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AGA8_OPT
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N/A
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Determines whether the AGA8 parameters are entered manually or
calculated using the detail method. AGA8 parameters include DEN_FLW, DEN_BASE,
ZF, ZB, F_PV, and REL_DEN. AGA8_OPT can be either:
-
Calculate AGA-8 parameters using Detail Method -
Select this option if the fluid is a natural gas.
-
Manually enter the AGA-8 parameters - Select this
option for other single-phase, Newtonian fluids under turbulent flow. Manually
enter DEN_FLW, DEN_BASE, VISCOSITY, and HTG_VAL (if applicable). Change
HTG_VAL, ZF, ZB, F_PV, and REL_DEN to 0.0 when not applicable.
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BASE_PRES
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kPa (kilo Pascals absolute)
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Base pressure. The reference pressure for base density and base
volumetric flow.
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BASE_TEMP
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°C
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Base temperature. The reference temperature for base density
and base volumetric flow.
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BETA_RATIO
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N/A
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Calculated ratio of orifice bore to pipe inside diameter after
temperature correction. Has meaning when METER_TYPE is
Differential Pressure.
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COMP_SUM
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None
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The sum of the mole percents in GAS_COMP. If not between 99.995
and 100.005, results in a run-time ERROR_STATE of
Gas composition sum not 100% if AGA8_Opt is
Calculate AGA-8 parameters using Detail Method.
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CURR_ENERGY
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GJ (gigajoules)
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The currently active accumulation of energy flow.
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CURR_HRS_ON
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Hours
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The currently active accumulation of time with flow through the
pipe (IN > LOW_CUT (differential pressure) or VOL_FLW_F > 0.0 (turbine)).
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CURR_VOLUME
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m3 (cubic meters)
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The currently active accumulation of volumetric flow at base
conditions.
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DEN_BASE
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kg/m3 (kilograms per cubic meter)
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Mass density at base conditions. When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains its previous value or the value as entered.
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DEN_FLW
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kg/m3 (kilograms per cubic meter)
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Mass density at flowing conditions. When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains its previous value or the value as entered.
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ENGY_FLW
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GJ/hr (gigajoules per hour)
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Instantaneous energy flow.
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ERROR_ACT
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N/A
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Indicates that an error condition is active (0 = no error, 1 =
an error condition is active). The error is defined as text in ERROR_STATE.
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ERROR_STATE
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N/A
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The error state of the block. When other than Clear indicates
the validity of the calculations is questionable:
-
Gas Composition Sum Not 100% — The sum of the mole percents
in GAS_COMP does not equal 100.0 and AGA8_OPT is
Calculate AGA-8 parameters using Detail Method.
Results in Bad status on output parameters.
-
Invalid Pipe or Orifice Size — Actual beta ratio is less
than 0.1 or greater than 0.75, or orifice ID is less than 11.43mm, or pipe ID
is less than 48.26mm. Applicable when METER_TYPE is
Differential Pressure.
-
Reynolds Number Out of Range — Calculated pipe Reynolds
number is less than 4000. Applicable when METER_TYPE is
Differential Pressure.
-
AGA-8 Algo Not Convergent — The required iterations exceeded
ITERATE_LIM8; thus, the AGA8 algorithm did not converge. Applicable when
AGA8_OPT is
Calculate AGA-8 parameters using Detail Method.
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AGA-3 Algo Not Convergent — The required iterations exceeded
ITERATE_LIM3; thus, the AGA3 algorithm did not converge.
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F_PV
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N/A
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Supercompressibility factor. The square root of the ratio of
the compressibility factors (base to flowing). When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains its previous value or the value as entered.
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GAS_COMP
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Mole fractions as percents
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An array containing the mole fractions of 21 gas components.
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Methane
-
Nitrogen
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Carbon Dioxide
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Ethane
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Propane
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Water
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Hydrogen Sulfide
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Hydrogen
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Carbon Monoxide
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Oxygen
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i-Butane
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n-Butane
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i-Pentane
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n-Pentane
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n-Hexane
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n-Heptane
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n-Octane
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n-Nonane
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n-Decane
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Helium
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Argon
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HTG_VAL
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MJ/m3 (megajoules per cubic meter)
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Volumetric heating value. Calculated per ISO6976 from the mole
fractions in GAS_COMP, the superior calorific values of the components, and
compressibility factors of the components (15/15 data).
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IN
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kPa (kilo Pascals [differential pressure],
m3/hr (cubic meters per hour [turbine])
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When METER_TYPE is
Differential Pressure, IN is the measured differential
pressure. When METER_TYPE is
Turbine, IN is the volumetric flow from a Pulse Input
function block.
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IS_EXP
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N/A
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Isentropic exponent of the natural gas or other fluid. Enter
the value at expected flowing conditions. The default value is reasonable for
natural gases. For an incompressible fluid enter –1.0. Not used when METER_TYPE
is
Turbine.
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ITERATE_LIM3
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N/A
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The number of iterations limit for the AGA3 mass flow
calculation
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ITERATE_LIM8
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N/A
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The number of iterations limit for the AGA8 density and
compressibility factor calculations.
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LAST_ENERGY
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GJ (gigajoules)
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The total accumulation of energy flow at the time of the last
reset (using TIMER_ACCUM).
