Liquid Flow Calibrators displace exact/known volume of fluid.
Share:
Press Release Summary:
Capable of performing NIST-traceable calibrations on flowmeters, PDCL 10, 60, and 400 Series offer features enabling precise liquid flow calibrators available, ranging from 0.01-400 gpm with uncertainty of ±0.05% and repeatability of 0.01% of reading. They have precision-honed and polished cylinder assembly, with piston mechanically connected with displacement shaft. One side of piston is actuated pneumatically, while other side displaces controlled amount of fluid through meter under test.
Original Press Release:
Flow Dynamics Introduces Positive Displacement Liquid Flow Calibrators
Advanced PDCL Series offers the most precise liquid flow calibrations available
SCOTTSDALE, Ariz., Sept. 4, 2009 - Flow Dynamics, Inc. a leading global provider of primary standard, NIST-traceable flow calibration equipment and services, has introduced the Positive Displacement Calibrators, Liquid (PDCL) primary standard flowmeter calibrators.
The latest PDCL 10, 60 and 400 Series calibrators offer enhanced features enabling the most precise liquid flow calibrators available, ranging from 0.01 GPM (0.04 LPM) to 400 GPM (1514 LPM) with an uncertainty of ±0.05% and a repeatability of 0.01% of reading.
Utilized at the National Institute of Standards and Technology (NIST) flow calibration laboratory in Gaithersburg, MD, as well as other government calibration labs around the world, the PDCL is a precision volumetric device displacing an exact, known volume of fluid, which passes through the flowmeter under test while compensating for fluid
viscosity and temperature.
The PDCL Series is capable of performing NIST-traceable calibrations on most common flowmeters, including turbine, differential pressure orifice plate, rotameter, variable area, coriolis or any other type of meter that has a visual, pulse, or analog output.
The PDCL calibrator consists of a precision-honed and polished cylinder assembly, with a piston mechanically connected with a displacement shaft. The travel of the piston is measured with a high-resolution linear encoder. One side of the piston is actuated
pneumatically, while the other side displaces a controlled amount of fluid through the meter under test. The flow is regulated by three control valves-course, medium and fine-to obtain the exact flow rate required. The fluid is collected in a reservoir tank and returned to the cylinder, bypassing the meter under test. A temperature control system maintains the fluid temperature to create the desired calibration conditions. The calibrator can be fully automated to establish the flow rates and collect calibration data.
Additional automated features consist of automatic fluid air bleed; servo-driven,
telescoping flowmeter section; and flowmeter clamping fixture.
The PDCL's low fluid usage supports the need to reduce hazardous fluids, while keeping fluid costs to a minimum. Blending fluids is made easy with an automatic cycling feature for mixing the fluid while in the machine. A telescoping test section adjusts to enable installation of different size flowmeters. The calibrator's fluid
catch pan incorporates a filter system and drain pump to return the fluid to the reservoir. Equally as important, the piping loop has been designed to assist draining fluids out of the system and facilitate flushing to clean the residual fluid out of the piping.
The electronic output from the calibrator's encoder, temperature sensors, and the meter under test are signal conditioned and collected with a computer data acquisition system. The computer uses Flow Dynamics' Windows(TM)-based "Flo-Cal" software to graph and produce calibration data reports. The software graphics display visual aids
and real-time calibration data. Calibration files are automatically stored for calibration history and can be recalled for comparison to the current calibration.
An integral part of the PDCL system is the "Flo-Cal" Windows(TM)-based software program, which collects, reduces, plots, prints and stores calibration data. This program allows the user to change screen displays, data sheet formats and data reduction equations on line, without using source code and compilers. As new requirements for
calibration processes, data or correlations arise, the program may be changed by the user to meet these requirements.
For more information about the PDCL Series flow calibrators, please visit
http://cts.vresp.com/c/?CoxInstruments/d4c617dee2/e0e24dc4fd/3a0336b5eb
or call (480) 948-3789.
About Flow Dynamics
Located in Scottsdale, Arizona USA, Flow Dynamics' 32,000 square foot facility was specially designed to accommodate high flow capacity calibration equipment.
Having a large 100 cubic-foot Primary Standard Bell Prover, with a 1,500 SCFM capacity, makes FDI unique in its gas calibration capability. FDI also owns and operates a 1,250 GPM Primary Standard Positive Displacement Liquid Calibrator to
accommodate large meters. The company's calibrators provide ranges from 0.001 to 1500 SCFM in air with the ability to run a variety of gases up to 300 SCFM and use correlation/simulation for more hazardous gases up to 1500 SCFM. Additionally, it provides secondary sonic nozzle banks, which deliver up to 3,000 SCFM. Liquid calibrations range from 0.0025 to 1,250 GPM in hydrocarbon blends.
Flow Dynamics' fully-equipped, primary standard flow laboratory is NVLAP, ISO/IEC 17025:2005 and ANSI/NSCL Z540 accredited. No other calibration facility offers a more complete calibration solution for today's flowmeter user.
Learn more at
http://cts.vresp.com/c/?CoxInstruments/d4c617dee2/e0e24dc4fd/675d21273c.
Flow Dynamics
15555 North 79th Place
Scottsdale, Arizona 85260
Contact:
Ron Madison
V.P Sales & Marketing
Flow Dynamics
(480) 948-3789, Ext. 16
rmadison@flow-dynamics.com
