Pressure Reducing Valve
Piloted spring-loaded pressure reducing valve
Description
Equations
Variables
Connections
Parameters
The Pressure Reducing Valve component models a hydraulic reducing valve as a sharp-edged orifice with the orifice area dependent on the pressure across the valve.
The area varies linearly from Aopen to Aclose as the pressure varies from popen to pclose, and remains at the endpoints for pressures outside this range.
Based on the orifice area, the pressure vs flow rate relationships are derived by the formulation used in the Orifice component.
Formulation Approaches
One of two approaches can be selected for modeling the flow in the device. When the boolean parameter Use constant Cd is true, a constant coefficient of discharge (Cd) is used, otherwise a variable coefficient of discharge with maximum value (Cdmax) and a critical flow number (Critno) are used.
Optional Volumes
The boolean parameters Use volume A and Use volume B, when true, add optional volumes VA and VB to ports A and B, respectively. See Port Volumes for details.
If two orifices or valves are connected, enabling a volume at the common port reduces the stiffness of the system and improves the solvability.
p=pA−pB
Orifice Fluid Equations
{p=π4ρνqCd2AcsπAcs16q4π2Acs2ν4+ReCr414Use constant Cd=trueq=Cdmaxtanh4Acsπ2pρνCritnoAcs2pρsignpotherwise
Orifice Area Equations
{Acs=Ai=AtExact=trueAcs=minAopen,maxAclose,Ai,tcdAidt+Ai=Atotherwise
At={AopenpB≤popenAopen−Aopen−AcloseSmoothTransS,pB−popenpclose−popenpB<pcloseAcloseotherwise
S={smoothnesssmoothTransition0otherwise
Optional Volume Equations
VfA={Va1+pAElUse volume A=true0otherwiseVfB={Vb1+pBElUse volume B=true0otherwise
q=qA−qVA=−qB−qVB
qVA={dVfAdtUse volume A=true0otherwiseqVB={dVfBdtUse volume B=true0otherwise
Name
Units
Modelica ID
p
Pa
Pressure drop from A to B
pX
Pressure at port X
q
m3s
Flow rate from A to B
qX
Flow into port X
Acs
m2
Cross-sectional area of orifice
Ai
Filtered interpolated area
At
Interpolated area
qVX
Flow rate into port X's optional volume
VfX
m3
Effective volume at port X
portA
Upstream hydraulic port
portB
Downstream hydraulic port
General
Default
pclose
2.1·107
Pressure at which valve is fully closed (A = Aclose)
popen
1.9·107
Pressure at which the valve is fully open (A = Aopen)
Aclose
1·10−12
Valve area when closed (leakage)
Aopen
1·10−5
Valve area when fully open
Exact
false
When true (checked) first-order dynamics are used for the valve area
tc
0.1
s
Time constant used in first-order dynamics; used when Exact=true
Smooth Transition
True (checked) means enable the smoothness factor
smoothTransition
smoothness
0.5
Smoothness factor (0: sharpest, 1: smoothest); used when Smooth Transition is enabled
Orifice
Use constant Cd
true
True (checked) means a constant coefficient of discharge is implemented, otherwise a variable Cd is used in flow calculations
UseConstantCd
Cd
0.7
Flow-discharge coefficient; used when Use constant Cd is true
ReCr
12
Reynolds number at critical flow; used when Use constant Cd is true
Cdmax
Maximum flow-discharge coefficient; used when Use constant Cd is false
Cd_max
Critno
1000
Critical flow number; used when Use constant Cd is false
Crit_no
Use volume A
True (checked) means a hydraulic volume chamber is added to portA
useVolumeA
VA
1·10−6
Volume of chamber A
Va
Use volume B
True (checked) means a hydraulic volume chamber is added to portB
useVolumeB
VB
Volume of chamber B
Vb
For more information see Port Volumes.
See Also
Hydraulics Library
Valves
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