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
Key Activities
CORTEX: CORe monitoring Techniques and EXperimental validation and demonstration
Scientific Biography
| Since 2016 | Research Associate, Chair of Hydrogen and Nuclear Energy |
Publications
Mechanical model for the motion of RPV internals affecting neutron flux noise
Bläsius, C., Herb, J., Sievers, J., Knospe, A., Viebach, M., Lange, C.
(2022) Annals of Nuclear Energy, 176, art. no. 109243
Doi: 10.1016/2022.109243
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