2018 - Fellow of the Combustion Institute for excellent advances in the modeling of laminar and turbulent combustion
Xue-Song Bai spends much of his time researching Combustion, Turbulence, Analytical chemistry, Mechanics and Laminar flow. His research ties Thermodynamics and Combustion together. His study in Turbulence is interdisciplinary in nature, drawing from both Radical and Classical mechanics.
He works mostly in the field of Analytical chemistry, limiting it down to concerns involving Methane and, occasionally, Atmospheric pressure, Syngas and Gas engine. As part of the same scientific family, Xue-Song Bai usually focuses on Mechanics, concentrating on Combustor and intersecting with Leading edge, Mixing and Ignition system. His Laminar flow research incorporates themes from Jet and Direct numerical simulation.
His primary scientific interests are in Mechanics, Combustion, Turbulence, Large eddy simulation and Ignition system. His Mechanics study combines topics from a wide range of disciplines, such as Combustor, Premixed flame and Laminar flame speed. His work deals with themes such as Diffusion flame and Flame structure, which intersect with Premixed flame.
The Combustion study combines topics in areas such as Analytical chemistry, Methane and Thermodynamics. Xue-Song Bai has researched Large eddy simulation in several fields, including Mechanical engineering, Aerospace engineering, Nozzle, Vortex and Mean flow. His research investigates the connection between Ignition system and topics such as Diesel fuel that intersect with issues in Air entrainment.
His main research concerns Combustion, Mechanics, Ignition system, Large eddy simulation and Turbulence. His Combustion research integrates issues from Nuclear engineering and Energy engineering. Xue-Song Bai works mostly in the field of Mechanics, limiting it down to topics relating to Methane and, in certain cases, Jet.
His Ignition system research is multidisciplinary, incorporating perspectives in Premixed flame, Computer simulation, Cylinder and Homogeneous charge compression ignition. His Large eddy simulation research is multidisciplinary, incorporating elements of Reynolds-averaged Navier–Stokes equations, Penetration and Extinction. His studies in Turbulence integrate themes in fields like Flow and Scalar.
Xue-Song Bai mainly investigates Combustion, Mechanics, Ignition system, Large eddy simulation and Thermal efficiency. His research integrates issues of Nuclear engineering, Energy engineering and Thermodynamics in his study of Combustion. In the subject of general Mechanics, his work in Turbulence is often linked to Normal diffusion, thereby combining diverse domains of study.
His work deals with themes such as Jet, Strain rate, Methane and Absolute value, which intersect with Turbulence. His Ignition system study incorporates themes from Soot, Hydrogen, Analytical chemistry, Flame speed and Shock tube. His Large eddy simulation research includes elements of Reynolds-averaged Navier–Stokes equations, Direct numerical simulation and Function.
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Turbulence and combustion interaction: High resolution local flame front structure visualization using simultaneous single-shot PLIF imaging of CH, OH, and CH2O in a piloted premixed jet flame
Zhongshan Li;Bo Li;Zhiwei Sun;Xue-Song Bai.
Combustion and Flame (2010)
Large eddy simulation and experimental studies of a confined turbulent swirling flow
Ping Wang;Xue-Song Bai;M Wessman;Jens Klingmann.
Physics of Fluids (2004)
Large eddy simulation and laser diagnostic studies on a low swirl stratified premixed flame
K.-J. Nogenmyr;C. Fureby;X.S. Bai;P. Petersson.
Combustion and Flame (2009)
High-order Cartesian grid method for calculation of incompressible turbulent flows
Jessica Gullbrand;Xue-Song Bai;Laszlo Fuchs.
International Journal for Numerical Methods in Fluids (2001)
Comparison of well-mixed and multiple representative interactive flamelet approaches for diesel spray combustion modelling
Gianluca D'errico;Tommaso Lucchini;Francesco Contino;M. Jangi.
Combustion Theory and Modelling (2014)
Characteristics of oxy-fuel combustion in gas turbines
Changye Liu;Changye Liu;G. Chen;N. Sipocz;M. Assadi.
Applied Energy (2012)
Distributed reactions in highly turbulent premixed methane/air flames Part I. Flame structure characterization
Bo Zhou;Christian Brackmann;Qing Li;Zhenkan Wang.
Combustion and Flame (2015)
Computational study of the combustion process and NO formation in a small-scale wood pellet furnace
Torbern Klason;Xue-Song Bai.
Detailed Soot Modeling in Turbulent Jet Diffusion Flames
Xue-Song Bai;Michael Balthasar;Fabian Mauss;Laszlo Fuchs.
Proceedings of the Combustion Institute; 27(1), pp 1623-1630 (1998) (1998)
Investigation of local flame structures and statistics in partially premixed turbulent jet flames using simultaneous single-shot CH and OH planar laser-induced fluorescence imaging
J. Kiefer;J. Kiefer;Zhongshan Li;Johan Zetterberg;Xue-Song Bai.
Combustion and Flame (2008)
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