التفاصيل البيبلوغرافية
| العنوان: |
Delta-shock waves and Riemann solutions to the generalized pressureless Euler equations with a composite source term. |
| المؤلفون: |
Zhang, Qingling, He, Fen, Ba, Ying |
| المصدر: |
Applicable Analysis; Jan2023, Vol. 102 Issue 2, p576-589, 14p |
| مصطلحات موضوعية: |
RIEMANN-Hilbert problems, EULER-Lagrange equations, SHOCK waves, NONLINEAR optics, CONSERVATION laws (Physics), EULER equations, MODEL airplanes |
| مستخلص: |
In this paper, we are concerned with the Riemann problem for the generalized pressureless Euler equations with a composite source term, which covers the important Eulerian droplet model associated with aircrafts and airways. The Riemann solutions exhibit exactly two types of structures: delta-shocks and vacuum solutions. The generalized Rankine–Hugoniot conditions of the delta shock wave are established and the exact position, propagation speed and strength of the delta shock wave are given explicitly. It is shown that the composite source term makes contact discontinuities and delta shock waves bend into curves and the Riemann solutions are not self-similar anymore, which is a new and interesting phenomenon different from the homogeneous generalized pressureless Euler equations. On the other hand, compared with previous results on the nonhomogeneous generalized pressureless Euler equations, different from the nonhomogeneous case with friction where the state variable u changes linearly with respect to t, here u changes exponentially with respect to t under the influence of composite source term, but with a velocity quite different from the nonhomogeneous case with dissipation. It is also shown that, as the composite source term vanishes wholly or partly, the Riemann solutions converge to the corresponding ones of the homogeneous system or the nonhomogeneous system. These results will give us valuable insights into later research on the (generalized) pressureless Euler equations and other conservation laws with more complicated source terms, such as discontinuous source terms or singular source terms. Finally, two typical examples are given to show the application of our results on the Eulerian droplet model and the nonlinear geometric optics system with a source term. [ABSTRACT FROM AUTHOR] |
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