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Mean flowfields in axisymmetric combustor geometries with swirl (1983)

Lilley, D. G. ; Rhode, D. L. ; Mclaughlin, D. K.

In: Other Sources

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Publication Date: 2019-06-28

Description: (Previously cited in issue 06, p. 860, Accession no. A82-17824)

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Format: text

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2

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Mean flowfields in axisymmetric combustor geometries with swirl (1982)

Rhode, D. L. ; Lilley, D. G. ; Mclaughlin, D. K.

In: Other Sources

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Publication Date: 2019-07-13

Description: Six flowfield configurations are investigated with sidewall angles of 90 and 45 deg, and swirl vane angles of 0, 45, and 70 deg. It is found that central recirculation zones occur for the swirling flow cases investigated, which extend from the inlet to x/D = 1.7, where x is the axial polar coordinate, and D is the test section diameter. Five-hole pitot probe pressure measurements are used to determine time-mean velocities, and corresponding flow situations are predicted and compared to results of experimental data. Excellent agreement is found for the nonswirling flow, although poor agreement is found for swirling flow cases, especially near the inlet. The discrepancy is attributed to the lack of realism in the turbulence model, and/or to inaccurate specification of time-mean velocity and turbulence energy distributions at the inlet.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 82-0177 , Aerospace Sciences Meeting; Jan 11, 1982 - Jan 14, 1982; Orlando, FL

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3

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Turbulence characteristics of an axisymmetric reacting flow (1984)

Gould, R. D. ; Thompson, H. D. ; Stevenson, W. H.

In: CASI

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Publication Date: 2016-06-07

Description: Turbulent sudden expansion flows are of significant theoretical and practical importance. Such flows have been the subject of extensive analytical and experimental study for decades, but many issues are still unresolved. Detailed information on reacting sudden expansion flows is very limited, since suitable measurement techniques have only been available in recent years. The present study of reacting flow in an axisymmetric sudden expansion was initiated under NASA support in December 1983. It is an extension of a reacting flow program which has been carried out with Air Force support under Contract F33615-81-K-2003. Since the present effort has just begun, results are not yet available. Therefore a brief overview of results from the Air Force program will be presented to indicate the basis for the work to be carried out.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Lewis Research Center Combust. Fundamentals Res.; p 189-198

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4

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Drop dynamics in space (1974)

Wang, T. G. ; Elleman, D. D. ; Saffren, M. M.

In: CASI

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Publication Date: 2016-06-07

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Proc. of the Intern. Colloq. on Drops and Bubbles, Vol. 1; p 266-299

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5

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Space Shuttle orbiter entry heating and TPS response: STS-1 predictions and flight data (1982)

Ried, R. C. ; Li, C. P. ; Derry, S. M. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: Aerothermodynamic development flight test data from the first orbital flight test of the Space Transportation System (STS) transmitted after entry blackout is given. Engineering predictions of boundary layer transition and numerical simulations of the orbiter flow field were confirmed. The data tended to substantiate preflight predictions of surface catalysis phenomena. The thermal response of the thermal protection system was as expected. The only exception is that internal free convection was found to be significant in limiting the peak temperature of the structure in areas which do not have internal insulation.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Langley Research Center Computational Aspects of Heat Transfer in Struct.; p 327-347

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6

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Normal modes of a compound drop (1982)

Saffren, M. ; Rhim, W. K. ; Elleman, D. D.

In: CASI

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Publication Date: 2016-06-07

Description: The modes are characterized by their frequency, the attendant displacement of fluid boundaries, and the flow pressure fields within the fluids. The drops consist of three fluids; a core fluid, a fluid shell surrounding the core, and a host fluid surrounding the shell. These fluids are assumed to be inviscid and incompressible, and the core and the shell to be concentric. The theory is obtained by linearization of the equations of fluid motion to the lowest order of nonlinearity that yields the normal modes. Numerical values of mode frequencies and the associated relative displacements of the fluid boundaries are presented for several specific systems, and the results compared with observations.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Proc. of the 2d Intern. Colloq. on Drops and Bubbles; p 7-14

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7

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Generation of a strong core centering force in a submillimeter compound droplet system (1982)

Young, A. T. ; Feng, I. A. ; Lee, M. C. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: By amplitude-modulating the driving voltage of an acoustic levitating apparatus, a strong core centering force was generated in a submillimeter compound droplet system suspended by the radiation pressure in a gaseous medium. Depending on the acoustic characteristics of the droplet system, it was found that the technique can be utilized advantageously in the multiple-layer coating of an inertial confinement fusion pellet.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Proc. of the 2d Intern. Colloq. on Drops and Bubbles; p 107-111

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8

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Acoustically induced oscillation and rotation of a large drop in space (1982)

Wang, T. G. ; Croonquist, A. P. ; Elleman, D. D. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: A 2.5 cm diameter water drop was successfully deployed and manipulated in a triaxial acoustic resonance chamber during a 240 sec low-gravity SPAR rocket flight. Oscillation and rotation were induced by modulating and phase shifting the signals to the speakers. Portions of the film record were digitized and analyzed. Spectral analysis brought out the n = 2, 3, 4 free oscillation modes of the drop, its very low-frequency center-of-mass motion in the acoustic potential well, and the forced oscillation frequency. The drop boundaries were least-square fitted to general ellipses, providing eccentricities of the distorted drop. The normalized equatorial area of the rotating drop was plotted vs a rotational parameter, and was in excellent agreement with values derived from the theory of equilibrium shapes of rotating liquid drops.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Proc. of the 2d Intern. Colloq. on Drops and Bubbles; p 31-38

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9

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Spectral methods for the Euler equations (1983)

Zang, T. A. ; Hussaini, M. Y. ; Salas, M. D. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Spectral methods for compressible flows are introduced in relation to finite difference and finite element techniques within the framework of the method of weighted residuals. Current spectral collocation methods are put in historical context. The basic concepts of both Fourier and Chebyshev spectral collocation methods are provided. Filtering strategies for both shock-fitting and shock-capturing approaches are also presented. Fourier shock capturing techniques are evaluated using a one-dimensional, periodic astrophysical 'nozzle' problem. Examples of shock-fitting approaches include a shock/acoustic wave interaction, shock/vortex interaction, and the classical blunt body problem. While the shock capturing spectral method does not yet show a clear advantage over second-order finite differences, equivalent accuracy can be obtained using shock fitting with far fewer grid points.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 83-1942

Format: text

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10

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Multiple jet impingement heat transfer characteristic: Experimental investigation of in-line and staggered arrays with crossflow (1980)

Florschuetz, L. W. ; Berry, R. A. ; Metzger, D. E. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Heat transfer characteristics were obtained for configurations designed to model the impingement cooled midchord region of air cooled gas turbine airfoils. The configurations tested were inline and staggered two-dimensional arrays of circular jets with ten spanwise rows of holes. The cooling air was constrained to exit in the chordwise direction along the channel formed by the jet orifice plate and the heat transfer surface. Tests were run for chordwise jet hole spacings of five, ten, and fifteen hole diameters; spanwise spacings of four, six, and eight diameters; and channel heights of one, two, three, and six diameters. Mean jet Reynolds numbers ranged from 5000 to 50,000. The thermal boundary condition at the heat transfer test surface was isothermal. Tests were run for sets of geometrically similar configurations of different sizes. Mean and chordwise resolved Nusselt numbers were determined utilizing a specially constructed test surface which was segmented in the chordwise direction.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-3217 , ERC-R-79034

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