Publications
Export 26 results:
Sort by: Author Keyword Title Type [ Year
] Filters: Author is V. Babu [Clear All Filters]
. 3-D Numerical Simulations Of Turbulent, Bluff-Body Stabilized Lean Premixed Combustion. Combustion Science and Technology. 2012;184(3).
. Numerical Simulations of the Flow through the Inlet and Isolator of a Mach 4 Dual Mode Scramjet . The Aeronautical Journal. 2012;116(1182).
. High Rayleigh Number Natural Convection Inside 2D Porous Enclosures Using the Lattice Boltzmann Method. ASME J. Heat Transfer. 2011;133:062501 (9 pages).
. High Rayleigh Number Natural Convection Inside Porous Enclosures Using the Lattice Boltzmann Method. Journal of Heat Transfer. 2011;133.
. Fundamentals of Incompressible Flow.; 2010 p. .
. Investigation of Vortex Shedding Behind a Porous Square Cylinder Using Lattice Boltzmann Method. Physics of Fluids. 2010;22.
. Investigation of vortex shedding behind a porous square cylinder using lattice Boltzmann method. Phys. Fluids. 2010;22:(8 pages).
. Numerical investigation of the effect of chevrons in subsonic jets using URANS. Progress in Computational Fluid Dynamics. 2010;10:65-79.
. Numerical Investigation of the role of Hyper-mixers in Supersonic Mixing. Aeronautical Journal. 2010.
. Numerical Investigation of the Supersonic Combustion of Kerosene in a Strut Based Combustor. Journal of Propulsion and Power. 2010;26:1084-1091.
. A comparison of the numerical predictions of the supersonic combustion of Hydrogen using the S-A and SST k - ω models. Progress in Computational Fluid Dynamics. 2009;9:475-489.
. Evaluation Of A Ramp Cavity Based Concept Supersonic Combustor Using CFD. Progress in Computational Fluid Dynamics. 2009;9:16-29.
. Fundamentals of Propulsion.; 2009 p. .
. Improved Noise Predictions from Subsonic Jets at Mach 0.75 Using URANS Calculations. Progress in Computational Fluid Dynamics. 2009;9:460-474.
. Investigation of interaction between methanol fed tandem porous spheres burning in a mixed convective environment. COMBUSTION THEORY AND MODELLING. 2009;13:461-485.
. Investigation of the effect of chemistry models on the numerical predictions of the supersonic combustion of hydrogen. Combustion and Flame. 2009;156:826-841.
. Numerical Investigation of the Mixing and Combustion Characteristics of Kerosene in a Model Supersonic Combustor. Journal of Propulsion and Power. 2009;25:583-592.
. Numerical Predictions of Noise Due to Subsonic Jets from Nozzles With and Without Chevrons. Applied Acoustics. 2009;70:321-332.
. Numerical Simulation of the Supersonic Combustion of Kerosene in a Model Combustor. Progress in Computational Fluid Dynamics. 2009;9:30-42.
. Fundamentals of Gas Dynamics.; 2008 p. .
. Numerical Simulations Of The 3D Unsteady Flow In A Bluff-Body Combustor. International Journal of Aeroacoustics. 2008;7:pp. 301-320.
. Entropy generation during the quasi-steady burning of spherical fuel particles. INTERNATIONAL JOURNAL OF THERMAL SCIENCES. 2007;46:589-604.
. A Detailed Performance Analysis of the Interpolation Supplemented Lattice Boltzmann Method on the Cray T3E and Cray X1. International Journal of High Performance Computing and Applications. 2006;20:pp. 557-570.
. Effect of gravity on methanol diffusion flames burning within a forced convective environment. INTERNATIONAL COMMUNICATIONS IN HEAT AND MASS TRANSFER. 2006;33:686-697.
. Numerical Simulation of Three-Dimensional Reacting Flow in a Model Supersonic Combustor. Journal of Propulsion and Power. 2006;22:pp. 820-827.
. Simulation of High Rayleigh Number Natural Convection in a Square Cavity using the Lattice Boltzmann Method. International Journal of Heat and Mass Transfer. 2006;49:pp. 727-739.