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Technical University of Munich

Wissenschaftlicher Mitarbeiter

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Dr. Nadezda Slavinskaya

Technische Universität München

Professur für Sustainable Future Mobility (Prof. Jocher)

Postadresse

Boltzmannstr. 15
85748 Garching b. München

Publikationen

  • Wang, H.; Haidn, O.; Abbasi, M.; Nugymanova, A.; Shvab, J.; Slavinskaya, N.: Development of a Genetic Algorithm Tool for the Optimization of the Methanol Oxidation. Chemical Engineering & Technology 48 (2), 2025 more…
  • Wang, H.; Tian, L.; Nugymanova, A.; Haidn, O.; Slavinskaya, N.: Development of a CH4 pyrolysis and oxidation model with uncertainty quantification and minimization. Fuel 387, 2025, 134407 more…
  • Wang, H.; Huang, G.; Nugymanova, A.; Haidn, O.; Slavinskaya, N.: Uncertainty quantification and data consistency analysis for the development of hydrogen and syngas oxidation model. International Journal of Hydrogen Energy 79, 2024, 456-467 more…
  • Shvab, J.; Nugymanova, A.; Slavinskaya, N.; Jocher A.: Introducing the reaction mechanism reduction framework REGDA. The Combustion Institute’s 40th International Symposium - Emphasizing Energy Transition, 2024 more…
  • Santese, T.; Shvab, J.; Suslov, D.; Haidn, O. J.; .Slavinskaya, N.: Impact of impurities on liquid methane properties under typical rocket operation conditions. International Journal of Thermofluids 18, 2023, 100343 more…
  • Stoll, U.; Slavinskaya, N.: Corrosion behavior of zirconium alloys in the aqueous environment. Phenomenological aspects. Overview. Journal of Nuclear Science and Technology 60 (5), 2023, 573-602 more…
  • Wang, Hongxin; Slavinskaya, Nadezda; Haidn, Oskar: A comprehensive kinetic modeling study of hydrogen combustion with uncertainty quantification. Fuel 319, 2022, 123705 more…
  • Wang, H.; Slavinskaya, N.; Haidn, O.: A comprehensive kinetic modeling study of hydrogen combustion with uncertainty quantification. Fuel 319, 2022, 123705 more…
  • Wang, Hongxin; Slavinskaya, Nadezda; Kanz, Aziza; Auyelkhankyzy, Moldir; Gao, Yiting; Haidn, Oskar: A comprehensive kinetic modeling study of ethylene combustion with data uncertainty analysis. Fuel 299, 2021, 120833 more…
  • Wang, H.; Slavinskaya, N.; Kanz, A.; Auyelkhankyzy, M.; Gao, Y.; Haidn, O.: A comprehensive kinetic modeling study of ethylene combustion with data uncertainty analysis. Fuel 299, 2021, 120833 more…
  • Walter, G., Wang, H., Kanz, A., Kolbasseff, A., Xu, X., Haidn, O.J., Slavinskaya, N.A.: Experimental error assessment of laminar flame speed measurements for digital kinetics databases. Fuel, 2020 more…
  • Slavinskaya, N.A., Abbasi, M., Starcke, J.H., Haidn, O.J.: Skeletal Mechanism of Methane Oxidation for Space Applications. AIAA-2016-4781, 2016 more…
  • Haidn, O.J., Celano, M.P., Luo, M., Roth, C., Silvestri, S., Slavinskaya, N.A: On Methane/Oxygen Combustion for Rocket Applications. Int. Symposium on Innovation and Prospects of Liquid Propulsion Technology, 2016 more…
  • Slavinskaya, N.A.; Abbasi, A.; Weinschenk, M.; Haidn, O.J.: Methane Skeletal Mechanism for Space Propulsion Applications. 5th International Workshop on Model Reduction in Reacting Flows, 2015 more…
  • Slavinskaya, N., Riedel, U., Wiegand, M., Haidn, O.J.: Evaluation of the chemical interaction of exhaust gases of methane / oxygen propelled liquid rocket engines with the atmosphere. 51st AIAA Aerospace Sciences Meeting including the New Horizons Forum and Aerospace Exposition 2013, 2013 more…
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