Sensitivity of natural gas flow measurement to AGA8 or GERG2008 equation of state utilization

Standard

Sensitivity of natural gas flow measurement to AGA8 or GERG2008 equation of state utilization. / Farzaneh-Gord, Mahmood; Mohseni-Gharyehsafa, Behnam; Toikka, Alexander ; Zvereva, Irina.

In: Journal of Natural Gas Science and Engineering, Vol. 57, 09.2018, p. 305-321.

Research output: Contribution to journal › Article › peer-review

Author

Farzaneh-Gord, Mahmood ; Mohseni-Gharyehsafa, Behnam ; Toikka, Alexander ; Zvereva, Irina. / Sensitivity of natural gas flow measurement to AGA8 or GERG2008 equation of state utilization. In: Journal of Natural Gas Science and Engineering. 2018 ; Vol. 57. pp. 305-321.

BibTeX

@article{801150c1a0a44ba3b42a6583912666a6,

title = "Sensitivity of natural gas flow measurement to AGA8 or GERG2008 equation of state utilization",

abstract = "The accurate measurement of natural gas flow at metering point is essential for custody transfer. The most used technologies for natural gas measurements are including turbine flow meters, ultrasonic flow meters and orifice flow meters. These flow meters are basically volume flow meter which measure natural gas volume at flow condition. Then the natural gas volume at flow condition should be converted to volume at base (standard) condition by appreciated procedure. Historically, the AGA8 equation of state (EOS) is widely used for such conversion. Recently, a new equation of state (GERG 2008) was presented by European Gas companies for natural gas thermodynamic properties calculation. The main objective of the current study is to present a comparison between AGA8 and GERG2008 EOS in computing conversion factor. Firstly, the Z-factor is calculated based on ISO20765-1 standard which is most recent version of AGA8 EOS. Then, ISO20765-2 standard has been employed to calculate Z-factor based on GERG2008 EOS. Comparing the calculated Z-factor and measured value of previous studies show that the accuracy of GERG2008 EOS is higher than AGA8 for all studied range of pressure and temperature and for various composition ranges. Results also show that GERG2008 equation of state predicts Z-factor higher than AGA8 standard in practical region of measurement. The results also reveal very important findings. Surprisingly, the relative difference is negative for the practical region of measurement. It means that by replacing AGA8 EOS by GERG2008 standard, the less flow is registered by the measurement system. In other words, simply by utilizing the GERG2008 EOS (instead of AGA8 EOS), the buyer benefits.",

keywords = "Natural gas, Natural gas measurement, AGA8 equation of State, GERG2008 equation of state, Converting factor, AGA8 equation of State, Converting factor, GERG2008 equation of state, Natural gas, Natural gas measurement, WIDE-RANGE, THERMODYNAMIC PROPERTIES, PRESSURES, CUBIC EQUATIONS, MODEL, ISENTROPIC EXPONENT, PREDICTION, METHANE, FLUID MIXTURES, COMPRESSIBILITY FACTOR",

author = "Mahmood Farzaneh-Gord and Behnam Mohseni-Gharyehsafa and Alexander Toikka and Irina Zvereva",

year = "2018",

month = sep,

doi = "10.1016/j.jngse.2018.07.014",

language = "English",

volume = "57",

pages = "305--321",

journal = "Journal of Natural Gas Science and Engineering",

issn = "1875-5100",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Sensitivity of natural gas flow measurement to AGA8 or GERG2008 equation of state utilization

