2018 - Fellow of the Combustion Institute for excellent research in the numerical simulation of combustion, particularly of premixed gaseous fuel-air mixtures
The scientist’s investigation covers issues in Turbulence, Direct numerical simulation, Mechanics, Premixed flame and Classical mechanics. His Turbulence research integrates issues from Convection–diffusion equation and Laminar flow. Nedunchezhian Swaminathan usually deals with Laminar flow and limits it to topics linked to Diffusion flame and Moment closure and Length scale.
The Direct numerical simulation study combines topics in areas such as Copula, Geometry, Dilution and Analytical chemistry. Nedunchezhian Swaminathan has included themes like Flame speed, Scalar and Scalar in his Mechanics study. His study looks at the intersection of Classical mechanics and topics like Dissipation with Image resolution, Smoothing, Computational physics and Vorticity.
Nedunchezhian Swaminathan mostly deals with Mechanics, Turbulence, Direct numerical simulation, Thermodynamics and Materials science. His work carried out in the field of Mechanics brings together such families of science as Flame speed and Combustor. Nedunchezhian Swaminathan combines subjects such as Laminar flow, Classical mechanics, Premixed flame, Scalar and Dissipation with his study of Turbulence.
His research integrates issues of Diffusion flame and Flame structure in his study of Premixed flame. The various areas that Nedunchezhian Swaminathan examines in his Direct numerical simulation study include Reynolds-averaged Navier–Stokes equations, Convection–diffusion equation, Damköhler numbers and Statistical physics. His study in Thermodynamics is interdisciplinary in nature, drawing from both Lewis number and Chemical kinetics.
His primary areas of investigation include Mechanics, Materials science, Large eddy simulation, Turbulence and Direct numerical simulation. His Mechanics research incorporates elements of Combustor and Mixing. In his research on the topic of Large eddy simulation, Plenum space is strongly related with Combustion chamber.
The study incorporates disciplines such as Premixed flame, Bluff, Vortex stretching and Dissipation in addition to Turbulence. While working in this field, he studies both Direct numerical simulation and Reaction rate. His work investigates the relationship between Length scale and topics such as Scalar that intersect with problems in Order of magnitude and Damköhler numbers.
Nedunchezhian Swaminathan focuses on Mechanics, Direct numerical simulation, Materials science, Combustor and Large eddy simulation. His research in Mechanics tackles topics such as Exhaust gas recirculation which are related to areas like Mixture fraction, Scalar dissipation, Probability density function, Adiabatic process and Heat transfer. His Direct numerical simulation study is associated with Turbulence.
His studies deal with areas such as Turbine and Vortex stretching, Vorticity as well as Turbulence. His work deals with themes such as Root, Flow, Dynamics and Gas turbines, which intersect with Large eddy simulation. The concepts of his Length scale study are interwoven with issues in Enstrophy, Statistical physics, Autoignition temperature and Energy cascade.
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Effect of dilatation on scalar dissipation in turbulent premixed flames
N. Swaminathan;K.N.C. Bray.
Combustion and Flame (2005)
Influence of the Damköhler number on turbulence-scalar interaction in premixed flames. I. Physical insight
N. Chakraborty;N. Swaminathan.
Physics of Fluids (2007)
Scalar Dissipation Rate Modeling and its Validation
H. Kolla;J. W. Rogerson;N. Chakraborty;N. Swaminathan.
Combustion Science and Technology (2009)
Turbulent Premixed Flames
Nedunchezhian Swaminathan;Kenneth Bray.
Finite rate chemistry and presumed PDF models for premixed turbulent combustion
K.N.C. Bray;M. Champion;P.A. Libby;N. Swaminathan.
Combustion and Flame (2006)
Interaction of turbulence and scalar fields in premixed flames
N. Swaminathan;R. W. Grout.
Physics of Fluids (2006)
Effect of heat release on turbulence and scalar-turbulence interaction in premixed combustion
G. Hartung;J. Hult;C. F. Kaminski;J. W. Rogerson.
Physics of Fluids (2008)
Effects of Lewis number on the reactive scalar gradient alignment with local strain rate in turbulent premixed flames
N. Chakraborty;M. Klein;N. Swaminathan.
Proceedings of the Combustion Institute (2009)
Assessment of combustion submodels for turbulent nonpremixed hydrocarbon flames
N. Swaminathan;R.W. Bilger.
Combustion and Flame (1999)
A tomographic PIV resolution study based on homogeneous isotropic turbulence DNS data
N. A. Worth;T. B. Nickels;N. Swaminathan.
Experiments in Fluids (2010)
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