Time-dependent numerical modeling of large-scale astrophysical processes: from relatively smooth flows to explosive events with extremely large discontinuities and high Mach numbers
Applications of Mathematics, Tome 62 (2017) no. 6, pp. 633-659
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We calculate self-consistent time-dependent models of astrophysical processes. We have developed two types of our own (magneto) hydrodynamic codes, either the operator-split, finite volume Eulerian code on a staggered grid for smooth hydrodynamic flows, or the finite volume unsplit code based on the Roe's method for explosive events with extremely large discontinuities and highly supersonic outbursts. Both the types of the codes use the second order Navier-Stokes viscosity to realistically model the viscous and dissipative effects. They are transformed to all basic orthogonal curvilinear coordinate systems as well as to a special non-orthogonal geometric system that fits to modeling of astrophysical disks. We describe mathematical background of our codes and their implementation for astrophysical simulations, including choice of initial and boundary conditions. We demonstrate some calculated models and compare the practical usage of numerically different types of codes.
DOI :
10.21136/AM.2017.0135-17
Classification :
76N15, 85-08
Keywords: Eulerian hydrodynamics; finite volume; operator-split method; unsplit method; Roe's method; curvilinear coordinates
Keywords: Eulerian hydrodynamics; finite volume; operator-split method; unsplit method; Roe's method; curvilinear coordinates
@article{10_21136_AM_2017_0135_17,
author = {Kurf\"urst, Petr and Krti\v{c}ka, Ji\v{r}{\'\i}},
title = {Time-dependent numerical modeling of large-scale astrophysical processes: from relatively smooth flows to explosive events with extremely large discontinuities and high {Mach} numbers},
journal = {Applications of Mathematics},
pages = {633--659},
publisher = {mathdoc},
volume = {62},
number = {6},
year = {2017},
doi = {10.21136/AM.2017.0135-17},
mrnumber = {3745744},
zbl = {06861549},
language = {en},
url = {http://geodesic.mathdoc.fr/articles/10.21136/AM.2017.0135-17/}
}
TY - JOUR AU - Kurfürst, Petr AU - Krtička, Jiří TI - Time-dependent numerical modeling of large-scale astrophysical processes: from relatively smooth flows to explosive events with extremely large discontinuities and high Mach numbers JO - Applications of Mathematics PY - 2017 SP - 633 EP - 659 VL - 62 IS - 6 PB - mathdoc UR - http://geodesic.mathdoc.fr/articles/10.21136/AM.2017.0135-17/ DO - 10.21136/AM.2017.0135-17 LA - en ID - 10_21136_AM_2017_0135_17 ER -
%0 Journal Article %A Kurfürst, Petr %A Krtička, Jiří %T Time-dependent numerical modeling of large-scale astrophysical processes: from relatively smooth flows to explosive events with extremely large discontinuities and high Mach numbers %J Applications of Mathematics %D 2017 %P 633-659 %V 62 %N 6 %I mathdoc %U http://geodesic.mathdoc.fr/articles/10.21136/AM.2017.0135-17/ %R 10.21136/AM.2017.0135-17 %G en %F 10_21136_AM_2017_0135_17
Kurfürst, Petr; Krtička, Jiří. Time-dependent numerical modeling of large-scale astrophysical processes: from relatively smooth flows to explosive events with extremely large discontinuities and high Mach numbers. Applications of Mathematics, Tome 62 (2017) no. 6, pp. 633-659. doi: 10.21136/AM.2017.0135-17
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