AU - Farzaneh-Gord, Mahmood

AU - Mohseni-Gharyehsafa, Behnam

AU - Toikka, Alexander

AU - Zvereva, Irina

PY - 2018/9

Y1 - 2018/9

N2 - The accurate measurement of natural gas flow at metering point is essential for custody transfer. The most used technologies for natural gas measurements are including turbine flow meters, ultrasonic flow meters and orifice flow meters. These flow meters are basically volume flow meter which measure natural gas volume at flow condition. Then the natural gas volume at flow condition should be converted to volume at base (standard) condition by appreciated procedure. Historically, the AGA8 equation of state (EOS) is widely used for such conversion. Recently, a new equation of state (GERG 2008) was presented by European Gas companies for natural gas thermodynamic properties calculation. The main objective of the current study is to present a comparison between AGA8 and GERG2008 EOS in computing conversion factor. Firstly, the Z-factor is calculated based on ISO20765-1 standard which is most recent version of AGA8 EOS. Then, ISO20765-2 standard has been employed to calculate Z-factor based on GERG2008 EOS. Comparing the calculated Z-factor and measured value of previous studies show that the accuracy of GERG2008 EOS is higher than AGA8 for all studied range of pressure and temperature and for various composition ranges. Results also show that GERG2008 equation of state predicts Z-factor higher than AGA8 standard in practical region of measurement. The results also reveal very important findings. Surprisingly, the relative difference is negative for the practical region of measurement. It means that by replacing AGA8 EOS by GERG2008 standard, the less flow is registered by the measurement system. In other words, simply by utilizing the GERG2008 EOS (instead of AGA8 EOS), the buyer benefits.

AB - The accurate measurement of natural gas flow at metering point is essential for custody transfer. The most used technologies for natural gas measurements are including turbine flow meters, ultrasonic flow meters and orifice flow meters. These flow meters are basically volume flow meter which measure natural gas volume at flow condition. Then the natural gas volume at flow condition should be converted to volume at base (standard) condition by appreciated procedure. Historically, the AGA8 equation of state (EOS) is widely used for such conversion. Recently, a new equation of state (GERG 2008) was presented by European Gas companies for natural gas thermodynamic properties calculation. The main objective of the current study is to present a comparison between AGA8 and GERG2008 EOS in computing conversion factor. Firstly, the Z-factor is calculated based on ISO20765-1 standard which is most recent version of AGA8 EOS. Then, ISO20765-2 standard has been employed to calculate Z-factor based on GERG2008 EOS. Comparing the calculated Z-factor and measured value of previous studies show that the accuracy of GERG2008 EOS is higher than AGA8 for all studied range of pressure and temperature and for various composition ranges. Results also show that GERG2008 equation of state predicts Z-factor higher than AGA8 standard in practical region of measurement. The results also reveal very important findings. Surprisingly, the relative difference is negative for the practical region of measurement. It means that by replacing AGA8 EOS by GERG2008 standard, the less flow is registered by the measurement system. In other words, simply by utilizing the GERG2008 EOS (instead of AGA8 EOS), the buyer benefits.

KW - Natural gas

KW - Natural gas measurement

KW - AGA8 equation of State

KW - GERG2008 equation of state

KW - Converting factor

KW - AGA8 equation of State

KW - Converting factor

KW - GERG2008 equation of state

KW - Natural gas

KW - Natural gas measurement

KW - WIDE-RANGE

KW - THERMODYNAMIC PROPERTIES

KW - PRESSURES

KW - CUBIC EQUATIONS

KW - MODEL

KW - ISENTROPIC EXPONENT

KW - PREDICTION

KW - METHANE

KW - FLUID MIXTURES

KW - COMPRESSIBILITY FACTOR

UR - http://www.scopus.com/inward/record.url?scp=85050224122&partnerID=8YFLogxK

UR - http://www.mendeley.com/research/sensitivity-natural-gas-flow-measurement-aga8-gerg2008-equation-state-utilization

U2 - 10.1016/j.jngse.2018.07.014

DO - 10.1016/j.jngse.2018.07.014

M3 - Article

AN - SCOPUS:85050224122

VL - 57

SP - 305

EP - 321

JO - Journal of Natural Gas Science and Engineering

JF - Journal of Natural Gas Science and Engineering

SN - 1875-5100

ER -

ID: 33234533