SharpEdgedOrificePressure drop due to sharp edged orifice (for both flow directions) |
dp_start |
Value: dp_nominal Type: AbsolutePressure (Pa) Description: Guess value of dp = port_a.p - port_b.p |
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m_flow_small |
Value: if system.use_eps_Re then system.eps_m_flow * m_flow_nominal else system.m_flow_small Type: MassFlowRate (kg/s) Description: Small mass flow rate for regularization of zero flow |
show_T |
Value: true Type: Boolean Description: = true, if temperatures at port_a and port_b are computed |
show_V_flow |
Value: true Type: Boolean Description: = true, if volume flow rate at inflowing port is computed |
allowFlowReversal |
Value: system.allowFlowReversal Type: Boolean Description: = true to allow flow reversal, false restricts to design direction (m_flow >= 0) |
momentumDynamics |
Value: Types.Dynamics.SteadyState Type: Dynamics Description: Formulation of momentum balance |
m_flow_start |
Value: system.m_flow_start Type: MassFlowRate (kg/s) Description: Start value of mass flow rates |
data |
Value: BaseClasses.QuadraticTurbulent.LossFactorData.sharpEdgedOrifice(diameter, leastDiameter, length, alpha) Type: LossFactorData Description: Loss factor data |
m_flow_nominal |
Value: if system.use_eps_Re then system.m_flow_nominal else 1e2 * system.m_flow_small Type: MassFlowRate (kg/s) Description: Nominal mass flow rate |
use_Re |
Value: system.use_eps_Re Type: Boolean Description: = true, if turbulent region is defined by Re, otherwise by m_flow_small |
from_dp |
Value: true Type: Boolean Description: = true, use m_flow = f(dp) else dp = f(m_flow) |
show_Re |
Value: false Type: Boolean Description: = true, if Reynolds number is included for plotting |
length |
Value: Type: Length (m) Description: Length of orifice |
diameter |
Value: Type: Diameter (m) Description: Inner diameter of pipe (= same at port_a and port_b) |
leastDiameter |
Value: Type: Diameter (m) Description: Smallest diameter of orifice |
alpha |
Value: Type: Angle_deg (°) Description: Angle of orifice |
pathLength |
Default Value: 0 Type: Length (m) Description: Length flow path |
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port_a |
Type: FluidPort_a Description: Fluid connector a (positive design flow direction is from port_a to port_b) |
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port_b |
Type: FluidPort_b Description: Fluid connector b (positive design flow direction is from port_a to port_b) |
state_a |
Type: ThermodynamicState Description: state for medium inflowing through port_a |
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state_b |
Type: ThermodynamicState Description: state for medium inflowing through port_b |
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system |
Type: System Description: System properties |
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data |
Type: LossFactorData Description: Loss factor data |
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state_nominal |
Type: ThermodynamicState Description: Medium state to compute nominal pressure drop |