Transferability of calibration results obtained with conventional gases for application with hydrogen

B. Mickan, H.-B. Böckler, D. Schumann, J. van der Grinten
Abstract:
In the field of gas transport, the de-carbonisation of the energy supply is forcing the exchange of natural gas with hydrogen, either in mixtures or even pure hydrogen. Therefore, there is an increasing need to have reliable information about the behaviour of existing metering technologies with such hydrogen enriched gases or pure hydrogen. On the other hand, the availability of testing and calibration infrastructures for hydrogen has been very limited so far. A fast approach to close this gap is the usage of scaling procedures to transfer the calibration results gathered at facilities with conventional gases to field applications with hydrogen.The paper will introduce the scaling models applied at PTB for turbine gas meters (TM), rotary piston gas meters (RM) and differential pressure meters (DPM) to ensure transferability of calibration results obtained mainly with air and natural gas, and occasionally with nitrogen or water. All applied models are based on the Reynolds number as the dominant scaling parameter and include extensions to describe secondary effects if necessary.
Keywords:
Calibration; Hydrogen; Non-conventional gases; Turbine meter; Rotary piston meter; LFE; Orifice meter
Download:
IMEKO-TC9-2019-159.pdf
DOI:
10.21014/tc9-2022.159
Event details
IMEKO TC:
TC9
Event name:
FLOMEKO 2022
Title:

19th International Flow Measurement Conference 2022

Place:
Chongqing, CHINA
Time:
01 November 2022 - 04 November 2022