Fluid cards
jun
: Dependent junction
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Dependent junction
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### from to
jun UP1 PLN
jun DOWN UP2
jun UP2 PLN
A junction connects two pipes:
from
: id of the user-defined pipe id the junction comes from;to
: id of the user-defined pipe id the junction comes to.
The mass flowrate in the dependent junction could be found from mass flowrates in independent juntions.
jun-i
: Independent junction
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Inependent junction
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### from to
jun-i PLN DOWN
A junction connects two pipes:
from
: id of the user-defined pipe id the junction comes from;to
: id of the user-defined pipe id the junction comes to.
The mass flowrate in the dependent junction could be found from mass flowrates in independent juntions which found by integration of the momentum conservation equations.
jun-i-f
: Independent junction with user-defined flowrate
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Inependent junction with user-defined flowrate
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### from to signal
jun-i-f DOWN UP1 MDOT_VS_T
A junction connects two pipes:
from
: id of the user-defined pipe id the junction comes from;to
: id of the user-defined pipe id the junction comes to;signal
: id of the user-defined signal of flowrate in the junction.
The mass flowrate in the dependent junction could be found from mass flowrates in independent juntions which found by integration of the momentum conservation equations. In case of the independent junction with user-defined flowrate, the time derivative of mass flowrate is set to zero and flowrate is set equal to the specified signal at the current time step.
jun-i-p
: Independent junction with user-defined pump head
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Inependent junction with user-defined pump head
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### from to signal
jun-i-p PLN DOWN PMPHEAD_VS_T
A junction connects two pipes:
from
: id of the user-defined pipe id the junction comes from;to
: id of the user-defined pipe id the junction comes to;signal
: id of the user-defined signal of pump head in the junction.
The mass flowrate in the dependent junction could be found from mass flowrates in independent juntions which found by integration of the momentum conservation equations. In case of the independent junction with user-defined pump head, the specified signal at the current time step is added to the right-hand side of the momentum conservation equation.
pipe
: Pipe without free level
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Pipes
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id matid dhyd(m) len(m) dir(-) areaz(m2) nnodes
pipe UP1 NA 0.01 1.0 1.0 1.1 10
id
: user-defined pipe id;matid
: user-defined material id (should appear in themat
card);dhyd
: hydraulic diameter (m);len
: pipe length (m);dir
: pipe direction: from -1.0 (downward) up to 1.0 (upward) (-);areaz
: flow area (m2);nnodes
: number of nodes.
pipe-f
: Pipe with free level
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Pipe with free level
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id matid dhyd(m) len(m) areaz(m2)
pipe-f PLN NA 0.1 1.0 1.1
id
: user-defined pipe id;matid
: user-defined material id (should appear in themat
card);dhyd
: hydraulic diameter (m);len
: pipe length (m);areaz
: flow area (m2).
A pipe with free level has always one node.
pipe-t
: Pipe without free level with temperature defined by signal
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Pipe with user-defined temperature
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id matid dhyd(m) len(m) dir(-) areaz(m2) nnodes signal
pipe-t DOWN NA 0.01 1.0 -1.0 1.1 10 TEMP_VS_T
id
: user-defined pipe id;matid
: user-defined material id (should appear in the <code>mat</code> card);dhyd
: hydraulic diameter (m);len
: pipe length (m);dir
: pipe direction: from -1.0 (downward) up to 1.0 (upward) (-);areaz
: flow area (m2);nnodes
: number of nodes;signal
: id of the signal specifying temperature in all nodes of the pipe.
The time derivative of temperature in every node of the pipe is set to zero and temperature is set equal to the specified signal at the current time step.
thermbc
: Thermal boundary conditions
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
# Thermal boundary conditions
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id type qf
thermbc BC01 0 0
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id type alfa temp
thermbc BC02 1 1e4 293
#---- ----1---- ----2---- ----3---- ----4---- ----5---- ----6---- ----7---- ----8---- ----9---- ----0----
##### id type pipeid pipenode
thermbc BC03 2 UP1 1
id
: user-defined boundary condition id (used in thehtstr
card);type
: flag of boundary condition type;0
: constant heat flux from the heat structure surface assumedqf
: heat flux (W/m2);
1
: heat flux from the heat structure surface defined by heat exchange coefficient and external temperature (both constant)alfa
: heat exchange coefficient (W/m2 K);temp
: temperature (K);
2
: heat structure surface coupled to the pipe nodepipeid
: thermal-hydraulic pipe id defined in the <code>pipe</code> card;pipenode
: index of the node inside the thermal-hydraulic pipe coupled to the heat structure.