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module suphec_m |
module suphec_m |
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use nr_util, only: pi |
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implicit none |
implicit none |
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! A1.0 Fundamental constants |
! A1.0 Fundamental constants |
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REAL RPI |
real, parameter:: RCLUM = 299792458. ! speed of light, m s-1 |
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real, parameter:: RCLUM = 299792458. |
real, parameter:: RHPLA = 6.6260755E-34 ! Planck constant, J s |
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real, parameter:: RHPLA = 6.6260755E-34 |
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real, parameter:: KBOL = 1.380658E-23 ! Boltzmann constant, in J K-1 |
real, parameter:: KBOL = 1.380658E-23 ! Boltzmann constant, in J K-1 |
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real, parameter:: NAVO = 6.0221367E23 ! Avogadro number, in mol-1 |
real, parameter:: NAVO = 6.0221367E23 ! Avogadro number, in mol-1 |
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! A1.1 Astronomical constants |
! A1.1 Astronomical constants |
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REAL RSIYEA, RSIDAY, ROMEGA |
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REAL ROMEGA |
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real, parameter:: RDAY = 86400. |
real, parameter:: RDAY = 86400. |
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real, parameter:: REA = 149597870000. |
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real, parameter:: REPSM = 0.409093 |
REAL, parameter:: RSIYEA = 365.25 * RDAY * 2. * PI / 6.283076 |
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! sideral year, in s |
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REAL, parameter:: RSIDAY = RDAY / (1. + RDAY / RSIYEA) ! sideral day, in s |
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! A1.2 Geoide |
! A1.2 Geoide |
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real, parameter:: RG = 9.80665 ! acceleration of gravity, in m s-2 |
real, parameter:: RG = 9.80665 ! acceleration of gravity, in m s-2 |
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real, parameter:: RA = 6371229. |
real, parameter:: RA = 6371229. |
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! A1.3 Radiation |
! A1.3 Radiation |
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REAL RSIGMA |
REAL, parameter:: rsigma = 2. * pi**5 * (kbol / rhpla)**3 * kbol / rclum**2 & |
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/ 15. |
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! A1.4 Thermodynamic gas phase |
! A1.4 Thermodynamic gas phase |
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REAL, parameter:: R = NAVO * KBOL ! ideal gas constant, in J K-1 mol-1 |
REAL, parameter:: R = NAVO * KBOL ! ideal gas constant, in J K-1 mol-1 |
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! specific ideal gas constant for dry air, in J K-1 kg-1 |
! specific ideal gas constant for dry air, in J K-1 kg-1 |
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! (factor 1e3: conversion from g to kg) |
! (factor 1e3: conversion from g to kg) |
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real RCPV, RCVD, RCVV |
real, save:: RCPV, RCVD, RCVV |
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real, parameter:: RCPD = 7. / 2 * RD |
real, parameter:: RCPD = 7. / 2 * RD |
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! specific heat capacity for dry air, in J K-1 kg-1 |
! specific heat capacity for dry air, in J K-1 kg-1 |
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real, parameter:: RMO3 = 47.9942 |
real, parameter:: RMO3 = 47.9942 |
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REAL, parameter:: RKAPPA = RD/RCPD |
REAL, parameter:: RKAPPA = RD/RCPD |
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real RETV |
real, save:: RETV |
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! A1.5, 6 Thermodynamic liquid, solid phases |
! A1.5, 6 Thermodynamic liquid, solid phases |
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REAL RCW, RCS |
REAL, save:: RCW, RCS |
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! A1.7 Thermodynamic transition of phase |
! A1.7 Thermodynamic transition of phase |
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REAL RLMLT |
REAL, save:: RLMLT |
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real, parameter:: RTT = 273.16 |
real, parameter:: RTT = 273.16 |
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real, parameter:: RLVTT = 2.5008E+6 |
real, parameter:: RLVTT = 2.5008E+6 |
