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1

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A combined Eulerian-volume of fraction-Lagrangian method for atomization simulation (1994)

Ziebarth, John P. ; Seung, S. P. ; Chen, C. P.

In: CASI

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Publication Date: 2019-07-13

Description: The tracking of free surfaces between liquid and gas phases and analysis of the interfacial phenomena between the two during the atomization and breakup process of a liquid fuel jet is modeled. Numerical modeling of liquid-jet atomization requires the resolution of different conservation equations. Detailed formulation and validation are presented for the confined dam broken problem, the water surface problem, the single droplet problem, a jet breakup problem, and the liquid column instability problem.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA-CR-193985 , NAS 1.26:193985

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2

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Turbulence models for compressible boundary layers (1994)

Coakley, T. J. ; Huang, P. G. ; Bradshaw, P.

In: Other Sources

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Publication Date: 2011-08-24

Description: It is shown that to satisfy the general accepted compressible law of the wall derived from the Van Driest transformation, turbulence modeling coefficients must actually be functions of density gradients. The transformed velocity profiles obtained by using standard turbulence model constants have too small a value of the effective von Karman constant kappa in the log-law region (inner layer). Thus, if the model is otherwise accurate, the wake component is overpredicted and the predicted skin friction is lower than the expected value.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA Journal (ISSN 0001-1452); 32; 4; p. 735-740

Format: text

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3

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Characterization of MOCVD fluid dynamics by laser velocimetry (1991)

Clark, I. O. ; Johnson, E. J. ; Hyer, P. V. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Three-component laser velocimetry techniques are applied to characterize the fluid dynamics of an MOCVD reactor. These methods provide three-dimensional quantitative measurements of the gas velocities inside the reactor at typical growth temperatures. The effects of buoyancy-induced convection are examined by comparing data from the hot reactor with cold reactor results. It was found that thermal convection dominated the fluid dynamics of the reactor at growth temperatures. Cold reactor tests showed unstable flow patterns that were subject to fluidic switching effects.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Journal of Crystal Growth (ISSN 0022-0248); 109; 24-30

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4

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Visualization of fluid dynamics at NASA Ames (1990)

Plessel, T. ; Walatka, P. P. ; Watson, V. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Some of the hardware and software tools and techniques in use at NASA's numerical aerodynamic simulation facility for the analysis of computational fluid dynamics are described. The visualization process can be illustrated by video tapes and stereo pictures. Although these visualization tools have dramatically improved the ability to conduct research in fluid dynamics, a comparison of the current environment for analysis with an 'ideal' environment illustrates that there are still major improvements that should be made. The most time-consuming task in future analyses of the increasingly complex computer simulations will be the extraction and clear display of the key features. In addition, the interface between the workstation and the scientist should be improved significantly. Current research on techniques for creating these improvements is described.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Computing Systems in Engineering (ISSN 0956-0521); 1; 2-4,

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5

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On the reverse flow ceiling jet in pool fire-ventilation crossflow interactions in a simulated aircraft cabin interior (1989)

Shakkottai, P. ; Back, L. H. ; Kwack, E. Y. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The behavior of the reverse flow ceiling jet against the ventilation flow from 0.58 to 0.87 m/s was investigated in a 1/3 scale model of a wide body aircraft interior. For all tests, strong reverse-flow ceiling jets of hot gases were detected well upstream of the fire. Both thicknesses of the reverse-flow ceiling jet and the smoke layer increased with the fire-crossflow parameter. The thickness of the smoke layer where the smoke flows along the main flow below the reverse-flow ceiling jet was almost twice that of the reverse-flow ceiling jet. Detailed spatial and time-varying temperatures of the gas in the test section were measured, and velocity profiles were also measured using a temperature compensated hot film.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

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6

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Simultaneous measurements of temperature, density, and pressure in a supersonic turbulent flow using laser-induced fluorescence (1985)

Gross, K. P. ; Mckenzie, R. L. ; Logan, P.

In: Other Sources

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Publication Date: 2011-08-19

Description: A pulsed laser-induced fluorescence technique is described that provides simultaneous measurements of temperature, density, and pressure in low-temperature, turbulent flows. The measurements are made with spatial and temporal resolution comparable to that obtained with modern laser anemometer techniques used for turbulent boundary layer research. The capabilities of the method are briefly described and its demonstration in a simple two-dimensional turbulent boundary layer at Mach 2 is reported. The results are compared with conventional hot-wire anemometer data obtained in the same flow.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

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7

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A Navier-Stokes Solution of Hull-Ring Wing-Thruster Interaction (1991)

Hartwich, P. ; Sundaram, P. ; Yang, C.-I.

