Dipl.-Phys. Alexander Knospe
© Tina Mäntler
Research Associate
NameMr Dipl.-Phys. Alexander Knospe
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Institut für Energietechnik Professur für Wasserstoff- und Kernenergietechnik
Institut für Energietechnik Professur für Wasserstoff- und Kernenergietechnik
Visitor Address:
Verwaltungsgebäude 1, VG1 115
01069 Dresden
- work Tel.
- +49 351 463-34137
- fax Fax
- +49 351 463-37161
Key Activities
CORTEX: CORe monitoring Techniques and EXperimental validation and demonstration
Scientific Biography
| Since 2016 | Research Associate, Chair of Hydrogen and Nuclear Energy |
Publications
Experimental determination of the zero power reactor transfer function of the
AKR-2
S. Hübner, A. Knospe, M. Viebach, C. Lange, A. Hurtado
PHYSOR 2020, 29.03. – 02.04.2020, Cambridge (United Kingdom)
ISBN: 978-1-5272-6447-2, Link
Advanced natural circulation reduced order model with inclined channel for low pressure conditions
Manthey, R.; Knospe, A.; Lange, C.; Schuster, C.; Hurtado, A.:
ASME Journal of Nuclear Engineering and Radiation Science, 2019
Doi: 10.1115/1.4044846
Principles for the application of bifurcation theory for the systematic analysis of nuclear reactor stability, Part1: Theory
Dieter Hennig, Carsten Lange, Rizwan-uddin, Abdelhamid Dokhane, Alexander Knospe,
Progress in Nuclear Energy, Volume 115, 2019, Pages 231-249, ISSN 0149-1970,
https://doi.org/10.1016/j.pnucene.2019.02.009.
(http://www.sciencedirect.com/science/article/pii/S0149197019300575)
Principles for the application of bifurcation theory for the systematic analysis of nuclear reactor stability, Part2: Application
Dieter Hennig, Rizwan-uddin, Carsten Lange, Abdelhamid Dokhane, Alexander Knospe,
Progress in Nuclear Energy, Volume 113, 2019, Pages 263-280, ISSN 0149-1970
https://doi.org/10.1016/j.pnucene.2019.01.009.
(http://www.sciencedirect.com/science/article/pii/S0149197019300083)
Reduced order modeling of a natural circulation system by proper orthogonal decomposition
Manthey, R.; Knospe, A.; Lange, C.; Hennig, D.; Hurtado, A.
Progress in Nuclear Energy, Vol. 114, pp. 191-200, 2019,
doi: 10.1016/j.pnucene.2019.03.010.
Model order reduction of low pressure natural circulation system
René Manthey, A. Knospe, C. Lange, Ch. Schuster, A. Hurtado Conference paper: Annual Meeting on Nuclear Technology, Berlin, Deutschland, Mai 29-30, 2018
Model Order Reduction of a High Pressure Natural Circulation System
A. Knospe, R. Manthey, C. Lange, D. Hennig, A. Hurtado Conference paper: Annual Meeting on Nuclear Technology, Berlin, Deutschland, Mai 29-30, 2018
Nonlinear stability analysis of natural circulation systems by application of model order reduction and system codes
René Manthey, A. Knospe, C. Lange, Ch. Schuster, A. Hurtado Conference paper: Annual Meeting on Nuclear Technology, Berlin, Deutschland, Mai 2017
Model Order Reduction of Two-Phase Flow
A. Knospe, C. Lange, A. Hurtado: Vortrag: Kompetenzzentrum OST für Kernenergietechnik-11th Doktorandenseminar, Dresden, Dezember 7, 2017