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LAST_HRS_ON
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Hours
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The total accumulation of time with flow through the pipe at
the time of the last reset (using TIMER_ACCUM.
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LAST_VOLUME
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m3 (cubic meters)
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The total accumulation of base volumetric flow at the time of
the last reset (using TIMER_ACCUM).
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LOW_CUT
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kPa (kilo Pascals gage)
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Value of IN (differential pressure) below which flow is assumed
to be zero. Not applicable when METER_TYPE is
Turbine.
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MASS_FLW
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kg/hr (kilograms per hour)
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Instantaneous mass flow.
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METER_TYPE
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N/A
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Meter type for flow measurement. The value can be
Differential Pressure or
Turbine.
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ORIF_ID
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mm (millimeters)
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Orifice plate bore diameter at reference temperature ORIF_TEMP.
Not applicable when METER_TYPE is
Turbine.
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ORIF_MAT
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N/A
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Orifice plate material. The value can be Stainless Steel,
Monel, or Carbon Steel. Not applicable when METER_TYPE is
Turbine.
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ORIF_TEMP
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°C
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Reference temperature for the orifice plate. Not applicable
when METER_TYPE is
Turbine.
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PCT_CURR_ENERGY
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Percent
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The percentage of the total in CURR_ENERGY where ENGY_FLW had
Good status when the value was accumulated.
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PCT_CURR_HRS_ON
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Percent
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The percentage of the total time in CURR_HRS_ON where VOL_FLW_F
had Good status when the time was accumulated.
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PCT_CURR_VOLUME
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Percent
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The percentage of the total in CURR_VOLUME where VOL_FLW_B had
Good status when the value was accumulated.
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PCT_VOL_ACCUM
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Percent
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The percentage of the total in VOL_ACCUM where VOL_FLW_B had
Good status when the value was accumulated.
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PCT_LAST_ENERGY
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Percent
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The percentage of the total in LAST_ENERGY where ENGY_FLW had
Good status when the value was accumulated.
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PCT_LAST_HRS_ON
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Percent
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The percentage of the total time in LAST_HRS_ON where VOL_FLW_F
had Good status when the time was accumulated.
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PCT_LAST_VOLUME
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Percent
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The percentage of the total in LAST_VOLUME where VOL_FLW_B had
Good status when the value was accumulated.
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PIPE_ID
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mm (millimeters)
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Pipe internal diameter at reference temperature PIPE_TEMP.
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PIPE_MAT
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N/A
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Pipe material. The value can be Stainless Steel, Monel, or
Carbon Steel.
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PIPE_TEMP
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°C
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Reference temperature for the pipe ID measurement.
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PRES_CHNG
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kPa (kilo Pascals)
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The amount PRES_IN must differ from its value at the time of
the previous AGA-8 calculation to trigger another AGA-8 calculation.
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PRES_IN
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kPa (kilo Pascals absolute)
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Measured static pressure
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PRES_TAP
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N/A
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Location of the static pressure tap, either Upstream or
Downstream of the orifice plate. Not applicable when METER_TYPE is
Turbine.
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RE_NUM
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N/A
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Calculated Pipe Reynolds number.
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REL_DEN
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N/A
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Real gas relative density (specific gravity). When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains the previous value or the value entered.
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RESET_ACCUM
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N/A
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Resets VOL_ACCUM when greater than zero. The block then changes
RESET_ACCUM back to zero.
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TAP_TYPE
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N/A
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Orifice meter tap type: either Flange Taps, Radius Taps
(D-D/2), or Corner Taps.
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TEMP_CHNG
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°C
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How much TEMP_IN must change from the last AGA8 calculation
temperature in order to trigger another AGA8 calculation.
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TEMP_IN
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°C
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Measured temperature.
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TIMER_ACCUM
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N/A
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When 0, allows the accumulation of CURR_VOLUME, CURR_ENERGY,
and CURR_HRS_ON. When greater than 0, copies the three CURR_ parameters to the
three LAST_ parameters and resets the CURR_ parameters. TIMER_ACCUM is
typically wired from a Date Time Event function block.
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VISCOSITY
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kg/m-hr (kilograms per meter per hour)
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The absolute viscosity of the natural gas or other fluid. Enter
the value at expected flowing conditions based on laboratory analysis or other
method.
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VOL_ACCUM
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m3 (cubic meters)
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Accumulation of volumetric flow at base conditions. It is reset
using RESET_ACCUM, which is expected to be performed manually at irregular time
intervals. Similar to CURR_VOLUME, which is also an accumulation of base
volumetric flow, but CURR_VOLUME expected to be reset automatically at regular
time intervals (using TIMER_ACCUM).
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VOL_FLW_B
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m3/hr (cubic meters per hour)
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Instantaneous volumetric flow at base conditions.
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VOL_FLW_F
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m3/hr (cubic meters per hour)
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Instantaneous volumetric flow at flowing conditions.
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ZB
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N/A
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Compressibility factor at base conditions. When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains its previous value or the value as entered.
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ZF
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N/A
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Compressibility factor at flowing conditions. When AGA8_OPT is
Calculate AGA-8 parameters using Detail Method, the value
is calculated. Otherwise retains its previous value or the value as entered.
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