Dr. Corina Janzer
- Wissenschaftliche Mitarbeiterin
- Raum: CS
- Tel.: +49 721 608-42114
- corina janzer ∂ kit edu
- Engesserstr. 20
76131 Karlsruhe
Research
- High temperature kinetic measurements
- Analytical methods, especially mass spectrometry
- Alternative fuels for transport, aviation, and rocket
- Emission formation and control, especially NOX
- Design of flame safety concepts for polymer combustion with phosphorous flame retardants
- Development and optimization of chemical kinetic mechanism
- Reduction of chemical kinetic mechanisms for different applications
Education
04/2014 – 12/2017 | Dr. rer. nat. Karlsruhe Institute of Technology (KIT) PhD Thesis: „NO2-Bildung unter motorischen Bedingungen – Kinetische Modellierungen und Stoßwellenexperimente“ |
10/2008 – 03/2014 | Dipl. Chem. Karlsruhe Institute of Technology (KIT) Diploma Thesis: „Stoßwellenuntersuchungen zur Pyrolyse von Methyliodid“ |
Work History
Since 07/2021 | Senior Scientist Karlsruhe Institute of Technology (KIT) Institute for Chemical Technology and Polymer Chemistry (ITCP) |
07/2018 – 06/2021 | Senior Scientist German Aerospace Center (DLR) Institute of Combustion Technology (VT) |
01/2018 – 12/2018 |
Senior Scientist Karlsruhe Institute of Technology (KIT) Institute of Physical Chemistry (IPC) |
04/2014 – 12/2017 | Junior Scientist Karlsruhe Institute of Technology (KIT) Institute of Physical Chemistry (IPC) |
Selected Publications
P. Lott, M.B. Mokashi, H. Müller, D.J. Heitlinger, S. Lichtenberg, A.B. Shirsath, C. Janzer, S. Tischer, L. Maier, O. Deutschmann. Hydrogen Production and Carbon Capture by Gas-Phase Methane Pyrolysis: A Feasibility Study. ChemSusChem (2023). https://doi.org/10.1002/cssc.202201720 |
C. Janzer, S. Richter, C. Naumann, T. Methling. “Green Propellants” as a Hydrazine Substitute: Experimental Investigations of Ethane / Ethene-Nitrous Oxide Mixtures and Validation of Reaction Mechanism. CEAS Space Journal (2021). https://doi.org/10.1007/s12567-021-00370-8 |
C. Janzer, T. Methling. Ethane / Ethene-Nitrous Oxide Mixtures as Green Propellants Substituting Hydrazine: Reduction of Optimized Reaction Mechanism for CFD Simulations. European Combustion Meeting (2021). |
A. Abai- Bertótiné, D. Zengel, C. Janzer, L. Maier, J.-D. Grunwaldt, M. Olzmann, O. Deutschmann. Effect of NO2 on Gas-Phase Reactions in lean NOX/NH3/O2/H2O Mixtures at Conditions Relevant for Exhaust Gas Aftertreatment. SAE Technical Paper (2021) 2021-01-5005. https://doi.org/10.4271/2021-01-5005 |
C. Naumann, C. Janzer, U. Riedel. Ethane / Nitrous Oxide Mixtures as a Green Propellant to Substitute Hydrazine: Validation of Reaction Mechanism. European Combustion Meeting (2019). https://elib.dlr.de/127317/ |
M. Stein, V. Bykov, A. Bertotiné Abai, C. Janzer, U. Maas, O. Deutschmann, M. Olzmann. A reduced model for the evaporation and decomposition of urea-water solution droplets. International Journal of Heat and Fluid Flow 70 (2018) 216-225. https://doi.org/10.1016/j.ijheatfluidflow.2018.02.005 |
M. Rößler, A. Velji, C. Janzer, T. Koch, M. Olzmann. Formation of Engine Internal NO2: Measures to Control the NO2/NOX Ratio for Enhanced Exhaust After Treatment. SAE Int. J. Engines (2017), 10, 1880-1893. https://doi.org/10.4271/2017-01-1017 |
M. Rößler, C. Janzer, T. Koch, M. Olzmann. Wirkmechanismen der dieselmotorischen NO2-Bildung. Motortechn. Z. (2017) 7-8, 72-78 (engl.: Mechanism of the NO2 Formation in Diesel Engines. Motortechn. Z. Worldw. (2017) 7-8, 70-75). https://doi.org/10.1007/s35146-017-0055-6 |