47. Fluid dynamics (for fluid dynamics of quantum fluids, see 67; see also
83 Rheology; for sound generation by fluid flow, see 43.28.R in
acoustics appendix)
47.10.+g General theory (see also 03.40.G - general mathematical aspects; 83.10
- in rheology)
47.11.+j Computational methods in fluid dynamics (see also 83.85.P Flow
computation; 02.70 - in mathematical methods in physics)
47.15.-x Laminar flows
47.15.Cb Laminar boundary layers
47.15.Fe Stability of laminar flows
47.15.Gf Low-Reynolds-number (creeping) flows
47.15.Hg Potential flows
47.15.Ki Inviscid flows with vorticity
47.15.Pn Laminar suspensions
47.15.Rq Laminar flows in cavities
47.17.+e Mechanical properties of fluids (see also 62.10 Mechanical properties
of liquids)
47.20.-k Hydrodynamic stability
47.20.Bp Buoyancy-driven instability
47.20.Cq Inviscid instability
47.20.Dr Surface-tension-driven instability
47.20.Ft Instability of shear flows
47.20.Gv Viscous instability
47.20.Hw Morphological instability; phase changes (see also 64 Equations of
state, phase equilibria, and phase transitions)
47.20.Ky Nonlinearity (including bifurcation theory)
47.20.Lz Secondary instability
47.20.Ma Interfacial instability
47.20.Pc Receptivity
47.27.-i Turbulent flows, convection, and heat transfer
47.27.Ak Fundamentals
47.27.Cn Transition to turbulence
47.27.Eq Turbulence simulation and modeling
47.27.Gs Isotropic turbulence; homogeneous turbulence
47.27.Jv High-Reynolds-number turbulence
47.27.Lx Wall-bounded thin shear flows
47.27.Nz Boundary layer and shear turbulence
47.27.Pa Thick shear flows
47.27.Qb Turbulent diffusion
47.27.Rc Turbulence control
47.27.Sd Noise (turbulence generated)
47.27.Te Convection and heat transfer (see also 44.25 Convective and
constrained heat transfer)
47.27.Vf Wakes
47.27.Wg Jets
47.32.-y Rotational flow and vorticity
47.32.Cc Vortex dynamics
47.32.Ff Separated flows
47.35.+i Hydrodynamic waves
47.37.+q Hydrodynamic aspects of superfluidity (see also 67.40.H and 67.57.D -
in quantum fluids and solids)
47.40.-x Compressible flows; shock and detonation phenomena (see also 28.70
Nuclear explosions, 52.35.T Shock waves in plasma, 83.50.T--in
rheology, 43.25.C, 43.28.M and 43.40.J--in acoustics appendix)
47.40.Dc General subsonic flows
47.40.Hg Transonic flows
47.40.Ki Supersonic and hypersonic flows
47.40.Nm Shock-wave interactions and shock effects
47.45.-n Rarefied gas dynamics
47.45.Dt Free molecular flows
47.45.Gx Slip flows
47.45.Nd Accommodation
47.50.+d Non-Newtonian fluid flows (see also 83.50 Deformation, material flow)
47.52.+j Chaos (see also 05.45 Theoretical models of chaotic systems, 83.50.W
Chaotic flows; drag reduction)
47.53.+n Fractals
47.54.+r Pattern selection
47.55.-t Nonhomogeneous flows
47.55.Bx Cavitation
47.55.Dz Drops and bubbles
47.55.Hd Stratified flows
47.55.Kf Multiphase and particle-laden flows
47.55.Mh Flows through porous media (for heat transfer in porous media, see
44.30)
47.60.+i Flows in ducts, channels, nozzles, and conduits (see also 83.10 and
83.50 - in rheology)
47.62.+q Flow control
47.65.+a Magnetohydrodynamics and electrohydrodynamics (for MHD in plasma, see
52.30)
47.70.-n Reactive, radiative, or nonequilibrium flows
47.70.Fw Chemically reactive flows (see also 83.80.J Chemically reactive
materials)
47.70.Mc Radiation gas dynamics
47.70.Nd Nonequilibrium gas dynamics
47.75.+f Relativistic fluid dynamics (for astrophysical aspects,see 95.30.L)
47.80.+v Instrumentation for fluid dynamics (see also 83.85 - in rheology;
07.30 Vacuum apparatus and techniques)
47.90.+a Other topics in fluid dynamics