radial velocity | |
particle or particulate density | |
air density | |
radial distance | |
rotational velocity | |
particulate or particle diameter | |
air viscosity |
pressure drop | |
proportionality factor | |
gas flow rate | |
absolute pressure | |
gas density | |
temperature |
separation factor | |
radial velocity | |
settling velocity |
approximate effective turns | |
inlet height | |
cylinder length | |
cone length |
cut diameter | |
gas viscosity | |
inlet width | |
effective turns | |
inlet gas velocity | |
particle density | |
gas density |
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 |
Online Web Apps, Rich Internet Application, Technical Tools, Specifications, How to Guides, Training, Applications, Examples, Tutorials, Reviews, Answers, Test Review Resources, Analysis, Homework Solutions, Worksheets, Help, Data and Information for Engineers, Technicians, Teachers, Tutors, Researchers, K-12 Education, College and High School Students, Science Fair Projects and Scientists
By Jimmy Raymond
Contact: aj@ajdesigner.com
Privacy Policy, Disclaimer and Terms
Copyright 2002-2015