Sierra SL-800 Comparison of Cal=Trak with Sonic Nozzle Transfer Standards, Setup for LFEs

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7.3Comparison of Cal=Trak with Laminar Flow Element Transfer Standards

When the Cal=Trak begins its cycle, the piston’s acceleration causes the internal pressure to spike briefly by about 0.01 atmosphere (~1 kPa). The pressure then remains elevated by about 0.001 atmosphere (~0.1 kPa) due to the piston’s weight. If a simple pressure regulator feeds the test chain, we are simply using the resistance of the entire flow chain to set our flow rate. The rate may then change significantly when the Cal=Trak is in its measurement cycle. This will cause the actual flow measured during the Cal=Trak cycles to be less than the average flow seen by the laminar flow element (LFE). Moreover, the initial pressure pulse may cause the LFE instrument’s sensitive pressure transducers to be destabilized for several seconds. For the latter reason, the LFE instrument should be read only immediately before the Cal=Trak reading, and afterward only when the LFE instrument’s readings stabilize. At low flows, the Cal=Trak measurement may take sufficient time to allow LFE stabilization. In that case, the instruments can be read simultaneously.

In addition, the flow must not be affected significantly by the Cal=Traks’s cyclic pressure increase. This can be achieved by use of a sonic nozzle as the stable flow source, or by feeding a fixed restrictor with a precisely regulated pressure of more than 200 kPa. (At 200 kPa [30 PSI], the dynamic flow decrease caused by the piston’s weight will be about 0.05%.)

For this type of calibration, we can use the setup shown in Figure 8. The adjustable regulator is used to set the flow rate within the range of a properly sized flow restrictor.

Gas

Fixed

Adjustable

Sonic

Supply

Regulator

Regulator

Nozzle

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Stable Pressure

OR Porous Plug

LFE Meter

 

 

 

> 200 kPa

 

 

Figure 8 Setup for LFEs

DryCal

Cal=Trak

7.4Comparison of Cal=Trak with Sonic Nozzle Transfer Standards

A high quality sonic nozzle used above its critical pressure ratio will supply a constant flow despite changes in its outlet pressure. For this reason, a calibrated sonic nozzle can be compared to a Cal=Trak by simply connecting its outlet to the Cal=Trak’s inlet as shown in Figure 9.

Pressure

Transducer

Fixed Adjustable

Regulator Regulator

Sonic Nozzle

Stable Pressure

> Critical

Figure 9 Setup for Sonic Nozzle Transfer Standard

DryCal

Cal=Trak

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Contents Cal=Trak SL-800 Primary Gas Flow Calibrator Worldwide Locations to Serve You Table of Contents Page General Description Theory of OperationIdealized Automatic Piston Prover Cal=Trak Layout Unpacking Checklist Your Cal=Trak SL-800 Base IncludesEach of Your Cal=Trak SL-800 Flow Cells Includes Cal=Trak Measurement Cycle Cal=Trak Installation Attaching & Removing Flow CellsConnecting the Cal=Trak to a Flow Source Attaching Flow CellsInitial Pressure Pulse Timing KPa Begins Ends Comparison vs. Calibration Application PrecautionsInventory Dead Volume Initial Pressure PulseSetup for Piston or Bell Provers Alternative Setup for Piston Provers Vacuum Comparison of Cal=Trak with Piston or Bell ProversSetup for LFEs Comparison of Cal=Trak with Sonic Nozzle Transfer StandardsVacuum Setup for Sonic Nozzle Transfer Standard Calibration of Mass Flow Controllers MFCsCalibration of Mass Flow Meters MFMs Calibration of Rotameters Variable Area Flow MetersTurning the Cal=Trak On Charging the Cal=Trak BatteryOperating Instructions Turning the Cal=Trak OffGeneral Menu Navigation Cal=Trak Keypad How To Use the Cal=Trak KeypadLow Battery Indicator Taking Readings Factory Default SettingsParameters Factory Settings Optional Settings Setting User Preferences Option 1, Sensor FactorSetup Menu 2, Reading Type, # in Average & Minutes/Reading Setup Menu 4, Date, Time & Battery VoltageOption 2, Time Setup Menu 5, Date & Time FormatsOption 1, Date Option 3, Auto OffMaintenance Battery SystemBattery Maintenance & Storage Quality Assurance Leak Test Procedure To Initiate the Leak TestCalibration Leak Test Illustration Leak Test in ProgressCalibration Includes Returning Your Unit for Calibration or Service ShipmentReplacement Parts & Accessories Part DescriptionAdditional Information Limited Warranty Piston Error appears on display Charge LED does not light when charger pluggedSettings have been lost or seem to have changed Unit suddenly turns offDuring Leak Test, Leakage 9.999 ccm appears on display Piston does not move when the Read or Auto is pushedWhen taking readings, the flow seems off Resetting the Cal=Trak Contact Sierra for AssistanceModel Optimum Flow Range Flow Cell Standardized 15-30CRequirements Installation Operating Instructions for Cal=Soft SoftwareIntroduction Worksheet descriptionsSetup Cal=Trak IntroductionSetup DUT Setup Cal=SoftPage Page Automatic Flow Calibration Using Sierra 100 Series MFC Serial Port Configuration Issue Software TroubleshootingSerial Port Selection Issue