Name
|
Standard symbol
|
Definition
|
Field of application
|
Archimedes number |
Ar |
|
fluid mechanics (motion of fluids due to density differences)
|
Atwood number |
A |
|
fluid mechanics (onset of instabilities in fluid mixtures due to density differences)
|
Bejan number (fluid mechanics) |
Be |
|
fluid mechanics (dimensionless pressure drop along a channel)[4]
|
Bingham number |
Bm |
|
fluid mechanics, rheology (ratio of yield stress to viscous stress)[5]
|
Biot number |
Bi |
|
heat transfer (surface vs. volume conductivity of solids)
|
Blake number |
Bl or B |
|
geology, fluid mechanics, porous media (inertial over viscous forces in fluid flow through porous media)
|
Bond number |
Bo |
|
geology, fluid mechanics, porous media (buoyant versus capillary forces, similar to the Eötvös number)[6]
|
Brinkman number |
Br |
|
heat transfer, fluid mechanics (conduction from a wall to a viscous fluid)
|
Burger number
|
Bu
|
|
meteorology, oceanography (density stratification versus Earth's rotation)
|
Brownell–Katz number |
NBK |
|
fluid mechanics (combination of capillary number and Bond number)[7]
|
Capillary number |
Ca |
|
porous media, fluid mechanics (viscous forces versus surface tension)
|
Cauchy number |
Ca |
|
compressible flows (inertia forces versus compressibility force)
|
Cavitation number |
Ca |
|
multiphase flow (hydrodynamic cavitation, pressure over dynamic pressure)
|
Chandrasekhar number |
C |
|
hydromagnetics (Lorentz force versus viscosity)
|
Colburn J factors |
JM, JH, JD |
|
turbulence; heat, mass, and momentum transfer (dimensionless transfer coefficients)
|
Damkohler number |
Da |
|
chemistry (reaction time scales vs. residence time)
|
Darcy friction factor |
Cf or fD |
|
fluid mechanics (fraction of pressure losses due to friction in a pipe; four times the Fanning friction factor)
|
Dean number |
D |
|
turbulent flow (vortices in curved ducts)
|
Deborah number |
De |
|
rheology (viscoelastic fluids)
|
Drag coefficient |
cd |
|
aeronautics, fluid dynamics (resistance to fluid motion)
|
Eckert number |
Ec |
|
convective heat transfer (characterizes dissipation of energy; ratio of kinetic energy to enthalpy)
|
Eötvös number |
Eo |
|
fluid mechanics (shape of bubbles or drops)
|
Ericksen number |
Er |
|
fluid dynamics (liquid crystal flow behavior; viscous over elastic forces)
|
Euler number |
Eu |
|
hydrodynamics (stream pressure versus inertia forces)
|
Excess temperature coefficient |
|
|
heat transfer, fluid dynamics (change in internal energy versus kinetic energy)[8]
|
Fanning friction factor |
f |
|
fluid mechanics (fraction of pressure losses due to friction in a pipe; 1/4th the Darcy friction factor)[9]
|
Froude number |
Fr |
|
fluid mechanics (wave and surface behaviour; ratio of a body's inertia to gravitational forces)
|
Galilei number |
Ga |
|
fluid mechanics (gravitational over viscous forces)
|
Görtler number |
G |
|
fluid dynamics (boundary layer flow along a concave wall)
|
Garcia-Atance number |
GA |
|
phase change (ultrasonic cavitation onset, ratio of pressures over pressure due to acceleration)
|
Graetz number |
Gz |
|
heat transfer, fluid mechanics (laminar flow through a conduit; also used in mass transfer)
|
Grashof number |
Gr |
|
heat transfer, natural convection (ratio of the buoyancy to viscous force)
|
Hartmann number |
Ha |
|
magnetohydrodynamics (ratio of Lorentz to viscous forces)
|
Hagen number |
Hg |
|
heat transfer (ratio of the buoyancy to viscous force in forced convection)
|
Iribarren number |
Ir |
|
wave mechanics (breaking surface gravity waves on a slope)
|
Jakob number |
Ja |
|
heat transfer (ratio of sensible heat to latent heat during phase changes)
|
Karlovitz number |
Ka |
|
turbulent combustion (characteristic flow time times flame stretch rate)
|
Kapitza number |
Ka |
|
