STABILITY FACTORS IN GAS METER VERIFICATION LABORATORIES: MATHEMATICAL MODELING AND ERROR CONTRIBUTION ASSESSMENT

Authors

  • Bekmurotov Chori Abdullayevich Associate Professor Tashkent State Technical University named after Islam Karimov, Associate Professor of the Department of Metrology, Technical Regulation, Standardization and Certification, Doctor of Philosophy (PhD) in Technical Sciences.
  • Avezov Nodirbek Egambergonovich Tashkent State Technical University named after Islam Karimov, Associate Professor of the Department of Metrology, Technical Regulation, Standardization and Certification, Doctor of Philosophy (PhD) in Technical Sciences.
  • Inagamdjanov Doniyor Tuxtamuratovich Uzbekistan National Metrology Institute, State Institution — Specialist, Independent Researcher.
  • Usmonov Hamzaali Qambarali ugli Uzbekistan National Metrology Institute, State Institution — Specialist, Independent Researcher.

Keywords:

gas meter, verification facility, instability, flow pulsation, measurement error, compressibility factor, Monte Carlo simulation.

Abstract

Instability in verification facilities used for gas meter calibration arises from multiple physical and metrological factors, including pressure and temperature fluctuations, flow pulsations, gas compressibility and composition changes, hydraulic regime variations in pipelines, sensor drift, regulator dynamics, and reference channel uncertainties.

References

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Gündogdu, M. Y., Carpinlioglu, M. O. Present State of the Art on Pulsatile Flow Theory (Part 2: Laminar and Transitional Flow Regimes). Journal of the Japan Society of Mechanical Engineers, Series B, 1999, Vol. 42, No. 3, pp. 398–410.

Alemasov, V. E., Glebov, G. A., Kozlov, A. P. Thermoanemometric Methods for Studying Separated Flows. Kazan: Kazan Branch of the USSR Academy of Sciences, 1989, 178 p.

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Published

2026-02-09

How to Cite

Bekmurotov, C. ., Avezov, N. ., Inagamdjanov , D., & Usmonov, H. . (2026). STABILITY FACTORS IN GAS METER VERIFICATION LABORATORIES: MATHEMATICAL MODELING AND ERROR CONTRIBUTION ASSESSMENT. International Bulletin of Engineering and Technology, 6(2), 5–13. Retrieved from https://internationalbulletins.com/intjour/index.php/ibet/article/view/2400

Issue

Vol. 6 No. 2 (2026): International Bulletin of Engineering and Technology

Section

Articles

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