Abstract
We present here a Godunov-type scheme to simulate one-dimensional flows in a nozzle with variable cross-section. The method relies on the construction of a relaxation Riemann solver designed to handle all types of flow regimes, from subsonic to supersonic flows, as well as resonant transonic flows. Some computational results are also provided, in which this relaxation method is compared with the classical Rusanov scheme and a modified Rusanov scheme.
MSC2010: 76M12, 76H05, 76S05, 65M12
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Acknowledgements
The second author receives a financial support by ANRT through an EDF-CIFRE contract 529/2009. Computational facilities were provided by EDF. The third author is partially supported by the LRC Manon (Modélisation et Approximation Numérique Orientées pour l’énergie Nucléaire – CEA/DM2S-LJLL).
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Coquel, F., Saleh, K., Seguin, N. (2011). A Relaxation Approach for Simulating Fluid Flows in a Nozzle. In: Fořt, J., Fürst, J., Halama, J., Herbin, R., Hubert, F. (eds) Finite Volumes for Complex Applications VI Problems & Perspectives. Springer Proceedings in Mathematics, vol 4. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-20671-9_29
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DOI: https://doi.org/10.1007/978-3-642-20671-9_29
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