ISO 5167: Major developments in fluid flow measurement

ISO 5167 ensures accurate measurement of fluid flow. It defines the methods and instruments for measuring fluid flow by means of depressurizing devices inserted in loaded pipes of circular cross-section. The standard provides essential guidelines for the use of depressurizing devices such as diaphragms, nozzles and Venturi tubes.


the iso 5167 standard

ISO 5167 consists of six parts, each dealing with a specific aspect of flow measurement.

It covers general principles, orifice plates, nozzles, Venturi tubes, measuring cones and wedge flowmeters. These devices are inserted into a loaded pipe to determine fluid flow.

The2022 edition of ISO 5167 brings important updates.

It incorporates new data and improved methods for calculating flow rate and associated uncertainty. These changes are designed to ensure more accurate and reliable measurements in a wide range of industrial applications.

key points of iso 5167

Key points of ISO 5167

  • ISO 5167 defines methods for measuring fluid flow in pipes under load.
  • It covers various depressors used for precise flow measurement.
  • The 2022 edition of ISO5167 brings improvements for more reliable measurements.

general principles and requirements

ISO 5167-1 - General principles and requirements

ISO 5167-1 establishes the basic principles for measuring fluid flow by means of depressors inserted in loaded pipes of circular cross-section. It applies to depressors inserted in loaded pipes of circular cross-section. This section defines essential terms and symbols. It also sets out the general requirements for the use of these measuring devices.

fluid flow measurement using deprimogen devices
installation and operating conditions

The devices concerned include orifice plates, nozzles, Venturi tubes, cones and wedge flowmeters. All these instruments are designed for installation in solid pipes. The standard covers the geometry of the devices and their method of use. It specifies the installation and operating conditions to be met to obtain reliable measurements. One aspect covered is the calculation of flow rate andassociated uncertainty. The standard provides the information needed to perform these calculations accurately.

changes introduced in version 2022

Changes in ISO5167 version 2022

Clarifications have been made in Part 1 concerning the combination of standard uncertainties and the incorporation of practical examples. Internal diagnostics of pressure transmitters and the use of multiple transmitters to improve accuracy have been introduced. In addition, the flow measurement range has been extended, offering a ratio of 2:1 to around 11:1 thanks to improved pressure transmitters.


diaphragms

ISO 5167-2 - Diaphragms

ISO 5167-2 deals with diaphragm flow measurement. It sets out the general principles for measuring and calculating fluid flow in a circular pipe under load. The standard requires devices to be inserted into a filled circular-section pipe. It provides detailed information on flow calculation and associated uncertainty.

Modifications apportées dans la version 2022 : L’épaisseur maximale des bords des diaphragmes, lorsque le rapport β<0,2\beta < 0,2β<0,2, a été clarifiée. Cette modification vise à assurer une plus grande précision pour les petits diaphragmes, en particulier pour des rapports de diamètre β\betaβ faibles.

maximum diaphragm edge thickness

the pipes

Standard ISO 5167-3 - Pipes and Venturi-pipes

ISO 5167-3 describes nozzles and venturi nozzles used to measure fluid flow. These devices are inserted into loaded pipes with a circular cross-section. This standard applies to subsonic flows of single-phase fluids. It specifies pipe diameter and Reynolds number limits for the use of these devices. Nozzles and Venturi nozzles operate on the pressure-difference principle. The fluid passes through a narrowed cross-section, creating a measurable pressure difference.

Main features :

  • High accuracy
  • Moderate load loss
  • Good wear resistance

The standard details the datasheet technical specifications for the manufacture and installation of these devices.

It also provides equations for calculating flow from differential pressure measurements.

Changes made in version 2022: Updates have been made to threaded throat nozzles, improving discharge coefficients and reducing overall measurement uncertainty.


the venturis

ISO 5167-4 standard - Venturis

ISO 5167-4 defines datasheet for Venturi tubes used in fluid flow measurement. Venturi tubes operate on the pressure difference principle. They consist of a converging section, a neck and a diverging section. The standard covers several important aspects:

  • Tube geometry and dimensions
  • Installation requirements
  • Flow calculation methods
  • Limits of use

Venturi tube flowmeters offer several advantages:

  • High accuracy
  • Low-pressure drop
  • Durability

Changes made in version 2022: Clarifications have been made concerning the straight lengths required upstream, as well as the integration of new experimental data for machined Venturi tubes. The expanded uncertainty of discharge coefficients is now 1.8%.


measuring cones

ISO 5167-5 - Measuring cones

ISO 5167-5 defines datasheet for measuring cones used in fluid flow measurement. These devices are inserted into loaded pipes with a circular cross-section. Measuring cones are part of depressurizing devices. They create a pressure difference to measure flow. Their unique design enables precise measurement under a wide range of flow conditions.

Changes made in version 2022: Two corrections have been made to version 2016. These corrections include adjustments in the schematic key to ensure consistency with the drawings and datasheet of the internal angles of the truncated cone.

two corrections have been made

wedge-type flowmeters

ISO 5167-6 - Wedge-type flowmeters

ISO 5167-6 covers wedge-type flowmeters used to measure the flow of fluids in a pipe. The standard specifies the geometry and operating conditions of these devices. It defines application limits in terms of pipe diameter, roughness and Reynolds number. It provides the information needed to calculate flow and its uncertainty.

Changes made in version 2022: A correction has been made to Appendix B concerning the definition of the Kd2K_d^2Kd2 coefficient, as well as additional clarifications on the uncertainty relating to expansibility.


Frequently asked questions about ISO5167

What is the recommended process for calibrating measuring instruments to ISO 5167?

ISO 5167 recommends regular calibration of measuring instruments. The process involves comparing the instrument's measurements with known reference values.

Calibration must be carried out under conditions similar to those of actual use. The standard provides guidelines on frequency and appropriate calibration methods.

What are the differences between previous editions and the current version of ISO 5167?

The current version of ISO 5167 2022 comprises six separate parts. It has been updated in 2022 to include new device types such as measuring cones and wedge flowmeters.

Recent editions incorporate technological advances and improvements based on industry feedback. They also provide more detailed instructions for use and installation.

What parameters are critical when choosing an ISO 5167-compliant measuring device?

The choice of an ISO 5167-compliant measuring device depends on a number of factors. The nature of the fluid, the expected flow rate and the flow conditions are critical parameters.

Accuracy requirements, installation constraints and maintenance costs also influence selection. The standard provides guidelines for selecting the most appropriate device according to these criteria.


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