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Laser-Doppler measurements of bubble dynamics (1984)

Brankovic, A. ; Currie, I.G. ; Martin, W.W.

American Institute of Physics

In: Physics of Fluids. 1984; 27(2): 348. Published 1984 Jan 01. doi: 10.1063/1.864619.

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Publication Date: 1984-01-01

Print ISSN: 0031-9171

Topics: Physics

Published by American Institute of Physics

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Effects of turbulence compressibility and unsteadiness in compression corner flow (1994)

Brankovic, A. ; Zeman, O.

In: CASI

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Publication Date: 2013-08-31

Description: The structure of the separated flow region over a 20 degree compression corner at a free-stream Mach number of 2.84 is investigated computationally using a Reynolds averaged Navier Stokes (R.A.N.S.) solver and kappa-epsilon model. At this Mach number and ramp angle, a steady-state recirculation region of order delta(sub o) is observed, with onset of a 'plateau' in the wall pressure distribution near the corner. At lower ramp angles, separation is negligible, while at an angle of 24 degrees, separation regions of length 2 delta(sub o) are expected. Of interest here is the response of the mathematical model to inclusion of the pressure dilatation term for turbulent kinetic energy. Compared with the experimental data of Smits and Muck (1987), steady-state computations show improvement when the pressure dilatation term is included. Unsteady computations, using both unforced and then forced inlet conditions, did not predict the oscillatory motion of the separation bubble as observed in laboratory experiments. An analysis of the separation bubble oscillation and the turbulent boundary layer (T.B.L.) frequencies for this flow suggests that the bubble oscillations are of nearly the same order as the turbulent frequencies, and therefore difficult for the model to separate and resolve.

Keywords: FLUID MECHANICS AND HEAT TRANSFER

Type: Stanford Univ., Studying Turbulence Using Numerical Simulation Databases. 5: Proceedings of the 1994 Summer Program; p 301-311

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Modeling of a Sequential Two-Stage Combustor, Supplement (2005)

Liu, N.-S. ; Brankovic, A. ; Hendricks, R. C. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: A sequential two-stage, natural gas fueled power generation combustion system is modeled to examine the fundamental aerodynamic and combustion characteristics of the system. The modeling methodology includes CAD-based geometry definition, and combustion computational fluid dynamics analysis. Graphical analysis is used to examine the complex vortical patterns in each component, identifying sources of pressure loss. The simulations demonstrate the importance of including the rotating high-pressure turbine blades in the computation, as this results in direct computation of combustion within the first turbine stage, and accurate simulation of the flow in the second combustion stage. The direct computation of hot-streaks through the rotating high-pressure turbine stage leads to improved understanding of the aerodynamic relationships between the primary and secondary combustors and the turbomachinery.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2005-212631/SUPPL , ISROMAC10-2004-037-Suppl , E-14193/SUPPL , 10th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery; Mar 07, 2004 - Mar 11, 2004; Honolulu, HI; United States

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Modeling of a Sequential Two-Stage Combustor (2005)

Brankovic, A. ; Liu, N.-S. ; Hendricks, J. A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A sequential two-stage, natural gas fueled power generation combustion system is modeled to examine the fundamental aerodynamic and combustion characteristics of the system. The modeling methodology includes CAD-based geometry definition, and combustion computational fluid dynamics analysis. Graphical analysis is used to examine the complex vortical patterns in each component, identifying sources of pressure loss. The simulations demonstrate the importance of including the rotating high-pressure turbine blades in the computation, as this results in direct computation of combustion within the first turbine stage, and accurate simulation of the flow in the second combustion stage. The direct computation of hot-streaks through the rotating high-pressure turbine stage leads to improved understanding of the aerodynamic relationships between the primary and secondary combustors and the turbomachinery.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2005-212631 , ISROMAC10-2004-037 , E-14193 , 10th International Symposium on Transport Phenomena and Dynamics of Rotating Machinery; Mar 07, 2004 - Mar 11, 2004; Honolulu, HI; United States

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Experimental and Computational Study of Trapped Vortex Combustor Sector Rig With Tri-Pass Diffuser (2004)

