seal body configured for disposing around the shaft wherein a radial gap is defined between an inner surface of the seal body and the shaft. An upstream surface defined by the seal body extends from the inner surface, and an annular obstruction extends from the upstream surface of the seal body, wherein the obstruction is spaced away from the inner surface.
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1. A seal ring for a rotatable shaft in a turbo machine, the seal ring comprising: a seal body configured for disposing around the rotatable shalt, wherein a radial gap is defined between an inner surface of the seal body and the rotatable shaft,the inner surface of the seal body having an annular g
1. A seal ring for a rotatable shaft in a turbo machine, the seal ring comprising: a seal body configured for disposing around the rotatable shalt, wherein a radial gap is defined between an inner surface of the seal body and the rotatable shaft,the inner surface of the seal body having an annular groove and an annular helical groove;an upstream surface defined by the seal body and extending from the inner surface;an annular obstruction extending from the upstream surface of the seal body, wherein the annular obstruction is spaced away from the inner surface; anda plurality of slots formed in an upstream face of the annular obstruction, wherein the plurality of slots are angled relative to the inner surface of the seal body, and a depth of each slot of the plurality of slots is less than a thickness of the annular obstruction. 2. The seal ring of claim 1, wherein the annular obstruction is an annular rib. 3. A seal ring for a rotatable shaft in a turbo machine, the seal ring comprising: a seal body configured for disposing around the rotatable shalt, wherein a radial gap is defined between an inner surface of the seal body and the rotatable shaft,the inner surface of the seal body having an annular groove and an annular helical groove;an upstream surface defined by the seal body and extending from the inner surface, wherein the upstream surface at least partially defines a seal fluid passageway that fluidly communicates with the radial gap;an annular obstruction extending from the upstream surface of the seal body, wherein the annular obstruction maintains a positive differential pressure in the seal fluid passageway proximate the radial gap; anda plurality of slots formed in an upstream face of the annular obstruction, wherein the plurality of slots are angled relative to the inner surface of the seal body, and a depth of each slot of the plurality of slots is less than a thickness of the annular obstruction. 4. The seal ring of claim 3, wherein the annular obstruction is spaced apart from the inner surface of the seal body. 5. The seal ring of claim 3, wherein the annular obstruction is an annular rib. 6. A sealing system for a rotatable shaft in a turbo machine, the sealing system comprising: a first seal ring configured for disposing around the rotatable shaft, wherein a radial gap is defined between an inner surface of the first seal ring and the rotatable shaft,the inner surface of the seal body having an annular groove and an annular helical groove;a second seal ring configured for disposing around the rotatable shaft, wherein the radial gap is further defined between an inner surface of the second seal ring and the rotatable shaft, and further wherein the second seal ring is positioned upstream from the first seal ring; anda seal fluid passageway defined between the first seal ring and the second seal ring, wherein the seal fluid passageway fluidly communicates with the radial gap, and further wherein the first seal ring includes,an upstream surface extending from the inner surface of the first seal ring, wherein the upstream surface at least partially defines the seal fluid passageway,an annular obstruction extending from the upstream surface of the first seal ring into the seal fluid passageway, wherein the annular obstruction is spaced apart from the inner surface of the first seal ring, anda plurality of slots formed in an upstream face of the annular obstruction, wherein the plurality of slots are angled relative to the inner surface of the first seal ring, and a depth of each slot of the plurality of slots is less than a thickness of the annular obstruction. 7. The seal system of claim 6, wherein an area of the seal fluid passageway adjacent the first seal ring defines an entrance region for the radial gap, and further wherein the annular obstruction is positioned proximate the entrance region. 8. The seal system of claim 6, wherein the annular obstruction maintains a positive differential pressure in the seal fluid passageway proximate the radial gap. 9. The seal system of claim 6, wherein the annular obstruction is an annular rib.
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Wilhite John E. (Glendale AZ) Lange Ronald E. (Glendale AZ), Automated safestore stack generation and move in a fault tolerant central processor.
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