Abstract:
We study gas flow in vibrational nonequilibrium. The model is a 4×4 nonlinear hyperbolic system with relaxation. Under physical assumptions, properties of thermodynamic variables relevant to stability are obtained, global existence for Cauchy problems with smooth and small data is established, and large time behavior is studied in the pointwise sense. We formulate the fundamental solution in a systematic way for a general linear system with relaxation. The fundamental solution provides insights to the behavior of the nonlinear system, and is crucial to obtain our pointwise asymptotic picture for the nonequilibrium flow. We also clarify in a general setting the relation between subcharacteristic conditions and a dissipative criterion that was originally proposed for hyperbolic-parabolic systems and has now proved to be important also for hyperbolic systems with relaxation.
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Accepted: March 1, 1999
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Zeng, Y. Gas Dynamics in Thermal Nonequilibrium¶and General Hyperbolic Systems¶with Relaxation. Arch. Rational Mech. Anal. 150, 225–279 (1999). https://doi.org/10.1007/s002050050188
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DOI: https://doi.org/10.1007/s002050050188