Ryder, R. C. ; Liu, N.-S. ; Duncan, B. S. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: The Trapped Vortex Combustor (TVC) potentially offers numerous operational advantages over current production gas turbine engine combustors. These include lower weight, lower pollutant emissions, effective flame stabilization, high combustion efficiency, excellent high altitude relight capability, and operation in the lean burn or RQL modes of combustion. The present work describes the operational principles of the TVC, and extends diffuser velocities toward choked flow and provides system performance data. Performance data include EINOx results for various fuel-air ratios and combustor residence times, combustion efficiency as a function of combustor residence time, and combustor lean blow-out (LBO) performance. Computational fluid dynamics (CFD) simulations using liquid spray droplet evaporation and combustion modeling are performed and related to flow structures observed in photographs of the combustor. The CFD results are used to understand the aerodynamics and combustion features under different fueling conditions. Performance data acquired to date are favorable compared to conventional gas turbine combustors. Further testing over a wider range of fuel-air ratios, fuel flow splits, and pressure ratios is in progress to explore the TVC performance. In addition, alternate configurations for the upstream pressure feed, including bi-pass diffusion schemes, as well as variations on the fuel injection patterns, are currently in test and evaluation phases.

Keywords: Aircraft Propulsion and Power

Type: NASA/TM-2004-212507 , E-12899-1

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Experimental and Computational Study of Trapped Vortex Combustor Sector Rig with Tri-pass Diffuser (2001)

Roquemore, W. M. ; Duncan, B. S. ; Shouse, D. T. ; [et al.]

In: CASI

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Publication Date: 2019-07-10

Description: The Trapped Vortex Combustor (TVC) potentially offers numerous operational advantages over current production gas turbine engine combustors. These include lower weight, lower pollutant emissions, effective flame stabilization, high combustion efficiency, excellent high altitude relight capability, and operation in the lean burn or RQL (Rich burn/Quick mix/Lean burn) modes of combustion. The present work describes the operational principles of the TVC, and provides detailed performance data on a configuration featuring a tri-pass diffusion system. Performance data include EINOx (NO(sub x) emission index) results for various fuel-air ratios and combustor residence times, combustion efficiency as a function of combustor residence time, and combustor lean blow-out (LBO) performance. Computational fluid dynamics (CFD) simulations using liquid spray droplet evaporation and combustion modeling are performed and related to flow structures observed in photographs of the combustor. The CFD results are used to understand the aerodynamics and combustion features under different fueling conditions. Performance data acquired to date are favorable in comparison to conventional gas turbine combustors. Further testing over a wider range of fuel-air ratios, fuel flow splits, and pressure ratios is in progress to explore the TVC performance. In addition, alternate configurations for the upstream pressure feed, including bi-pass diffusion schemes, as well as variations on the fuel injection patterns, are currently in test and evaluation phases.

Keywords: Inorganic, Organic and Physical Chemistry

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Emissions Prediction and Measurement for Liquid-Fueled TVC Combustor with and without Water Injection (2005)

Brankovic, A. ; Roquemore, W. M. ; Liu, N.-S. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: An investigation is performed to evaluate the performance of a computational fluid dynamics (CFD) tool for the prediction of the reacting flow in a liquid-fueled combustor that uses water injection for control of pollutant emissions. The experiment consists of a multisector, liquid-fueled combustor rig operated at different inlet pressures and temperatures, and over a range of fuel/air and water/fuel ratios. Fuel can be injected directly into the main combustion airstream and into the cavities. Test rig performance is characterized by combustor exit quantities such as temperature and emissions measurements using rakes and overall pressure drop from upstream plenum to combustor exit. Visualization of the flame is performed using gray scale and color still photographs and high-frame-rate videos. CFD simulations are performed utilizing a methodology that includes computer-aided design (CAD) solid modeling of the geometry, parallel processing over networked computers, and graphical and quantitative post-processing. Physical models include liquid fuel droplet dynamics and evaporation, with combustion modeled using a hybrid finite-rate chemistry model developed for Jet-A fuel. CFD and experimental results are compared for cases with cavity-only fueling, while numerical studies of cavity and main fueling was also performed. Predicted and measured trends in combustor exit temperature, CO and NOx are in general agreement at the different water/fuel loading rates, although quantitative differences exist between the predictions and measurements.

Keywords: Environment Pollution

Type: NASA/TM-2005-213441 , E-14977 , AIAA Paper 2005-0215 , 43rd Aerospace Sciences Meeting and Exhibit; Jan 10, 2005 - Jan 13, 2005; Reno, NV; United States

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