fluid mechanics (thin film of liquid flows down inclined surfaces)
|
Keulegan–Carpenter number |
KC |
|
fluid dynamics (ratio of drag force to inertia for a bluff object in oscillatory fluid flow)
|
Knudsen number |
Kn |
|
gas dynamics (ratio of the molecular mean free path length to a representative physical length scale)
|
Kutateladze number |
Ku |
|
fluid mechanics (counter-current two-phase flow)[10]
|
Laplace number |
La |
|
fluid dynamics (free convection within immiscible fluids; ratio of surface tension to momentum-transport)
|
Lewis number |
Le |
|
heat and mass transfer (ratio of thermal to mass diffusivity)
|
Lift coefficient |
CL |
|
aerodynamics (lift available from an airfoil at a given angle of attack)
|
Lockhart–Martinelli parameter |
|
|
two-phase flow (flow of wet gases; liquid fraction)[11]
|
Mach number |
M or Ma |
|
gas dynamics (compressible flow; dimensionless velocity)
|
Marangoni number |
Mg |
|
fluid mechanics (Marangoni flow; thermal surface tension forces over viscous forces)
|
Markstein number |
Ma |
|
turbulence, combustion (Markstein length to laminar flame thickness)
|
Morton number |
Mo |
|
fluid dynamics (determination of bubble/drop shape)
|
Nusselt number |
Nu |
|
heat transfer (forced convection; ratio of convective to conductive heat transfer)
|
Ohnesorge number |
Oh |
|
fluid dynamics (atomization of liquids, Marangoni flow)
|
Péclet number |
Pe |
or |
fluid mechanics (ratio of advective transport rate over molecular diffusive transport rate), heat transfer (ratio of advective transport rate over thermal diffusive transport rate)
|
Prandtl number |
Pr |
|
heat transfer (ratio of viscous diffusion rate over thermal diffusion rate)
|
Pressure coefficient |
CP |
|
aerodynamics, hydrodynamics (pressure experienced at a point on an airfoil; dimensionless pressure variable)
|
Rayleigh number |
Ra |
|
heat transfer (buoyancy versus viscous forces in free convection)
|
Reynolds number |
Re |
|
fluid mechanics (ratio of fluid inertial and viscous forces)[5]
|
Richardson number |
Ri |
|
fluid dynamics (effect of buoyancy on flow stability; ratio of potential over kinetic energy)[12]
|
Roshko number |
Ro |
|
fluid dynamics (oscillating flow, vortex shedding)
|
Rossby number |
Ro |
|
fluid flow (geophysics, ratio of inertial force to Coriolis force)
|
Schmidt number |
Sc |
|
mass transfer (viscous over molecular diffusion rate)[13]
|
Shape factor |
H |
|
boundary layer flow (ratio of displacement thickness to momentum thickness)
|
Sherwood number |
Sh |
|
mass transfer (forced convection; ratio of convective to diffusive mass transport)
|
Sommerfeld number |
S |
|
hydrodynamic lubrication (boundary lubrication)[14]
|
Stanton number |
St |
|
heat transfer and fluid dynamics (forced convection)
|
Stokes number |
Stk or Sk |
|
particles suspensions (ratio of characteristic time of particle to time of flow)
|
Strouhal number |
St |
|
Vortex shedding (ratio of characteristic oscillatory velocity to ambient flow velocity)
|
Stuart number |
N |
|
magnetohydrodynamics (ratio of electromagnetic to inertial forces)
|
Taylor number |
Ta |
|
fluid dynamics (rotating fluid flows; inertial forces due to rotation of a fluid versus viscous forces)
|
Ursell number |
U |
|
wave mechanics (nonlinearity of surface gravity waves on a shallow fluid layer)
|
Wallis parameter |
j∗ |
|
multiphase flows (nondimensional superficial velocity)[15]
|
Weber number |
We |
|
multiphase flow (strongly curved surfaces; ratio of inertia to surface tension)
|
Weissenberg number |
Wi |
|
viscoelastic flows (shear rate times the relaxation time)[16]
|
Womersley number |
|
|
biofluid mechanics (continuous and pulsating flows; ratio of pulsatile flow frequency to viscous effects)[17]
|
Zel'dovich number |
|
|
fluid dynamics, Combustion (Measure of activation energy)
|