Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows

K. Unterweger; R. Wittmann; P. Neumann; T. Weinzierl; H. J. Bungartz

doi:10.1007/978-3-319-22997-3_11

Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows

K. Unterweger, R. Wittmann, P. Neumann, T. Weinzierl, H. J. Bungartz

Informatik 5 - Lehrstuhl für Scientific Computing

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

10 Zitate (Scopus)

Abstract

We propose to couple our adaptive mesh refinement software PeanoClaw with existing solvers for complex overland flows that are tailored to regular Cartesian meshes. This allows us to augment them with spatial adaptivity and local time-stepping without altering the computational kernels. FullSWOF2D—Full Shallow Water Overland Flows—here is our software of choice though all paradigms hold for other solvers as well.We validate our hybrid simulation software in an artificial test scenario before we provide results for a large-scale flooding scenario of the Mecca region. The latter demonstrates that our coupling approach enables the simulation of complex “real-world” scenarios.

Originalsprache	Englisch
Titel	Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems
Redakteure/-innen	Manfred Bischoff, Miriam Mehl, Michael Schäfer
Herausgeber (Verlag)	Springer Verlag
Seiten	181-195
Seitenumfang	15
ISBN (Print)	9783319229966
DOIs	https://doi.org/10.1007/978-3-319-22997-3_11
Publikationsstatus	Veröffentlicht - 2015
Veranstaltung	3rd International Workshop on Computational Engineering, CE 2014 - Stuttgart, Deutschland Dauer: 6 Okt. 2014 → 10 Okt. 2014

Publikationsreihe

Name	Lecture Notes in Computational Science and Engineering
Band	105
ISSN (Print)	1439-7358

Konferenz

Konferenz	3rd International Workshop on Computational Engineering, CE 2014
Land/Gebiet	Deutschland
Ort	Stuttgart
Zeitraum	6/10/14 → 10/10/14

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10.1007/978-3-319-22997-3_11

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Unterweger, K., Wittmann, R., Neumann, P., Weinzierl, T., & Bungartz, H. J. (2015). Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows. in M. Bischoff, M. Mehl, & M. Schäfer (Hrsg.), Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems (S. 181-195). (Lecture Notes in Computational Science and Engineering; Band 105). Springer Verlag. https://doi.org/10.1007/978-3-319-22997-3_11

Unterweger, K. ; Wittmann, R. ; Neumann, P. et al. / Integration of FULLSWOF2D and peanoclaw : Adaptivity and local time-stepping for complex overland flows. Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems. Hrsg. / Manfred Bischoff ; Miriam Mehl ; Michael Schäfer. Springer Verlag, 2015. S. 181-195 (Lecture Notes in Computational Science and Engineering).

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abstract = "We propose to couple our adaptive mesh refinement software PeanoClaw with existing solvers for complex overland flows that are tailored to regular Cartesian meshes. This allows us to augment them with spatial adaptivity and local time-stepping without altering the computational kernels. FullSWOF2D—Full Shallow Water Overland Flows—here is our software of choice though all paradigms hold for other solvers as well.We validate our hybrid simulation software in an artificial test scenario before we provide results for a large-scale flooding scenario of the Mecca region. The latter demonstrates that our coupling approach enables the simulation of complex “real-world” scenarios.",

author = "K. Unterweger and R. Wittmann and P. Neumann and T. Weinzierl and Bungartz, {H. J.}",

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Unterweger, K, Wittmann, R, Neumann, P, Weinzierl, T & Bungartz, HJ 2015, Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows. in M Bischoff, M Mehl & M Schäfer (Hrsg.), Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems. Lecture Notes in Computational Science and Engineering, Bd. 105, Springer Verlag, S. 181-195, 3rd International Workshop on Computational Engineering, CE 2014, Stuttgart, Deutschland, 6/10/14. https://doi.org/10.1007/978-3-319-22997-3_11

Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows. / Unterweger, K.; Wittmann, R.; Neumann, P. et al.
Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems. Hrsg. / Manfred Bischoff; Miriam Mehl; Michael Schäfer. Springer Verlag, 2015. S. 181-195 (Lecture Notes in Computational Science and Engineering; Band 105).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

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AB - We propose to couple our adaptive mesh refinement software PeanoClaw with existing solvers for complex overland flows that are tailored to regular Cartesian meshes. This allows us to augment them with spatial adaptivity and local time-stepping without altering the computational kernels. FullSWOF2D—Full Shallow Water Overland Flows—here is our software of choice though all paradigms hold for other solvers as well.We validate our hybrid simulation software in an artificial test scenario before we provide results for a large-scale flooding scenario of the Mecca region. The latter demonstrates that our coupling approach enables the simulation of complex “real-world” scenarios.

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Unterweger K, Wittmann R, Neumann P, Weinzierl T, Bungartz HJ. Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows. in Bischoff M, Mehl M, Schäfer M, Hrsg., Recent Trends in Computational Engineering - CE2014 - Optimization, Uncertainty, Parallel Algorithms, Coupled and Complex Problems. Springer Verlag. 2015. S. 181-195. (Lecture Notes in Computational Science and Engineering). doi: 10.1007/978-3-319-22997-3_11

Integration of FULLSWOF2D and peanoclaw: Adaptivity and local time-stepping for complex overland flows

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