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Flow physics refers to the complex physical fluid phenomena and processes that are important in the accurate CFD simulation of product performance, reliability, and safety over a wide range of flight regimes in the operation of aerospace vehicles and propulsion systems. Examples of flow physics include:
Turbulence and all forms of flow separationFlow transitionCombustion (turbo-machinery, scramjet inlets, etc.) Finite-rate gas chemistryIonization, non-equilibrium, and plasma flows (during reentry, etc.)Fuel spray mixing...and many others|nopanel=true}
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{color:#444444}Flow physics refers to the complex physical fluid phenomena and processes that are important in the accurate CFD simulation of product performance, reliability, and safety over a wide range of flight regimes in the operation of aerospace vehicles and propulsion systems. Examples of flow physics include:{color}
* {color:#444444}Turbulence and all forms of flow separation{color}
* {color:#444444}Flow transition{color}
* {color:#444444}Combustion (turbo-machinery, scramjet inlets, etc.) {color}
* {color:#444444}Finite-rate gas chemistry{color}
* {color:#444444}Ionization, non-equilibrium, and plasma flows (during reentry, etc.){color}
* {color:#444444}Fuel spray mixing{color}
* {color:#444444}_...and many others{_}{color}
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