#include <wind.h>
Data Fields | |
float | windv0 |
float | comass |
float | windv |
float | emdot |
bool | lgWindOK |
float | AccelAver |
float | acldr |
float | agrav |
float | AccelTot |
float | AccelCont |
float | AccelLine |
float | AccelPres |
float | fmul |
float | AccelMax |
bool | lgVelPos |
Definition at line 4 of file wind.h.
float t_wind::AccelAver |
variables for tracking average radiative acceleration
Definition at line 24 of file wind.h.
Referenced by IterRestart(), IterStart(), lgConvPres(), PrtFinal(), and zero().
float t_wind::AccelCont |
AccelCont continuum radiative acceleration - old faccel(1)
Definition at line 34 of file wind.h.
Referenced by lgConvPres(), PrtZone(), PunchDo(), radius_increment(), RT_radiative_acceleration(), and zero().
float t_wind::AccelLine |
AccelLine line radiative acceleration - old faccel(2)
Definition at line 37 of file wind.h.
Referenced by lgConvPres(), PrtZone(), PunchDo(), radius_increment(), RT_radiative_acceleration(), and zero().
float t_wind::AccelMax |
AccelMax is largest acceleration, usually at illuminated face
Definition at line 46 of file wind.h.
Referenced by IterRestart(), lgConvPres(), radius_increment(), and zero().
float t_wind::AccelPres |
AccelPres change in pressure acceleration - old faccel(3)
Definition at line 40 of file wind.h.
Referenced by lgConvPres(), PrtZone(), radius_increment(), RT_radiative_acceleration(), and zero().
float t_wind::AccelTot |
AccelTot is total radiative acceleration, lines and continuum
Definition at line 31 of file wind.h.
Referenced by CoolEvaluate(), lgConvPres(), PrtZone(), PunchDo(), radius_first(), radius_increment(), radius_next(), RT_line_one_tauinc(), RT_radiative_acceleration(), and zero().
float t_wind::acldr |
Definition at line 24 of file wind.h.
Referenced by IterRestart(), IterStart(), lgConvPres(), PrtFinal(), and zero().
float t_wind::agrav |
inward gravitational acceleration
Definition at line 28 of file wind.h.
Referenced by AbundancesSet(), lgConvPres(), PrtZone(), and zero().
float t_wind::comass |
contral object mass, to compute inward acceleration
Definition at line 11 of file wind.h.
Referenced by AbundancesSet(), lgConvPres(), ParseDynaWind(), and zero().
float t_wind::emdot |
mass loss rate, n*v, set in parsecommands. needs r^2 to be real flux
Definition at line 18 of file wind.h.
Referenced by lgConvPres(), ParseCommands(), PrtComment(), and zero().
float t_wind::fmul |
bool t_wind::lgVelPos |
flag set if wind solution had negative velocity
Definition at line 49 of file wind.h.
Referenced by iter_end_check(), IterRestart(), lgConvPres(), and zero().
bool t_wind::lgWindOK |
*flag set if wind not ok, (below sonic point)
Definition at line 21 of file wind.h.
Referenced by ParseDynaWind(), PrtComment(), and zero().
float t_wind::windv |
current wind velocity, code tests for wind soln by seeing whether this is positive, static soln if 0
Definition at line 15 of file wind.h.
Referenced by ConvFail(), ConvInitSolution(), CoolEvaluate(), DynaEndIter(), DynaEndZone(), DynaIonize(), DynaPresChngFactor(), DynaPrtZone(), IterRestart(), lgCheckAsserts(), lgConvPres(), Magnetic_evaluate(), ParseDynaTime(), ParseDynaWind(), PressureChange(), PresTotCurrent(), PrtComment(), PrtZone(), PunchDo(), radius_first(), radius_next(), RT_line_one_tauinc(), RT_LineWidth(), RT_tau_inc(), and zero().
float t_wind::windv0 |
parameters for wind model; initial wind velocity, will be negative for D-critical flow
Definition at line 8 of file wind.h.
Referenced by iter_end_check(), IterRestart(), Magnetic_evaluate(), ParseCommands(), ParseDynaTime(), ParseDynaWind(), PrtComment(), RT_LineWidth(), velset(), and zero().