This calculation can be set to calculate the flow rate through an orifice plate metering system, the differential pressure setting of the metering system or the orifice size to use for specified flowing conditions according to the 2003 revision of the ISO 5167 standard.
ISO 5167-1:2003 – Measurement of fluid low by means of pressure differential devices inserted in circular cross-section conduits running full – Part 1: General principles and requirements
ISO 5167-2:2003 – Measurement of fluid low by means of pressure differential devices inserted in circular cross-section conduits running full – Part 2: Orifice plates
ISO TR 9464:2008 – Guidelines for the use of ISO 5167:2003
BS 1042: Part 1. Pressure differential devices – Section 1.2 Specification for square-edged orifice plates and nozzles (with drain holes, in pipes below 50mm diameter, as inlet and outlet devices) and other orifice plates and Borda inlets (1984)
Kelton calculation reference C070
FLOCALC calculation reference F070
Kelton calculation C270 – ISO 5167 Orifice Mass Flow Calculation
Kelton calculation C273 – ISO 5167 Differential Pressure Calculations
Kelton calculation C274 – ISO 5167 Sizing Calculation
Kelton calculation C261 – Gas Flowrate Conversion from Qm
Kelton calculation C262 – Liquid Flowrate Conversion
- Flow Rate
- Orifice Size
- Differential Pressure
This option is used to select what type of calculation the user wishes to implement determined by the necessary output.
If solving for flow rate the options for this calculation are the same as for C270 ISO 5167 Orifice Plate Calculations however the year of the standard will be set to 2003.
When solving for orifice size or differential pressure the options available will be the same as C274: ISO 5167 Sizing Calculation or C273: ISO 5167 Differential Pressure Calculation respectively with the standard year set to 2003 and the meter type set to orifice.
The calculations available to the user here all revolve around the mass flow rate equation as can be seen in C270. The 2003 standard uses the Reader-Harris Gallagher equation to calculate discharge coefficient. The equations used to calculate expansibility factor, pressure loss and upstream temperature can be found here and the upstream density calculation can be found here. Note that to comply with the 2003 ISO 5167 standard the isenthalpic corrections must be applied to temperature and density (if such a correction is necessary).