#include <pressure.h>
Data Fields | |
float | PresLow |
float | PresHigh |
float | PresPowerlaw |
double | PresRamInit |
double | PresRamCurr |
double | PresTurbCurr |
double | PresTotlCurr |
double | PresTotlCorrect |
double | PresGasCurr |
double | PresTotlInit |
double | pres_radiation_lines_curr |
bool | lgContRadPresOn |
float | PresInteg |
float | pinzon |
bool | lgPres_radiation_ON |
bool | lgPres_magnetic_ON |
bool | lgPres_ram_ON |
float | RadBetaMax |
float | pbeta |
float | PresMax |
long int | ipPradMax_line |
long int | ipPradMax_nzone |
char | chLineRadPres [101] |
bool | lgPradCap |
bool | lgPradDen |
bool | lgLineRadPresOn |
bool | lgRadPresAbortOK |
bool | lgSonicPointAbortOK |
bool | lgSonicPoint |
bool | lgStrongDLimbo |
Definition at line 8 of file pressure.h.
char t_pressure::chLineRadPres[101] |
string with label for line with greatest contributrion to pressure
Definition at line 68 of file pressure.h.
Referenced by PresTotCurrent().
long int t_pressure::ipPradMax_line |
pointer to line with greatest radiation pressure
Definition at line 62 of file pressure.h.
Referenced by PresTotCurrent().
long int t_pressure::ipPradMax_nzone |
zone where greatest radiation pressure occurred
Definition at line 65 of file pressure.h.
Referenced by PresTotCurrent(), and zero().
flag saying whether or not incident continuum should be included in total pressure, turned off with constant gas pressure
Definition at line 40 of file pressure.h.
Referenced by DynaPresChngFactor(), lgConvPres(), ParseConstant(), ParseDynaWind(), PresTotCurrent(), radius_first(), radius_increment(), radius_next(), and zero().
flag true if radiation pressure is turned on, part of total pressure
Definition at line 76 of file pressure.h.
Referenced by ParseDont(), PresTotCurrent(), radius_increment(), and zero().
lgPradCap true if radiation pressure capped on first iteration lgPradDen capped by thermalization length
Definition at line 72 of file pressure.h.
Referenced by IterRestart(), IterStart(), PresTotCurrent(), and zero().
Definition at line 72 of file pressure.h.
Referenced by IterRestart(), IterStart(), RT_LineWidth(), and zero().
Definition at line 50 of file pressure.h.
Referenced by advection_set_detault(), ParseConstant(), PresTotCurrent(), and zero().
lgPres_radiation_ON says whether radiation pressure enabled, turned off with constant density, constant gas pressure commands, on with constant pressure
Definition at line 49 of file pressure.h.
Referenced by advection_set_detault(), iter_end_check(), ParseConstant(), PresTotCurrent(), and zero().
Definition at line 51 of file pressure.h.
Referenced by advection_set_detault(), ParseConstant(), PresTotCurrent(), and zero().
option to not abort on high radiation pressure - set true in initialization, set false with NO ABORT on constant radiation pressure command
Definition at line 80 of file pressure.h.
Referenced by iter_end_check(), ParseConstant(), and zero().
we hit the sonic point
Definition at line 87 of file pressure.h.
Referenced by ConvFail(), iter_end_check(), IterRestart(), IterStart(), radius_next(), and zero().
option to abort when we reach the sonic point - set according to the dynamics pressure mode
Definition at line 84 of file pressure.h.
Referenced by DynaPresChngFactor(), iter_end_check(), and zero().
True when we are in limbo while trying to find a strong-D solution. This is when there is no possible solution for the current target pressure. We just grit our teeth and plough onwards, hoping to come out the other side and to sort it all out on a later iteration of the dynamics
Definition at line 94 of file pressure.h.
Referenced by IterRestart(), IterStart(), radius_next(), and zero().
float t_pressure::pbeta |
pbeta is ratio of radition to gas pressure, evaluated in PressureTotal
Definition at line 55 of file pressure.h.
Referenced by ConvFail(), iter_end_check(), IterRestart(), IterStart(), PresTotCurrent(), and PrtZone().
float t_pressure::pinzon |
Definition at line 44 of file pressure.h.
Referenced by IterRestart(), IterStart(), PressureChange(), PunchDo(), radius_increment(), radius_next(), and zero().
pres_radiation_lines_curr is line radiation pressure for current zone
Definition at line 36 of file pressure.h.
Referenced by cdPressure_last(), lgConvPres(), PressureChange(), PresTotCurrent(), PrtLinePres(), PrtZone(), PunchDo(), radius_increment(), and zero().
double t_pressure::PresGasCurr |
PresGasCurr is gas pressure, nkT, set in PressureTotal
Definition at line 27 of file pressure.h.
Referenced by cdPressure_last(), ConvFail(), DynaEndIter(), DynaIonize(), DynaPresChngFactor(), DynaPrtZone(), PressureChange(), PresTotCurrent(), PrtZone(), PunchDo(), and radius_increment().
float t_pressure::PresHigh |
Definition at line 14 of file pressure.h.
float t_pressure::PresInteg |
total pressure related variables PresInteg is integral
Definition at line 44 of file pressure.h.
Referenced by DynaPresChngFactor(), IterRestart(), IterStart(), lgConvPres(), PressureChange(), PresTotCurrent(), PunchDo(), radius_increment(), and zero().
float t_pressure::PresLow |
lowest and highest total current pressure to desired pressures in model, a measure of how well converged it is. This includes total pressure, so in a constant gas pressure model will show a large excursion
Definition at line 14 of file pressure.h.
float t_pressure::PresMax |
PresMas is largest pressure that occurred in the calculation
Definition at line 55 of file pressure.h.
Referenced by PresTotCurrent(), and zero().
float t_pressure::PresPowerlaw |
double t_pressure::PresRamCurr |
Definition at line 20 of file pressure.h.
Referenced by ConvFail(), DynaPresChngFactor(), PressureChange(), PresTotCurrent(), PunchDo(), and zero().
double t_pressure::PresRamInit |
the initial and current ram pressure
Definition at line 20 of file pressure.h.
Referenced by PressureChange(), PresTotCurrent(), and zero().
double t_pressure::PresTotlCorrect |
Definition at line 27 of file pressure.h.
Referenced by ConvFail(), ConvPresTempEdenIoniz(), DynaPresChngFactor(), lgConvPres(), PressureChange(), PresTotCurrent(), PunchDo(), and radius_increment().
double t_pressure::PresTotlCurr |
the current pressure, and the correct pressure, the ratio of the two is the error, PresTotlCurr is set in PressureTotal
Definition at line 27 of file pressure.h.
Referenced by ConvFail(), ConvPresTempEdenIoniz(), DynaPresChngFactor(), lgConvPres(), PressureChange(), PresTotCurrent(), PunchDo(), radius_increment(), and radius_next().
double t_pressure::PresTotlInit |
PresTotlInit - total pressure at the illuminated face
Definition at line 33 of file pressure.h.
Referenced by ConvInitSolution(), DynaPresChngFactor(), lgConvPres(), PressureChange(), PresTotCurrent(), PunchDo(), radius_first(), and zero().
double t_pressure::PresTurbCurr |
current turbulent pressure
Definition at line 23 of file pressure.h.
Referenced by PresTotCurrent(), and PunchDo().
float t_pressure::RadBetaMax |
RadBetaMax is largest ratio of radiation to gas pressure
Definition at line 55 of file pressure.h.
Referenced by IterRestart(), IterStart(), lgCheckAsserts(), PresTotCurrent(), prt_smooth_predictions(), PrtFinal(), and zero().