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Prediction of Ingress Through Turbine Rim Seals: Part 2—Combined Ingress
Volume 4: Heat Transfer, Parts A and B, 2010In Part1 of this two-part paper, the orifice equations were solved for the case of externally-induced ingress, where the effects of rotational speed are negligible. In Part 2, the equations are solved, analytically and numerically, for combined ingress (CI) where the effects of both rotational speed and external flow are significant.
J. Michael Owen +2 more
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Prediction of Ingress Through Turbine Rim Seals—Part II: Combined Ingress
Journal of Turbomachinery, 2011In Part I of this two-part paper, the orifice equations were solved for the case of externally induced (EI) ingress, where the effects of rotational speed are negligible. In Part II, the equations are solved, analytically and numerically, for combined ingress (CI), where the effects of both rotational speed and external flow are significant. For the CI
J. Michael Owen +2 more
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2020
In this final chapter, you try out Traefik’s native integration with the Kubernetes container orchestration platform. Kubernetes is undoubtedly the most popular container microservices platform. Traefik integrates tightly with Kubernetes and can act as a first-class citizen in the Kubernetes ecosystem.
Rahul Sharma, Akshay Mathur
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In this final chapter, you try out Traefik’s native integration with the Kubernetes container orchestration platform. Kubernetes is undoubtedly the most popular container microservices platform. Traefik integrates tightly with Kubernetes and can act as a first-class citizen in the Kubernetes ecosystem.
Rahul Sharma, Akshay Mathur
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Prediction of Ingress Through Turbine Rim Seals—Part I: Externally Induced Ingress
Journal of Turbomachinery, 2011Rotationally induced (RI) ingress is caused by the negative pressure (relative to the external air) inside the wheel-space of a gas turbine; this negative pressure, which is created by the rotating flow in the wheel-space, drives the ingestion of hot gas through the rim seals.
J. Michael Owen +4 more
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Effect of Ingress on Turbine Discs
Volume 5C: Heat Transfer, 2015The ingress of hot gas through the rim seal of a gas turbine depends on the pressure difference between the mainstream flow in the turbine annulus and that in the wheel-space radially inward of the seal. This paper describes experimental measurements which quantify the effect of ingress on both the stator and rotor discs in a wheel-space pressurised by
GeonHwan Cho +3 more
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Ingress Protection code explained
World Pumps, 2009Heinz P. Bloch takes a look at the often-misunderstood Ingress Protection code, devised to classify the degrees of protection for an enclosure from dust, water and impact.
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Corrosion, 1991
A potentiostatic pulse technique was used to study the ingress of hydrogen in titanium (pure and grade 2) in an acetate buffer. Hydrogen ingress did not occur with pure titanium, indicating that the surface oxide is an effective barrier to hydrogen entry.
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A potentiostatic pulse technique was used to study the ingress of hydrogen in titanium (pure and grade 2) in an acetate buffer. Hydrogen ingress did not occur with pure titanium, indicating that the surface oxide is an effective barrier to hydrogen entry.
openaire +1 more source