Page 19 - Catalogo de Boquillas - Industrysystem
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Spray Analysis SPRAY ANAL
The most important function of any nozzle is making your process work correctly.
BETE employs multiple methods to analyze nozzle spray characteristics and how
they affect your process. YSIS
PHYSICAL SPRAY LABORATORY TESTING
There is no better way to determine nozzle performance
than to spray it and measure how it performs. BETEs
laboratory is capable of fully characterizing single and
two-fluid sprays, including flow rate, spray angle, spray
coverage, pattern distribution, and droplet size. Droplet The BETE Droplet
size measurement is performed using a video analyzer, Analyzer is capable of
characterizing non-
providing robust measurement of spherical and non- spherical droplets like
spherical droplets alike while allowing a straightforward those seen in this
understanding of this complex topic. actual image.
BETEs lab capabilities extend beyond just the nozzle to
how the nozzle functions in your process. Gas velocity effects on the spray, elevated
temperature tests, lifetime determination tests, and material erosions tests are just a few of the
ways that BETE Labs is putting its expertise to work for you.
Actual droplet images
captured using the BETE
Model 700 Spray
Analysis System.
COMPUTATIONAL FLUID DYNAMICS
When duplicating an industrial process for physical
testing is not feasible, computational modeling is an
effective alternative. Computational fluid dynamics (CFD)
software, coupled with actual spray performance data
captured in our laboratory, can model a wide variety of
systems to predict distribution, velocity, temperature, flow
paths, droplet evaporation, wall hit, and almost any
physical quantity. CFD lets you know that your process is
going to work before you build it. Call for the name of your nearest BETE representative. CALL 413-772-0846
www.BETE.com 17
