A set of calculators to help steam practitioners and designers solve problems associated with steam and condensate engineering. Typical calculations include valve sizing for saturated steam and sub-saturated water, pipe sizing for saturated steam and condensate, start-up and running losses from tanks and steam pipes, and some other useful aids such as a flash steam calculator, how to convert Kv to orifice diameter, and others.
Set your preferences for these calculators.
Sizing for Water
| Sizing for Dry Saturated Steam
The calculator allows valve flow coefficients to be determined for various flowrates and pressure drops. It can also calculate the flowrate for a given flow coefficient and pressure drop, or the pressure drop for a given flowrate and flow coefficient. Suitable for saturated steam and sub-saturated water.
Sizing New Pipes
| Checking Existing Pipes
| Start Up & Running Losses
Single Discharge Line
| Two Discharge Lines
| Three Discharge Lines
| Pumped Return Lines
Undersized pipes create large pressure drops and high velocities, whilst oversized pipes are unnecessary and costly. This calculator allows steam and condensate pipes to be sized correctly. Steam pipes can be sized on pressure drop and velocity, and up to three steam trap discharge lines and associated common lines can be sized. Discharge lines from mechanical and electrical condensate pumps can also be sized.
Vertical Cylinder Tank
| Rectangular Tank
| Dished End Horizontal Cylinder Tank
Find the heat losses from rectangular and cylindrical tanks for the start-up and running conditions. The calculator determines the heating requirement to satisfy the larger of the two heat loads, and then informs of the diameter and length of steam coil required to satisfy the conditions. The maximum steam condensing rate is then calculated to allow the steam control valve and coil steam trap to be sized correctly.
| Sub-cooled Condensate
Find the amount of flash steam formed from condensate in downstream pipework due to the pressure drop across a throttling device like a steam trap. The calculator can also be used to size a flash vessel based on the same parameters.
Orifice Diameter to Flow Coefficient
| Flow Coefficient to Orifice Diameter
Knowing the required flow coefficient for a specified flowrate, this calculator determines the size of orifice to suit. The reciprocal calculation is also possible whereby, knowing the orifice diameter, the corresponding flow coefficient can be determined.
Steam Flow Rate to Heat Rating
| Heat Rating to Steam Flow Rate
This calculates the flowrate of saturated steam required to satisfy a heating load, such as a heat exchanger or an air heater battery operating at a specified pressure. The reciprocal calculation is also possible whereby, knowing the steam flowrate to a heat exchanger or air heater battery, the corresponding heat load can be ascertained.
This calculator considers the mixed temperature of two water streams. Knowing the hot and cold water temperatures, and the required mixture temperature and its flowrate, the percentage flow and actual flow of each stream is determined.
This calculator, provided by Hygromatik, allows the calculation of humidification in your system. Please note this calculator is available on the Hygromatik website and is not part of the Spirax Sarco site. Hygromatik is a member of the Spirax Sarco Engineering group.