Cyclone Design Equations Formulas Calculator

Air Filtration Quality Purification Pollution Control

Solving for air viscosity

air viscosity

Inputs:

particle density (pparticle)
air density (pair)
radial distance (r)
rotational velocity (w)
particle diameter (d)
radial velocity (vradial)
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Conversions:

particle density (pparticle)
= 0
= 0
kilogram/meter^3
air density (pair)
= 0
= 0
kilogram/meter^3
radial distance (r)
= 0
= 0
meter
rotational velocity (w)
= 0
= 0
radian/second
particle diameter (d)
= 0
= 0
meter
radial velocity (vradial)
= 0
= 0
meter/second

Solution:

air viscosity (u)
= NOT CALCULATED

Other Units:


Change Equation
Select to solve for a different unknown
cyclone radial velocity
radial velocityradial velocity
particle or particulate densityparticle or particulate density
air densityair density
radial distanceradial distance
rotational velocityrotational velocity
particulate or particle diameter particulate or particle diameter
air viscosityair viscosity
cyclone pressure drop
pressure droppressure drop
proportionality factorproportionality factor
gas flow rategas flow rate
absolute pressureabsolute pressure
gas densitygas density
temperaturetemperature
cyclone separation factor
separation factorseparation factor
radial velocityradial velocity
settling velocitysettling velocity
cyclone approximate effective turns
approximate effective turnsapproximate effective turns
inlet heightinlet height
cylinder lengthcylinder length
cone lengthcone length
cyclone cut diameter
cut diametercut diameter
gas viscositygas viscosity
inlet widthinlet width
effective turnseffective turns
inlet gas velocityinlet gas velocity
particle densityparticle density
gas densitygas density
Where
vradial=radial velocity
vinlet=inlet velocity
pparticle=particle or particulate density
pair=air density
r=radial distance
w=rotational velocity
d=particle particulate or diameter
Pdrop=pressure drop
Q=gas flow rate
P=absolute pressure
pgas=gas density
u=air viscosity
ugas=gas viscosity
K=proportionality factor
T=temperature
v=settling velocity
S=separation factor
N=approximate effective turns
h=inlet height
Lcylinder=cylinder length
Lcone=cone length
dcut=cut diameter
W=inlet width

References - Books:
1) P. Aarne Vesilind, J. Jeffrey Peirce and Ruth F. Weiner. 1994. Environmental Engineering. Butterworth Heinemann. 3rd ed.
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