Numerical simulation of flow in a compressor cascade under wide range of flow conditions

Numerical simulation of flow in a compressor cascade under wide range of flow conditions

The numerical results are presented for the two-dimension viscous turbulent flow of working medium through the transonic compressor cascade under wide range of flow conditions. The mathematical model is constructed on a basis of the system of the Reynolds-averaged Navier-Stokes equations and the two...

Повний опис

Збережено в:
Бібліографічні деталі
Дата:2014
Автори: Папазов, С. В., Яковлев, В. А., Ершов, С. В.
Формат: Стаття
Мова:Russian
Опубліковано: Journal of Mechanical Engineering 2014
Теми:
axial compressor
airfoil cascade
viscous flow
numerical simulation
numerical Schliren approach
осевой компрессор
решетка профилей
вязкий поток
численное моделирование
численный шлирен-метод
УДК 621.165 533.6
осьовий компресор
решітка профілів
в’язкий потік
чисельне моделювання
чисельний шлірен-метод
Онлайн доступ:https://journals.uran.ua/jme/article/view/35855
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Назва журналу:Journal of Mechanical Engineering

Репозиторії

Journal of Mechanical Engineering
Опис
Резюме:The numerical results are presented for the two-dimension viscous turbulent flow of working medium through the transonic compressor cascade under wide range of flow conditions. The mathematical model is constructed on a basis of the system of the Reynolds-averaged Navier-Stokes equations and the two-equation differential k-ω SST Menter’s turbulence model supplemented by realisability constraints. The equations are integrated numerically with the implicit ENO scheme of the second order of approximation. The boundary condition treatment modification is used at the exit to improve reliability of flow computations for compressor blade rows. The detailed analysis of flow nature for working and stalling branches of the compressor characteristic is presented using computational data visualization with the Mach number contours and “numerical Schliren” approach. The obtained numerical results are in an agreement with known theoretical ideas about supersonic flows in compressors. It is shown, that for detailed visualization of complex wave flow structure for supersonic flows in compressor cascades it is appropriate to use computational meshes with about and more than 100 000 cells per a tangential section.

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