Numerical predictions of oblique detonation stability boundaries (Q1364033)
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scientific article; zbMATH DE number 1050998
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Numerical predictions of oblique detonation stability boundaries |
scientific article; zbMATH DE number 1050998 |
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Numerical predictions of oblique detonation stability boundaries (English)
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24 August 1997
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The authors study the oblique detonation stability by numerically integrating two-dimensional one-step reactive Euler equations in a generalized curvilinear coordinate system. The method is verified on one- and two-dimensional flows with exact solutions, and its ability to correctly predict one-dimensional detonation stability boundaries is demonstrated. The results suggest that curved wall oblique detonations have a stability threshold slightly higher than their one-dimensional counterparts.
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two-dimensional one-step reactive Euler equations
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generalized curvilinear coordinate system
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stability threshold
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0.9250002
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0.92443174
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0.90521026
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0.9022669
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0.8932388
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0.8892664
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0.88715184
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0.8864027
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