Mass Measurement Sample Clauses
Mass Measurement. 1. Inferred mass measurement shall be accomplished utilizing a flow-proportional composite sampler, turbine meter, densitometer and flow computer to convert gross volumetrically measured barrels using density in gm/cc at flowing conditions to total pounds mass according to the following formula: TotalPounds = GrossBBLS x MeterFactor x FlowingDensity(gm/cc) x 350.506987 350.506987 is a conversion factor to convert density in gm/cc to pounds /bbl. For polymer grade propylene the composite sampler and densitometer are not required.
2. Direct mass measurement shall be accomplished by utilizing a flow-proportional composite sampler, a Coriolis meter, Coriolis transmitter, and a flow computer to convert mass pulses from the Coriolis transmitter into pounds. Measured pounds mass is calculated according to the following formula: MeterPulses MeasuredMass = x MeterFactor KFactor For polymer grade propylene the composite sampler is not required.
Mass Measurement. Mass measurement shall be accomplished utilizing a turbine meter, densitometer for chemical grade propylene or API table for chemical grade propylene, and flow computer to convert volume and density at flowing conditions to total pounds mass according to the following formula: Total Mass = Volume at flowing conditions X MCF X Density at flowing conditions X DCF = Pounds Volume is in gallons Density is in pounds per gallon MCF is meter correction factor DCF is densitometer correction factor For polymer grade propylene the DCF will not apply or be 1.0.
Mass Measurement. 1. Inferred mass measurement shall be accomplished utilizing a flow-proportional composite sampler, turbine meter, densitometer and flow computer to convert gross volumetrically measured barrels using density in gm/cc at flowing conditions to total pounds mass according to the following formula: TotalPounds = GrossBBLS x MeterFactor x FlowingDensity(gm/cc) x 350.506987 For polymer grade propylene the composite sampler and densitometer are not required.
2. Direct mass measurement shall be accomplished by utilizing a flow-proportional composite sampler, a Coriolis meter, Coriolis transmitter, and a flow computer to convert mass pulses from the Coriolis transmitter into pounds. Measured pounds mass is calculated according to the following formula: MeasuredMass = MeterPulses x MeterFactor KFactor Storage Lease (Enterprise North Propane-Propylene Splitters) For polymer grade propylene the composite sampler is not required.
Mass Measurement. 1. Inferred mass measurement shall be accomplished utilizing a flow-proportional composite sampler, turbine meter, densitometer and flow computer to convert gross volumetrically measured barrels using density in gm/cc at flowing conditions to total pounds mass according to the following formula: TotalPounds = GrossBBLS x MeterFactor x FlowingDensity(gm/cc) x 350.506987 350.506987 is a conversion factor to convert density in gm/cc to pounds /bbl. For polymer grade propylene the composite sampler and densitometer are not required.
2. Direct mass measurement shall be accomplished by utilizing a flow-proportional composite sampler, a Coriolis meter, Coriolis transmitter, and a flow computer to convert mass pulses from the Coriolis transmitter into pounds. Measured pounds mass is calculated according to the following formula: Storage Lease (BUTANE ISOMER) MeasuredMass = MeterPulse x MeterFator For polymer grade propylene the composite sampler is not required.
Mass Measurement. The mass of a cell is measured at room temperature up to three significant figures in accordance with the tolerances in 2.1.4.
Mass Measurement. The mass of tyre shall be measured before and after 5000 km of run as defined in paragraph 2.6.6. of this Annex for both reference and candidate tyres.