Process hydraulics
Authors: Thomas Considine, Sean Kelton, Michael Gleeson
Introduction
The transportation and storage of fluids is essential to a chemical process plant. Piping, valves, pumps and compressors comprise the major components of fluid handling equipment. The goal of process hydraulics in a design setting is to overcome frictional losses in piping and equipment, provide correct operating conditions, and overall assist in the controls of the plant. All three objectives must be design in concert, and before the final controls system is designed. (Towler, 1207).
Hydraulic systems & Pressure drop
Overall pressure drops created by pumps and compressors must also include those created by the connecting pipes. These components must be designed in concert, to account for changes in elevation and friction losses in the pipe.
Total Pressure Drop
Pressure drops throughout the flow of a fluid can be summed to find the overall pressure drop of a defined system. For example: If a fluid A, initially at zero gauge pressure, is pumped to a pressure of 300 kPa, then flows through 10 meters of pipe resulting in a loss of 50 kPa, the final gauge pressure at the end of the pipe is 250 kPa. This type of analysis is useful when designing pressure systems over many components.
Pressure Drop in Pipes
When designing pumps and compressors, the loss of pressure due to piping is not negligible, and must be appropriately accounted for (Turton, 537). The pressure change in pressure across a pipe is calculated as follows:
where and are specific coefficient (typically 0.005 for turbulent flows), the length of piping, the diameter of piping, the density of the fluid, and the velocity of the fluid.
An added term accounting for the pressure difference due to height is also necessary if there is a change in elevation.
Additionally, the first term in the equation can be altered to include an additional factor:
which accounts for piping bends, restrictions, and other variables.
Pumps & Compressors
TJ: Check out (Seider, 132) (the dark grey book) for a pumps/compressor rule of thumb