How it works.
The Verabar senses the natural averaged pressures created by the velocity of the fluid. When the fluid impacts the sensor, it creates a high-pressure zone (greater than the pipe static pressure) in front of the sensor. As the fluid moves past the sensor, it accelerates and a low-pressure zone is created to the sides and rear of the sensor. Alternate vortices are shed as the fluid separates from the sensor and a partial vacuum is formed at the rear of the sensor.
Multiple ports are positioned in the high and low-pressure zones and an averaged differential pressure is produced.
Verabar's superior performance is due to its shape, surface condition and low-pressure port location.
- No clogging
- Stable signal
- Low drag and increased structural strength
- Solid one-piece construction
Further information:-
Superior Sensor Design
Greater Resistance to Clogging
Lower Drag and Extended Turndown
Verified Accuracy:-
Verified Theoretical Model
Proof of Verabar Accuracy
Mounting Methods:-
Spring Lock
Direct Mount Manifold Heads
Complete Flow Loops
Models:-
Standard Models
Hot Tap - Threaded Models
Hot Tap - Flanged Models
Flanged Models
Applications:-
Gas
Liquid
Steam
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