©
Pneumatic transport
  Solves a typical pneumatic transport problem Under construction
2025.Feb.19 21:40:50
D mm Pipe diameter (internal, smooth). •
Mp kg ⁄ Particle mass flow rate to be transported. •
Dp, ρp m;  kg ⁄ m3 Particle size (diameter), and mass density. •
Lv m Height (vertical, above feed point). •
Mf, ρf m3; kg ⁄ m3 Gas flow rate, particle density. •
Pf Pressure. •
ε in Search interval for ε, porosity. •
Show values ? Shows the graph coordinates.

Solves a typical problem of pneumatic transport. Will the system work as required ?

References: Plate: Pneumatic

• Rhodes, M., 2008, "Introduction to particle technology", 2.nd ed., John Wiley & Sons, Ltd., Chichester (UK) (ISBN 978-0-470-01427-1). At Scribd... (pp 31, 214 Eq.s 8.1&8.2, 218 Eq. 8.15, Δp)

• Thompson, Ambler and Barry N. Taylor, 2008, "Guide for the use of the International System of units (SI)".pdf (x+78 pp, 2.2 Mb) (=.pdf), NIST* Special Publication 811, US Department of Commerce, Gaithesburg, MD (USA).   *"National Inst. of Standards and Technology", former NBS, "Natl. Bureau of Standards".

• "The NIST Reference on constants, units, and uncertainty". (†Units outside the SI: hour, h; minute, min).

• 1571-12-27: Kepler, Johannes (1630-11-15).

 
 
Valid HTML 4.01! IST http://web.tecnico.ulisboa.pt/~mcasquilho/compute/com/Fx-pneumatic.php
Created: 2011-12-27 — Last modified: 2012-01-20