Orifice Nozzle Valve
R Series Multi Orifice Nozzle Choke Valve - Brice Barclay
R Series Multi Orifice Nozzle Choke Valve - Brice Barclay
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R Series Control <strong>Valve</strong>s<br />
405.787.0145 USA<br />
Multi <strong>Orifice</strong> <strong>Nozzle</strong> Technology<br />
Multi <strong>Orifice</strong> Cage Technology<br />
Multi <strong>Orifice</strong> <strong>Nozzle</strong><br />
Closed<br />
Position<br />
Open<br />
Position<br />
The Multi <strong>Orifice</strong> <strong>Nozzle</strong> (MON) trim configuration<br />
has been field-tested and proven to deliver<br />
superior wear resistance and control<br />
performance. The MON trim controls high velocity<br />
fluid during pressure reduction by directing the<br />
flow to the center of the flow nozzle. The erosive<br />
energy is contained and converted within the<br />
flow trim. As a result of this conversion, the valve<br />
outlet is protected from high velocity flow<br />
impingement.<br />
The wear is isolated to the expendable trim<br />
components instead of the valve wall which, in<br />
turn, reduces the potential for release of fluids to<br />
the environment.<br />
Debris space<br />
and liquid seal<br />
CLOSED<br />
OPEN<br />
Debris Trap<br />
Tri-Seat is<br />
protected from<br />
flow erosion<br />
Replaceable Seat<br />
Design<br />
FLOW<br />
FLOW<br />
Control Surface<br />
separate from<br />
Sealing Surface<br />
Tri-Seat<br />
provides ANSI<br />
Class VI Seal<br />
Control Surface<br />
separate from<br />
shut off seal<br />
Replaceable Flow<br />
<strong>Nozzle</strong> valve will<br />
function with part<br />
removed<br />
Sealing surface<br />
out of normal<br />
flow path and<br />
protected from<br />
erosion<br />
Replaceable<br />
flow nozzle is<br />
the wear<br />
compontent