The City Gas Flow Standard Facility within (2~4) MPa

Han Zhang, Liang Wang, Xinli Dong, Donghong Huang,Peijuan Cao, Yong Li, Ronghui Shang, Shihui Zeng, Xuejian Li
Abstract:
In order to meet the traceability requirements of city gas flow meters, the city gas flow standard facility was built based on master meter method. As the non-fixed usage of master meters and the low temperature of natural gas, the uncertainty evaluation and control of the standard facility were investigated. The results showed that the standard facility used four turbine flowmeters as master meters and has mobility, while the achievable flowrate range is within (60 ~ 8600) m³/h and the pressure range of (2 ~ 4) MPa. The uncertainty of the non-point usage of the master meters was controlled based on the curve fitting method, while the uncertainty of the city gas flow standard facility was 0.26 % (k = 2). Compared with NIM-2014, NIM-2015 was more suitable for master meters with scattered error curves. On this basis, the heat transfer model of the cryogenic natural gas flow in pipeline was established. It was found that the dynamic temperature balance of the facility can be achieved through a longer pre-flow time, which can improve the measurement repeatability. The uncertainty of the calibrated flowmeter is 0.32 % (k = 2). In addition, the comparison experiment with NIM verified the above results.
Keywords:
City gas; Natural gas flow; Uncertainty evaluation
Download:
IMEKO-TC9-2019-071.pdf
DOI:
10.21014/tc9-2022.071
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