Compaq MTEK6000 user manual AGA-7 Volume Calculations, NX19 Supercompressibility Report

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MTEK6000 SERIES USER'S MANUAL

APPENDIX B: CALCULATIONS

AGA-7 Volume Calculations

The MTEK6000 EFC performs volume calculations based on the Ideal Gas Law. Boyle’s Law is used for pressure and Charles’s Law for temperature. These laws state that the volume of any definite weight of a perfect gas varies inversely with change in absolute pressure and directly with change in absolute temperature. The unit can perform such calculations for turbine, rotary, and diaphragm displacement meters.

Vc = Vu x (Pm + Pa) x Tb + 459.67 x (Fpv)2

	Pb	Tm + 459.67
Where:
Vc	= Volume corrected to base conditions
Vu	= Uncorrected line volume
Pm	= Measured line pressure (psig)
Pa	= Atmospheric pressure
Pb	= Base pressure
Tb	= Base temperature (0F)
Tm	= Measured line temperature (0F)
Fpv	= Supercompressibility factor

The unit makes continuous correction for the specified gas composition based on actual sensed pressure and temperature.

NOTE

All of the AGA factors can be based on either flowing or constant values.

The supercompressibility factor can be calculated from either NX-19 or AGA-8 Gross Methods 1 and 2 reports and applied to the volume equation.

NX19 Supercompressibility Report

The EFC is configured with values for specific gravity, mol percent of N2 and CO2.

January 2002

AGA-8 Supercompressibility Gross Method 1

The EFC is configured with values for BTU content, specific gravity and mol percent of CO2.

AGA-8 Supercompressibility Gross Method 2

The EFC is configured with values for specific gravity and mol percent of N2 and CO2.

B-1

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Contents MTEK6000 Series Table of Contents Optional Equipment List of Figures January January Hazardous Locations OverviewONE-YEAR Warranty ComplianceSecurity Options MTEK6000 exterior view MTEK6000 interior view Initial Check OUT UnpackingPower for the MTEK6000 Optional Power SuppliesMounting the Instrument on the Meter Output Shaft Rotation Setting UP the Index AssemblyCounter Masking Unit and Index RotationWall and Pipe Mounting Pulse Input to the MTEK6000Wall Mounting Transducers in the MTEK6000 Connecting the Pressure TubingTypical Installation for MTEK6000 EFC Pipe Size Insertion Thermowell Length Part Number Installing the Thermal ProbePulse Output Wiring Installing the Pulse Output WiringUncorrected Pulse Output Specifications Volume and Alarm Pulse SpecificationsCommunications Connecting the Telephone LineRS-232C Serial Direct Communications 9600 Baud Modem Communications 2400 BaudActivity Indicator MTEK6000 Function RS232 cable connected January References GroundingJanuary Display Mode SLEEP/WAKE-UP ModeViewing and clearing alarms using the magnet Alarm ModeFirst Time Power Alarm Faulty Counter Alarm EFCHigh Flow Rate Alarm EFC & EFM High Differential Pressure Alarm EFMLow Supply Volts Alarms Low Pressure AlarmLow Temperature Alarm Lost Temperature AlarmOpen Door Alarm optional Software Error AlarmMemory History Logging Editing Parameters Configuration ModeOptional Keypad and Display Audit Trail Assigning Function KeysWake-Up on Pulse Event Driven Analog SamplingSpecial Key Combinations Calibrating the Pressure Transducer Calibration ModeZero NEW? Calibrating the Temperature TransducerCalibrating the Differential Pressure Transmitter EFM Only Analog Output AO Option Optional EquipmentAnalog Output Option MTEK6000 Analog Output Specifications Zero x.xxx 04.000 +y.yyy mA Enclosure Maintenance Changing the BatteryCalibration PcGas Meter Utility Package PcGas Customer MonitorMtek Manager DC2000 January Label I.D Description Address Alarms Alarm CodeTable A-5 Standard alarms for MTEK6000 EFC w/ Aux Pressure Label Description Address Aux Pressure Table A-11 Standard alarms for MTEK6000 EFC2 w/2 Aux Press Table A-14 Standard alarms for MTEK6000 EFM w/ Aux Press MTEK6000 EPR MTEK6000 ETR MTEK6000 Eptr January NX19 Supercompressibility Report AGA-7 Volume CalculationsJanuary Alarm Pulse Time ms Alarm Pulse Output Enable/DisableAudit Trail Logging Enable Analog Sampling Rate secondsCalibrate Mode Time-out Base TemperatureCalibration Password Configuration PasswordFlow Rate Update Interval s Cubic Unit/Pulse In or Meter DriveDate Month, Day, Year High Pressure Alarm Setpoint High Flow Rate Alarm SetpointHigh Pressure Alarm Reset High Temperature Alarm ResetLow Supply Voltage Alarm Reset Low Pressure Alarm SetpointLow Supply Voltage Alarm Setpoint Low Temperature Alarm ResetTime Hhmmss Hours, Minutes, Seconds Uncorrected VolumeWake Up Interval seconds Wake Up On Pulse event driven EFCTemperature Differential Flow & VolumeUnits of Measure AccumulationsJanuary SBC Revision a Corrector Board Description Jumper position OPT Revision a Option BoardPulse Input #1 PLI Revision C Phone Line Interface Consumer Information and FCC Requirements Service RequirementWarranty & Repair Service EL0001 Sheet 1 of 2 Class I Division 2 Installation EL0001 Sheet 2 of 2 Class I Division 2 Installation Warranty Information January Appendix G TII Station Protector January Appendix H Hazardous Area Installation Control Drawings October October