For a wide range of precise measurement applications Cameron BARTON ® 7000 line generator meters are designed and build to stand any flow rate. The integrated collection features a range of dimensions, devices, bearing structures and choices based on over 40 years of engine manufacturing experience.
BARTON Series 7000 Specifications
Air is used as sample material to determinate the median K-factor for each engine. Standard screening is performed with a price of eight streams across the stream range and two levels of repeatability. The linearity of the meter shows that no linear meter data point exceeds the average of all inputs. To ensure the precise operation, upstream to at least 10 diameters and downstream to 5 diameters, the turbine meter should be mounted in a direct frame of pipes with the same diameter as the turbine meter. Barton 7000 Flowmeters Series are designed specifically for a broad spectrum of precise fluid measurement applications. They can handle large stream volumes and operate a self-flushing system for longer-lasting precision with reduced pressure drops than other meters in their class. Its high-frequency digital production is ideal for digital reader interfaces. The bi-directional symmetric structure of 7000 series promotes reverse streaming tasks without reducing accuracy or the capacity to stream.
During the procedure, fluid moves over the diffuser section and is increased to a hydrodynamically controlled multibladed turbine rotor. The rotor speed is proportional to the volumetric flow rate. A photographer (installed on the meter) reads each blade tip’s movements as the rotor rotates and generates a sinus wave signal at the same frequency as the flow rate. The Barton turbine flowmeters are the only moving part of the rotor. The small, lightweight rotor hubs ensure quick reaction to system flow changes. The rotor is maintained hydro-dynamically in practice, thus eliminating the need to level the mechanical thrust. This low-friction structure improves linear measurement and reduces service and wear.