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Turbulent two-phase flow in annular seals (1986)

Beatty, P. A. ; Hughes, W. F.

In: Other Sources

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Publication Date: 2019-06-28

Description: Steady, turbulent two-phase fluid flow in a rotating annular seal with no eccentricity is analyzed. The fluid is assumed to be a homogeneous mixture of liquid and vapor in thermodynamic equilibrum. Further, the flow is assumed to be adiabatic, but the effects due to heat generation by viscous dissipation are accounted for fully. Solution of the model governing differential equations is accomplished by use of a fourth-order Runge-Kutta numerical integration scheme. The calculation of mass leakage rates under choked and unchoked conditions are discussed and the phenomenon of all-liquid choked flow is explained. Several numerical examples are presented supposing cyrogenic oxygen as the sealed fluid.

Keywords: MECHANICAL ENGINEERING

Type: ASLE PREPRINT 86-AM-4G-3

Format: text

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Dynamics of face and annular seals with two-phase flow (1988)

Beeler, Richard M. ; Hughes, William F. ; Basu, Prithwish ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A detailed study was made of face and annular seals under conditions where boiling, i.e., phase change of the leaking fluid, occurs within the seal. Many seals operate in this mode because of flashing due to pressure drop and/or heat input from frictional heating. Some of the distinctive behavior characteristics of two phase seals are discussed, particularly their axial stability. The main conclusions are that seals with two phase flow may be unstable if improperly balanced. Detailed theoretical analyses of low (laminar) and high (turbulent) leakage seals are presented along with computer codes, parametric studies, and in particular a simplified PC based code that allows for rapid performance prediction: calculations of stiffness coefficients, temperature and pressure distributions, and leakage rates for parallel and coned face seals. A simplified combined computer code for the performance prediction over the laminar and turbulent ranges of a two phase flow is described and documented. The analyses, results, and computer codes are summarized.

Keywords: MECHANICAL ENGINEERING

Type: NASA-CR-183352 , NAS 1.26:183352

Format: application/pdf

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Centrifugal inertia effects in two-phase face seal films (1987)

Beeler, R. M. ; Hughes, W. F. ; Basu, P.

In: Other Sources

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Publication Date: 2019-07-12

Description: A simplified, semianalytical model has been developed to analyze the effect of centrifugal inertia in two-phase face seals. The model is based on the assumption of isothermal flow through the seal, but at an elevated temperature, and takes into account heat transfer and boiling. Using this model, seal performance curves are obtained with water as the working fluid. It is shown that the centrifugal inertia of the fluid reduces the load-carrying capacity dramatically at high speeds and that operational instability exists under certain conditions. While an all-liquid seal may be starved at speeds higher than a 'critical' value, leakage always occurs under boiling conditions.

Keywords: MECHANICAL ENGINEERING

Type: ASLE Transactions (ISSN 0569-8197); 30; 177-186

Format: text

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