2018 - Fellow of the Combustion Institute for innovative research on complex combustion systems using advanced laser methods
The scientist’s investigation covers issues in Optics, Mechanics, Turbulence, Analytical chemistry and Phosphor thermometry. As a member of one scientific family, Andreas Dreizler mostly works in the field of Optics, focusing on Particle image velocimetry and, on occasion, Internal combustion engine. Within one scientific family, Andreas Dreizler focuses on topics pertaining to Combustion under Mechanics, and may sometimes address concerns connected to Jet.
His biological study spans a wide range of topics, including Combustor, Premixed flame and Classical mechanics. His Analytical chemistry research integrates issues from Ignition system, Spark and Methane. The study incorporates disciplines such as Temperature measurement, Calibration and Phosphor in addition to Phosphor thermometry.
The scientist’s investigation covers issues in Mechanics, Combustion, Turbulence, Optics and Analytical chemistry. His studies deal with areas such as Combustor, Premixed flame and Combustion chamber as well as Mechanics. His studies in Combustion integrate themes in fields like Mechanical engineering, Internal combustion engine and Ignition system.
His Turbulence study combines topics in areas such as Jet and Rayleigh scattering. His Laser, Phosphor thermometry and Laser-induced fluorescence study in the realm of Optics interacts with subjects such as Planar. The Analytical chemistry study combines topics in areas such as Planar laser-induced fluorescence, Laminar flow and Methane.
His main research concerns Mechanics, Combustion, Turbulence, Combustor and Analytical chemistry. His Mechanics research incorporates themes from Flame structure and Piston. The various areas that Andreas Dreizler examines in his Combustion study include Ignition system, Planar laser-induced fluorescence, Raman spectroscopy, Rayleigh scattering and Particle size.
His work deals with themes such as Jet, Stratification, Laminar flow and Methane, which intersect with Turbulence. His Combustor study also includes fields such as
Andreas Dreizler mainly investigates Mechanics, Combustion, Turbulence, Analytical chemistry and Laminar flow. His work is dedicated to discovering how Mechanics, Cylinder are connected with Spark plug and other disciplines. His research in Combustion intersects with topics in Rayleigh scattering, Ignition system and Coal.
Andreas Dreizler combines subjects such as Jet, Heat transfer and Optics with his study of Turbulence. His research integrates issues of Premixed flame, Diffusion flame, Planar laser-induced fluorescence and Adiabatic flame temperature in his study of Analytical chemistry. His Laminar flow research incorporates elements of Laminar flame speed, Quenching and Methane.
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Flow field measurements of stable and locally extinguishing hydrocarbon-fuelled jet flames
Ch. Schneider;A. Dreizler;J. Janicka;E.P. Hassel.
Combustion and Flame (2003)
On surface temperature measurements with thermographic phosphors: A review
Jan Brübach;Christian Pflitsch;Andreas Dreizler;Burak Atakan.
Progress in Energy and Combustion Science (2013)
Assessment of Unsteady RANS in Predicting Swirl Flow Instability Based on LES and Experiments
B. Wegner;A. Maltsev;C. Schneider;A. Sadiki.
International Journal of Heat and Fluid Flow (2004)
Fluid Dynamical Analysis of Atmospheric Reacting and Isothermal Swirling Flows
C. Schneider;A. Dreizler;J. Janicka.
Flow Turbulence and Combustion (2005)
Turbulent opposed-jet flames: A critical benchmark experiment for combustion LES
D. Geyer;A. Kempf;A. Dreizler;J. Janicka.
Combustion and Flame (2005)
Simultaneous PIV/OH-PLIF, Rayleigh thermometry/OH-PLIF and stereo PIV measurements in a low-swirl flame
Per Petersson;Jimmy Olofsson;Christian Brackman;Hans Seyfried.
Applied Optics (2007)
Advanced laser diagnostics for an improved understanding of premixed flame-wall interactions
A. Dreizler;B. Böhm.
Proceedings of the Combustion Institute (2015)
Experimental and numerical analysis of a lean premixed stratified burner using 1D Raman/Rayleigh scattering and large eddy simulation
Guido Kuenne;Florian Seffrin;Frederik Fuest;Thabo Stahler.
Combustion and Flame (2012)
Time-Resolved Conditional Flow Field Statistics in Extinguishing Turbulent Opposed Jet Flames Using Simultaneous Highspeed PIV/OH-PLIF
B. Böhm;C. Heeger;I. Boxx;W. Meier.
Proceedings of the Combustion Institute (2009)
Flow field studies of a new series of turbulent premixed stratified flames
F. Seffrin;F. Fuest;D. Geyer;A. Dreizler.
Combustion and Flame (2010)
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