| Liquid and Gas Flow Applications | |
|---|---|
| On-Line Friction Piping Loss | On-line Compressible Flow Pressure Loss |
| Rigorous calculation of the pressure loss for flowing liquids, based on liquid properties, flow, and piping configuration (pipe length, fittings, and valves). Results can be printed out or "cut and paste" into other applications. | Rigorous calculation of the pressure loss for flowing gases, based on as properties, flow, and piping configuration (pipe length, fittings, and valves). Results can be printed out or "cut and paste" into other applications.
Read about this application in Pharmaceutical Online |
| On-Line Liquid Friction Loss for any Pipe Size | On-Line Gas Friction Loss for any Pipe Size |
| This application determines the pressure loss due to friction in any sized straight pipe or tube. This is useful when dealing with very small piping or tubing or for flow though small channels. This application is only applicable for straight pipes, and cannot accommodate losses due to fittings and valves (it does include inlet and outlet losses though). If standard sized piping is being used then the application above "On-Line Friction Piping Loss" should be used. | This application determines the compressible gas pressure loss due to friction in any sized straight pipe or tube. This is useful when dealing with very small piping or tubing or for flow though small channels. This application is only applicable for straight pipes, and cannot accommodate losses due to fittings and valves (it does include inlet and outlet losses though). If standard sized piping is being used then the application above "On-line Compressible Flow Pressure Loss " should be used. |
| Equivalent Length pipe estimation | Open Channel Flow in Circular Pipe |
| HOW TO PREDICT PRESSURE DROP BEFORE DESIGNING THE PIPING from Chemical Engineering Magazine, March 16, 1987 Grant S. Brown, Rust International Corp.; Mark Lipowicz, Editor | Open channel flow in pipes based on Manning's Equation. |
| Gas Density Calculator | Draining Time for Vertical Tanks |
| Gas density and specific volume calculation based on system conditions and compressibility factor. | Determination of the time it takes to drain a vertical tank including the resistance of the outlet piping. This program calculates the draining time between any two levels in a vessel with a flat, elliptical, or hemispherical bottom head. |
| Design of Self-Venting Piping | |
| How to size piping that is self-venting for vertical pipes, and side outlet applications. |
Determination of Sealing Flowrates in Flow in Horizontal Pipes
Determination the minimum flowrate in a horizontal pipe to keep it full of liquid.