[email protected]
Office: 3290K PFT
(225) 578-4332
Ingmar Schoegl
Associate Professor, Mechanical Engineering
Chevron Professorship of Engineering in ME
PhD, The University of Texas at Austin (2009)
Expertise
Combustion theory and applications • optical diagnostics • computational modeling • mechatronics and instrumentation.
Biographical Sketch
Dr. Ingmar Schoegl is a Chevron Associate Professor of Mechanical Engineering at Louisiana State University. Prior to joining LSU in 2009, he received his PhD in Mechanical Engineering from The University of Texas at Austin in 2009, and a Diplom-Ingenieur in Mechatronics from the Johannes Kepler Universität in Linz/Austria in 2000. Before his PhD studies, he gained industrial experience at AVL, where he worked in combustion engine research and development. At LSU, he was the faculty advisor of the Formula SAE student club from 2011-23 and has been serving as the director of the ME Graduate Program since 2022. His research interests include fuel characterization, premixed combustion phenomena, flame diagnostics, as well as numerical modeling and data science. Dr. Schoegl is actively involved in open-source code development for Cantera, a chemical kinetics, thermodynamics, and transport tool suite widely used by the combustion research community.
Key Publications
- N. Roohani, V. M. Sauer, and I. Schoegl, 2021. Effects of dilution and pressure on combustion characteristics within externally heated micro-tubes. Proc. Combust. Inst., 38:6695–6702, doi:10.1016/j.proci.2020.06.090.
- I. Schoegl, V. M. Sauer, and P. Sharma, 2019. Predicting combustion characteristics in externally heated microtubes. Combust. Flame, 204:33–48, doi:10.1016/j.combustflame.2019.02.029.
- V. M. Sauer and I. Schoegl, 2019. Numerical assessment of uncertainty and dynamic range expansion of multispectral image-based pyrometry. Measurement, 145:820 – 832, doi:10.1016/j.measurement.2019.04.089.
- M. Ayoobi and I. Schoegl, 2017. Non-catalytic conversion of glycerol to syngas at intermediate temperatures: Numerical methods with detailed chemistry. Fuel, 195:190–200, doi:10.1016/j.fuel.2017.01.065.
- I. Schoegl, A. J. Pisano, and G. Sedky. Development of a compact focusing color schlieren technique. In AIAA SciTech 2016, San Diego/CA, 2016. doi:10.2514/6.2016-1765.
- A. Guha and I. Schoegl, 2014. Tomographic laser absorption spectroscopy using Tikhonov regularization. Applied Optics, 53:8095–8103, doi:10.1364/AO.53.008095.
- J. Gibson, M. Ayoobi, and I. Schoegl, 2013. Behavior of preheated premixed flames at rich conditions. Proc. Combust. Inst., 34:997–1005, doi:10.1016/j.proci.2012.06.141.
- I. Schoegl, 2012. Radiation effects on flame stabilization on flat flame burners. Combust. Flame, 159:2817–2828, doi:10.1016/j.combustflame.2012.05.010.
- I. Schoegl and J. L. Ellzey, 2009. A mesoscale fuel reformer to produce syngas in portable power systems. Proc. Combust. Inst., 32:3223–3230, doi:10.1016/j.proci.2008.06.079.
- I. Schoegl and J. L. Ellzey, 2007. Superadiabatic combustion in conducting tubes and heat exchangers of finite length. Combust. Flame, 151:142–159, doi:10.1016/j.combustflame.2007.01.009.