#include <wind.h>
Collaboration diagram for t_wind:
Data Fields | |
realnum | windv0 |
realnum | comass |
realnum | windv |
realnum | emdot |
bool | lgWindOK |
realnum | AccelAver |
realnum | acldr |
realnum | AccelGravity |
realnum | AccelTot |
realnum | AccelCont |
realnum | AccelLine |
realnum | AccelPres |
realnum | fmul |
realnum | AccelMax |
bool | lgVelPos |
bool | lgDisk |
double | DiskRadius |
Definition at line 8 of file wind.h.
variables for tracking average radiative acceleration - used to report average acceleration at end of calculation
Definition at line 30 of file wind.h.
Referenced by InitDefaultsPreparse(), and IterRestart().
AccelCont continuum radiative acceleration - cm s-2
Definition at line 39 of file wind.h.
Referenced by InitDefaultsPreparse(), lgConvPres(), and PrtZone().
inward gravitational acceleration, cm s-2, a positive number
Definition at line 33 of file wind.h.
Referenced by InitDefaultsPreparse(), InitSimPostparse(), lgConvPres(), and PrtZone().
AccelLine line radiative acceleration - cm s-2
Definition at line 42 of file wind.h.
Referenced by InitDefaultsPreparse(), lgConvPres(), and PrtZone().
AccelMax is largest acceleration, usually at illuminated face - cm s-2
Definition at line 51 of file wind.h.
Referenced by InitDefaultsPreparse(), and IterRestart().
AccelPres change in pressure acceleration - cm s-2
Definition at line 45 of file wind.h.
Referenced by InitDefaultsPreparse(), lgConvPres(), and PrtZone().
AccelTot is total radiative acceleration, lines and continuum, cm s-2
Definition at line 36 of file wind.h.
Referenced by InitDefaultsPreparse(), lgConvPres(), PrtZone(), and RT_line_one_tauinc().
central object mass in solar units, to compute inward acceleration
Definition at line 14 of file wind.h.
Referenced by InitDefaultsPreparse(), InitSimPostparse(), and ParseDynaWind().
double t_wind::DiskRadius |
mass flux at inner radius, n*v [cm-3 cm s-1 == cm-2 s-1], set in parsecommands at inner boundary. needs r^2 to be real mass flux density set by conservation of this quantity in wind model
Definition at line 23 of file wind.h.
Referenced by InitDefaultsPreparse(), lgConvPres(), and PrtComment().
force multiplier - dimensionless
Definition at line 48 of file wind.h.
Referenced by InitDefaultsPreparse().
bool t_wind::lgDisk |
Definition at line 57 of file wind.h.
Referenced by InitDefaultsPreparse(), InitSimPostparse(), lgConvPres(), and ParseDynaWind().
bool t_wind::lgVelPos |
flag set if wind solution had negative velocity
Definition at line 54 of file wind.h.
Referenced by InitDefaultsPreparse(), IterRestart(), and lgConvPres().
bool t_wind::lgWindOK |
*flag set if wind not ok, (below sonic point)
Definition at line 26 of file wind.h.
Referenced by InitDefaultsPreparse(), ParseDynaWind(), and PrtComment().
current wind velocity cm s-1, code tests for wind solution by seeing whether this is positive, static solution if 0
Definition at line 18 of file wind.h.
Referenced by ConvFail(), DynaEndZone(), DynaIonize(), DynaPresChngFactor(), DynaPrtZone(), InitDefaultsPreparse(), IterRestart(), lgCheckAsserts(), lgConvPres(), Magnetic_evaluate(), ParseDynaTime(), ParseDynaWind(), PrtComment(), PrtZone(), radius_first(), RT_line_all(), RT_line_one_tauinc(), and RT_LineWidth().
initial wind velocity cm s-1, will be negative for D-critical flow
Definition at line 11 of file wind.h.
Referenced by InitDefaultsPreparse(), IterRestart(), Magnetic_evaluate(), ParseDynaTime(), ParseDynaWind(), PrtComment(), RT_line_all(), RT_LineWidth(), and velset().