Abstract This paper illustrates the gas flow rate measurement techniques that can be introduced in future domestic applications. First, the role of the gas meter in legal metrology is introduced. Then, the “intelligent” (or “smart”) gas meter is analyzed, since it should be used in the near future. Such a meter is an improvement of the current domestic diaphragm gas meter, also equipped with electronic components, so as to obtain a more flexible instrument and a more convenient measurement data processing (temperature compensation, remote reading, etc.). After that, static gas meters are analyzed. Such meters have no moving parts. Of this category, only ultrasonic and fluidic oscillator meters are reviewed here. At present they are in an advanced phase of experimentation for custody transfer gas metering. Thanks to their design, which does not include any moving parts, these meters may represent in the future the best solution to measure the consumption of natural gas for domestic use. This paper discusses the operating principles and metrological characteristics of the static meters mentioned above, and provides some experimental results regarding domestic gas measurement. Finally, their possible evolution and application on the international scene are briefly outlined.
[1]
H. Yamasaki,et al.
A new fluidic oscillator for flow measurement.
,
1988
.
[2]
R. S. Medlock.
The Techniques of Flow Measurement
,
1982
.
[3]
R. B. Beale,et al.
Development of a wall-attachment fluidic oscillator applied to volume flow metering
,
1974
.
[4]
H. Yamasaki,et al.
Fluidic oscillator type flowmeter without control ports.
,
1988
.
[5]
K. Sakai,et al.
The fluidic flowmeter—A gas flowmeter based on fluidic dynamic oscillation
,
1989
.
[6]
R F Boucher,et al.
Low Reynolds number fluidic flowmetering
,
1988
.
[7]
R. S. Medlock.
The Techniques of Flow Measurement (Part 2)
,
1983
.
[8]
Furio Cascetta,et al.
Flowmeters: A Comprehensive Survey and Guide to Selection
,
1988
.
[9]
H. Yamasaki,et al.
A new hydrodynamic oscillator type flowmeter.
,
1986
.
[10]
R A Furness,et al.
Mass Flow Measurement — A State of the Art Review
,
1990
.