Sound travel
in the pipe - Problem we have overcome
At every marginal
plane between different materials, the sonic beam is
divided into a diffracted and a reflected portion. Thus,
the sound energy is reduced by every transit by going
through or reflecting at a marginal plane. Additionally,
the sound pulses also travel the pipe in many ways (other
than the ways in which we are using for calculations)
These signals reach the receiver and come from various
"parasitic" paths each having different signal
transit times depending on where they came from. It
is of utmost importance (for a successful measurement)
to detect and use the right signal. EESIFLO's research
and development have spent enormous amounts of time
in research and development in overcoming and solving
these problems. The results of our work make way for
a new generation of accurate clamp on transit time flowmeters.
Our
instruments and specific system solutions are used for
applications spanning all branches of the process, manufacturing
and municipal sec-tors...
There
were many reasons for this, some people did not have
the service available for rental (so they had to purchase
a unit)...
Measuring
Principle>>
Applications>>
Measurements
are made by penetrating the pipe with ultrasound. Time
differ-ences, frequency variations or phase shifts of
the ultrasonic signals...
You
can practically measure any sonically conductive liquid
without cutting the pipe. It is simply a matter of
minutes to install our meters. Our meters are used
in...
Eesiflo™
Optional Energy Measurement System>>
Eesiflo™
in both fixed and portable versions offers a solution
package using an Energy meter and clamp on sensors we
provide you with the ultimate in Thermal Energy custody
transfer performance.
