Turbulence - Mathematical models.

Turbulence et d歋terminisme by: (Language materials, printed)

Compressibility, turbulence and high speed flow by: (Language materials, printed)

Applied turbulence modelling in marine waters by: (Language materials, printed)

Homogeneous turbulence dynamics / by: (Language materials, printed)

Turbulent combustion modeling = advances, new trends and perspectives / by: (Electronic resources)

Numerical modelling of astrophysical turbulence by: (Electronic resources)

Mathematical and numerical foundations of turbulence models and applications by: (Electronic resources)

Compressibility, turbulence and high speed flow by: (Electronic resources)

Fractal flow design = how to design bespoke turbulence and why / by: (Electronic resources)

Homogeneous turbulence dynamics by: (Electronic resources)

DNS of wall-bounded turbulent flows = a first principle approach / by: (Electronic resources)

A New new hypothesis on the anisotropic reynolds stress tensor for turbulent flows.. Volume I,. Theoretical background and development of an anisotropic hybrid k-omega shear-stress transport/Stochastic Turbulence Model by: (Electronic resources)

Characterisation of turbulent duct flows = experiments and direct numerical simulations / by: (Electronic resources)

Modeling and simulation of turbulent mixing and reaction = for power, energy and flight / by: (Electronic resources)

Nonlinear, nonlocal and fractional turbulence = alternative recipes for the modeling of turbulence / by: (Electronic resources)

Applied computational fluid dynamics and turbulence modeling = practical tools, tips and techniques / by: (Electronic resources)

A new hypothesis on the anisotropic Reynolds stress tensor for turbulent flows.. Volume II,. Practical implementation and applications of an anisotropic hybrid k-omega shear-stress transport/stochastic turbulence model by: (Electronic resources)

Data analysis for direct numerical simulations of turbulent combustion = from equation-based analysis to machine learning / by: (Electronic resources)

Non-perturbative methods in statistical descriptions of turbulence by: (Electronic resources)

Controlling mesoscale turbulence = the impact of translational and rotational constraints on pattern formation in microswimmer suspensions / by: (Electronic resources)

Approximate deconvolution models of turbulence : = analysis, phenomenology and numerical analysis / by: (Language materials, printed)

Approximate deconvolution models of turbulence = analysis, phenomenology and numerical analysis / by: (Electronic resources)

Introduction to turbulent dynamical systems in complex systems by: (Electronic resources)

Ideal MHD by: (Electronic resources)