In: CASI

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Publication Date: 2013-08-31

Description: Navier-Stokes simulations of high Reynolds number flow around an axisymmetric body supported in a water tunnel were made. The numerical method is based on a finite-differencing high resolution second-order accurate implicit upwind scheme. Four different configurations were investigated, these are: (1) barebody; (2) body with an operating propeller; (3) body with a ring wing; and (4) body with a ring wing and an operating propeller. Pressure and velocity components near the stern region were obtained computationally and are shown to compare favorably with the experimental data. The method correctly predicts the existence and extent of stern flow separation for the barebody and the absence of flow separation for the three other configurations with ring wing and/or propeller.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NAS-NRC, Eighteenth Symposium on Naval Hydrodynamics; p 687-696

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8

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A numerical study of bifurcations in a barotropic shear flow (1988)

Huerre, P. ; Meunier, G. ; Redekopp, L. G. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: In the last few years, more and more evidence has emerged suggesting that transition to turbulence may be viewed as a succession of bifurcations to deterministic chaos. Most experimental and numerical observations have been restricted to Rayleigh-Benard convection and Taylor-Couette flow between concentric cylinders. An attempt is made to accurately describe the bifurcation sequence leading to chaos in a 2-D temporal free shear layer on the beta-plane. The beta-plane is a locally Cartesian reduction of the equations describing the dynamicss of a shallow layer of fluid on a rotating spherical planet. It is a valid model for large scale flows of interest in meteorology and oceanography.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Studying Turbulence Using Numerical Simulation Databases, 2. Proceedings of the 1988 Summer Program; p 41-47

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9

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Algorithm development with applications to aerodynamics and aeroelasticity (1992)

Chaderjian, N. M. ; Goorjian, P. M. ; Guruswamy, G. P. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: The development of a streamwise upwind algorithm is presented. Applications of this algorithm to steady flow over a delta wing and unsteady flow over an oscillating wing, respectively, are covered. An extension to higher order accuracy for upwind methods is discussed. This scheme will use the compatibility relations for the extension. The use of multiple zones in the calculation of unsteady flows is considered. Multiple zones are one way to treat complex configurations, such as complete aircraft. Aeroelastic calculations are discussed. A procedure for aeroelastic calculations is described that simultaneously solves the aerodynamic and structural equations of motion. Sample calculations are given to illustrate the above.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: VKI, Computational Fluid Dynamics, Volume 2; 81 p

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10

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Numerical modeling for dilute and dense sprays (1992)

Ziebarth, J. P. ; Shang, H. M. ; Chen, C. P. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: We have successfully implemented a numerical model for spray-combustion calculations. In this model, the governing gas-phase equations in Eulerian coordinate are solved by a time-marching multiple pressure correction procedure based on the operator-splitting technique. The droplet-phase equations in Lagrangian coordinate are solved by a stochastic discrete particle technique. In order to simplify the calculation procedure for the circulating droplets, the effective conductivity model is utilized. The k-epsilon models are utilized to characterize the time and length scales of the gas phase in conjunction with turbulent modulation by droplets and droplet dispersion by turbulence. This method entails random sampling of instantaneous gas flow properties and the stochastic process requires a large number of computational parcels to produce the satisfactory dispersion distributions even for rather dilute sprays. Two major improvements in spray combustion modelings were made. Firstly, we have developed a probability density function approach in multidimensional space to represent a specific computational particle. Secondly, we incorporate the Taylor Analogy Breakup (TAB) model for handling the dense spray effects. This breakup model is based on the reasonable assumption that atomization and drop breakup are indistinguishable processes within a dense spray near the nozzle exit. Accordingly, atomization is prescribed by injecting drops which have a characteristic size equal to the nozzle exit diameter. Example problems include the nearly homogeneous and inhomogeneous turbulent particle dispersion, and the non-evaporating, evaporating, and burning dense sprays. Comparison with experimental data will be discussed in detail.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Goddard Space Flight Center, Tenth Workshop for Computational Fluid Dynamic Applications in Rocket Propulsion, Part 2; p 987-1012

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