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1

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Use of gas liquid chromatography for monitoring the fatty acid composition of canadian rapeseed (1983)

Daun, J. K. ; Mazur, P. B. ; Marek, C. J.

Wiley

In: Journal of the American Oil Chemists' Society. 1983; 60(10): 1751-1754. Published 1983 Oct 01. doi: 10.1007/bf02680348.

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Publication Date: 1983-10-01

Print ISSN: 0003-021X

Electronic ISSN: 1558-9331

Topics: Chemistry and Pharmacology , Process Engineering, Biotechnology, Nutrition Technology

Published by Wiley

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2

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Planar compressible reacting shear layer (1987)

Marek, C. J.

In: CASI

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Publication Date: 2006-06-13

Description: Information on the planar compressible reacting shear layer is given in viewgraph form. topics covered include heat transfer in 3D flow regions, chemical reacting flows, an unsteady 2D compressible reacting code (MRVC2D), a plane mixing layer, and critical needs in shear layer physics.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: NASA. Ames Research Center, NASA CFD Validation Workshop; p 402-414

Format: text

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3

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Combustion (1971)

Grobman, J. ; Marek, C. J. ; Niedzwiecki, R. W. ; [et al.]

In: CASI

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Publication Date: 2006-04-20

Description: Effects of engine design and propulsion system configurations on combustion efficiency

Keywords: PROPULSION SYSTEMS

Type: AIRCRAFT PROPULSION 1971; P 97-134

Format: text

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4

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Simulations of free shear layers using a compressible kappa-epsilon model (1991)

Yu, S. T. ; Marek, C. J. ; Chang, C. T.

In: CASI

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Publication Date: 2013-08-31

Description: A two-dimensional, compressible Navier-Stokes equation with a k-epsilon turbulence model is solved numerically to simulate the flow of a compressible free shear layer. The appropriate form of k and epsilon equations for compressible flow is discussed. Sarkar's modeling is adopted to simulate the compressibility effects in the k and epsilon equations. The numerical results show that the spreading rate of the shear layers decreases with increasing convective Mach number. In addition, favorable comparison was found between the calculated results and experimental data.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Center for Modeling of Turbulence and Transition (CMOTT). Research Briefs: 1990; p 152-160

Format: application/pdf

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5

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Combustor turbulence (1985)

Marek, C. J.

In: CASI

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Publication Date: 2016-06-07

Description: The turbulence entering the turbine is produced in the combustor. High turbulence levels from the combustor can alter the location of the transition point on the turbine vane. The dynamics of turbulence and the progress being made in computing the flow are discussed.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Transition in Turbines; p 5-16

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6

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Stratospheric cruise emission reduction program (1977)

Szaniszlo, A. J. ; Marek, C. J. ; Diehl, L. A. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: A recently implemented NASA effort specifically aimed at reducing cruise oxides of nitrogen from high-altitude aircraft is discussed. The desired emission levels and the combustor technology required to achieve them are discussed. A brief overview of the SCERP operating plan is given. Lean premixed-prevaporized combustion and some of the potential difficulties that are associated with applying this technique to gas turbine combustors are examined. Base technology was developed in several key areas. These fundamental studies are viewed as a requirement for successful implementation of the lean premixed combustion technique.

Keywords: AIRCRAFT PROPULSION AND POWER

Type: Aircraft Eng. Emissions; p 357-391

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Experimental Reacting Hydrogen Shear Layer Data at High Subsonic Mach Number (1996)

Wey, C. ; Wey, C. C. ; Marek, C. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The flow in a planar shear layer of hydrogen reacting with hot air was measured with a two-component laser Doppler velocimeter (LDV) system, a schlieren system, and OH fluorescence imaging. It was compared with a similar air-to-air case without combustion. The high-speed stream's flow speed was about 390 m/s, or Mach 0.71, and the flow speed ratio was 0.34. The results showed that a shear layer with reaction grows faster than one without; both cases are within the range of data scatter presented by the established data base. The coupling between the streamwise and the cross-stream turbulence components inside the shear layers was low, and reaction only increased it slightly. However, the shear layer shifted laterally into the lower speed fuel stream, and a more organized pattern of Reynolds stress was present in the reaction shear layer, likely as a result of the formation of a larger scale structure associated with shear layer corrugation from heat release. Dynamic pressure measurements suggest that coherent flow perturbations existed inside the shear layer and that this flow became more chaotic as the flow advected downstream. Velocity and thermal variable values are listed in this report for a computational fluid dynamics (CFD) benchmark.

Keywords: Aircraft Propulsion and Power

Type: NASA-TP-3342 , NAS 1.60:3342 , E-7693

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Modern CFD applications for the design of a reacting shear layer facility (1991)

Marek, C. J. ; Yu, S. T. ; Chang, C. T.

In: Other Sources

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Publication Date: 2019-06-28

Description: The RPLUS2D code, capable of calculating high speed reacting flows, has been adopted to design a compressible shear layer facility. In order to create reacting shear layers at high convective Mach numbers, hot air streams at supersonic speeds, render by converging-diverging nozzles, must be provided. A finite rate chemistry model is used to simulate the nozzle flows. Results are compared with one-dimensional, chemically equilibrium solutions. Additionally, a two equation turbulence model with compressibility effects has been successfully incorporated with the RPLUS code. The model has been applied to simulate a supersonic shear layer. Preliminary results show favorable comparisons with the experimental data.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: AIAA PAPER 91-0577

Format: text

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9

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Random vortex method for combusting flows (1984)

Marek, C. J.

In: CASI

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Publication Date: 2016-06-07

Description: The random vortex method (RVM) of Chorin was developed by the recirculating flows. The RVM method models turbulence from first principles, tracking the vorticity and obtaining the interaction of vorticity with the bulk flow field. A computer program was produced called MIMOC, Modeling the Interface Motion of Combustion, which can be used to calculate the reacting flow field behind a rearward facing step. Several comparisons between experimental data and calculations were made. The RVM methood computes qualitatively good results, but the quantitative agreement as yet is not completely satisfactory. Much of the difficulty may be caused by the treatment of boundary conditions and the techniques used for obtaining statistical averages of velocities and turbulence quantities. For the rearward facing step the computed reattachment length equals the experimental value. However, the reverse velocity in the recirculation zone is over predicted by 300 percent. In the calculations, a uniform entrance velocity was assumed with no boundary layer at the step lip. This high velocity may be overdriving the reverse flow region.

Keywords: INORGANIC AND PHYSICAL CHEMISTRY

Type: Combust. Fundamentals Res.; p 297-300

Format: application/pdf

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10

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Predicting Two-Dimensional, Unsteady Turbulent Combustion (1986)

Ghoniem, A. F. ; Oppenheim, A. K. ; Marek, C. J.

In: Other Sources

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Publication Date: 2019-06-28

Description: MIMOC calculates flow field and flame propagation in turbulent combustion tunnel. Program employs algorithm for turbulent combustion modeling described by Ghoniem, Chorin, and Oppenheim. Program used to study flow field in model combustor, formed by rearward-facing step in channel, in terms of vorticity field, velocity field, turbulent shear stresses, flame contours, and concentration field.

Keywords: MECHANICS

Type: LEW-14027 , NASA Tech Briefs (ISSN 0145-319X); 9; 3; P. 137

Format: text

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