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real, parameter:: RLSTT = 2.8345E+6 |
real, parameter:: RLSTT = 2.8345E+6 |
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real, parameter:: RATM = 100000. |
real, parameter:: RATM = 1e5 |
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! A1.8 Curve of saturation |
! A1.8 Curve of saturation |
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REAL RALPW, RBETW, RGAMW, RALPS, RBETS, RGAMS |
REAL, save:: RALPW, RBETW, RGAMW, RALPS, RBETS, RGAMS |
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real, parameter:: RESTT = 611.14 |
real, parameter:: RESTT = 611.14 |
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REAL RALPD, RBETD, RGAMD |
REAL, save:: RALPD, RBETD, RGAMD |
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save |
private pi |
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contains |
contains |
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PRINT *, 'Call sequence information: suphec' |
PRINT *, 'Call sequence information: suphec' |
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! 1. DEFINE FUNDAMENTAL CONSTANTS |
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print *, 'Constants of the ICM' |
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RPI = 2.*ASIN(1.) |
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print *, 'Fundamental constants ' |
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print '('' PI = '', E13.7, '' -'')', RPI |
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print '('' c = '', E13.7, ''m s-1'')', RCLUM |
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print '('' h = '', E13.7, ''J s'')', RHPLA |
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! 2. DEFINE ASTRONOMICAL CONSTANTS |
! 2. DEFINE ASTRONOMICAL CONSTANTS |
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RSIYEA = 365.25*RDAY*2.*RPI/6.283076 |
ROMEGA = 2.*PI/RSIDAY |
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RSIDAY = RDAY/(1.+RDAY/RSIYEA) |
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ROMEGA = 2.*RPI/RSIDAY |
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print *, 'Astronomical constants ' |
print *, 'Astronomical constants ' |
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print '('' day = '', E13.7, '' s'')', RDAY |
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print '('' half g. axis = '', E13.7, '' m'')', REA |
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print '('' mean anomaly = '', E13.7, '' -'')', REPSM |
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print '('' sideral year = '', E13.7, '' s'')', RSIYEA |
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print '('' sideral day = '', E13.7, '' s'')', RSIDAY |
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print '('' omega = '', E13.7, '' s-1'')', ROMEGA |
print '('' omega = '', E13.7, '' s-1'')', ROMEGA |
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! 3. DEFINE GEOIDE. |
! 3. DEFINE GEOIDE. |
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! 4. DEFINE RADIATION CONSTANTS. |
! 4. DEFINE RADIATION CONSTANTS. |
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rsigma = 2.*rpi**5 * (kbol/rhpla)**3 * kbol/rclum/rclum/15. |
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print *, ' Radiation ' |
print *, ' Radiation ' |
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print '('' Stefan-Bol. = '', E13.7, '' W m-2 K-4'')', RSIGMA |
print '('' Stefan-Bol. = '', E13.7, '' W m-2 K-4'')', RSIGMA |
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! 8. DEFINE THERMODYNAMIC CONSTANTS, TRANSITION OF PHASE. |
! 8. DEFINE THERMODYNAMIC CONSTANTS, TRANSITION OF PHASE. |
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RLMLT = RLSTT-RLVTT |
RLMLT = RLSTT-RLVTT |
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print *, 'Thermodynamic, trans. ' |
print *, 'Thermodynamic, transition of phase:' |
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print '('' Fusion point = '', E13.7)', RTT |
print '('' Fusion point = '', E13.7)', RTT |
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print '('' RLvTt = '', E13.7)', RLVTT |
print '('' RLvTt = '', E13.7)', RLVTT |
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print '('' RLsTt = '', E13.7)', RLSTT |
print '('' RLsTt = '', E13.7)', RLSTT |
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print '('' RLMlt = '', E13.7)', RLMLT |
print '('' RLMlt = '', E13.7)', RLMLT |
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print '('' Normal press. = '', E13.7)', RATM |
print '('' Normal pressure = '', E13.7)', RATM |
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! 9. SATURATED VAPOUR PRESSURE. |
! 9. SATURATED VAPOUR PRESSURE. |
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