Title of article
On transonic shocks in a conic divergent nozzle with axi-symmetric exit pressures
Author/Authors
Jun Li، نويسنده , , Zhouping Xin ، نويسنده , , Huicheng Yin، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2010
Pages
47
From page
423
To page
469
Abstract
In this paper, we establish the existence and stability of a 3-D transonic shock solution to the full steady compressible Euler system in a class of de Laval nozzles with a conic divergent part when a given variable axi-symmetric exit pressure lies in a suitable scope. Thus, for this class of nozzles, we have solved such a transonic shock problem in the axi-symmetric case described by Courant and Friedrichs (1948) in Section 147 of [8]: Given the appropriately large exit pressure pe(x), if the upstream flow is still supersonic behind the throat of the nozzle, then at a certain place in the diverging part of the nozzle a shock front intervenes and the gas is compressed and slowed down to subsonic speed so that the position and the strength of the shock front are automatically adjusted such that the end pressure at the exit becomes pe(x).
Keywords
Steady Euler systemTransonic shockConic divergent nozzleFirst order elliptic system with nonlocalterms and singular source termsFredholm alternative
Journal title
JOURNAL OF DIFFERENTIAL EQUATIONS
Serial Year
2010
Journal title
JOURNAL OF DIFFERENTIAL EQUATIONS
Record number
751662
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