8
Section 1 Scanner
®
2000 microEFM
Flow Rate and Fluid Property Calculations
The Scanner 2000 calculates ow rates and uid properties for natural gas, steam and liquid ow. The
following descriptions identify the industry standards upon which these calculations are based.
Natural Gas
The Scanner 2000’s natural gas calculations and data storage conform to AGA-3, AGA-7, AGA-8, API 21.1,
and ISO-5167 industry standards. The ow calculations compensate for the effects of pressure, temperature,
and gas composition to calculate the volume of gas measured at specied base conditions. These calculations
typically require conguration of inputs including differential pressure, static pressure, process temperature,
and for AGA-7, a turbine meter input.
The integral multi-variable transmitter (MVT) is used to measure static pressure and differential pressure. A
4-wire, 100-ohm platinum RTD is recommended for measuring process temperature. Where temperature is
relatively constant, a xed temperature value may be congured.
Orice Plate (DP Input). The Scanner 2000 calculates natural gas ow rate from orice plates using
calculation methods found in the AGA-3 or ISO-5167 measurement standards. The natural gas uid
properties, such as density and compressibility, are calculated in accordance with AGA-8 (Detail and Gross
methods). Heating values are calculated in accordance with AGA Report 3, Part 3, Appendix F using the gas
properties dened in GPA 2145. Molar mass (molecular weight) calculations are also based on GPA 2145.
NuFlo Cone Meter (DP Input). The Scanner 2000 calculates natural gas ow rate from cone meters using
industry-recognized algorithms identied in the NuFlo Cone Meter User Manual. The natural gas uid
properties, such as density and compressibility, are calculated in accordance with AGA-8 (Detail and Gross
methods). Heating values are calculated in accordance with AGA Report 3, Part 3, Appendix F using the gas
properties dened in GPA 2145. Molar mass (molecular weight) calculations are also based on GPA 2145.
Gas Turbine Meter (Frequency Input). The Scanner 2000 calculates natural gas ow rate from a gas turbine
meter using calculations found in the AGA-7 measurement standard. The natural gas uid properties, such as
density and compressibility, are calculated in accordance with AGA-8 (Detail and Gross methods). Heating
values are calculated in accordance with AGA Report 3, Part 3, Appendix F using the gas properties dened in
GPA 2145. Molar mass (molecular weight) calculations are also based on GPA 2145.
Averaging Pitot Tube Meter (Annubar
®
). The Scanner 2000 calculates natural gas ow rate from an
averaging pitot tube meter using calculations found in the ASME MFC-12M-2006 measurement standard.
The natural gas uid properties, such as density and compressibility, are calculated in accordance with
AGA-8 (Detail and Gross methods). Heating values are calculated in accordance with AGA Report 3, Part 3,
Appendix F using the gas properties dened in GPA 2145. Molar mass (molecular weight) calculations are
also based on GPA 2145.
Steam
The Scanner 2000’s saturated steam calculations compensate for the effects of pressure, temperature, steam
properties, and steam quality.
Orice Plate (DP Input). The Scanner 2000 supports steam measurement based on AGA-3 or ISO-5167
ow rate methods for orice plates. Fluid properties are calculated in accordance with the IAPWS Industrial-
Formulation 1997 (IF-97) standard. Temperature is calculated according to IF-97 for saturated steam, based
on static pressure. Therefore, an RTD is not required. The optional Chisholm and James wet correction
methods are supported for the measurement of vapor and uid.
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