subroutine gfdl_cloud_microphys::warm_rain ( real, intent(in)  dt, integer, intent(in)  ktop, integer, intent(in)  kbot, real, dimension (ktop:kbot), intent(in)  dp, real, dimension (ktop:kbot), intent(in)  dz, real, dimension (ktop:kbot), intent(inout)  tz, real, dimension (ktop:kbot), intent(inout)  qv, real, dimension (ktop:kbot), intent(inout)  ql, real, dimension (ktop:kbot), intent(inout)  qr, real, dimension (ktop:kbot), intent(inout)  qi, real, dimension (ktop:kbot), intent(inout)  qs, real, dimension (ktop:kbot), intent(inout)  qg, real, dimension (ktop:kbot), intent(in)  den, real, dimension (ktop:kbot), intent(in)  denfac, real, dimension (ktop:kbot), intent(in)  ccn, real, dimension (ktop:kbot), intent(in)  c_praut, real, intent(in)  rh_rain, real, dimension (ktop:kbot), intent(inout)  vtr, real, intent(out)  r1, real, dimension (ktop:kbot), intent(inout)  m1_rain, real, dimension (ktop:kbot), intent(inout)  w1, real, intent(in)  h_var  )

private

• Call check_column() to check the terminal speed of rain.
  • Calculate fall speed of rain.
  • Call revap_racc(), to calculate evaporation and accretion of rain for the first 1/2 time step.
  • Calculate mass flux induced by falling rain. (if use_ppm =.false, call implicit_fall())
  • Calculate vertical velocity transportation during sedimentation.
  • Call sedi_heat() to calculate heat transportation during sedimentation.
  • Call revap_racc() to calculate evaporation and accretion of rain for the remaing 1 / 2 time step.
• Auto-conversion (assuming linear subgrid vertical distribution of cloud water following Lin et al. 1994 [61].)
  • Call linear_prof() to calculate vertical subgrid variability of cloud water.

References check_column(), implicit_fall(), lagrangian_fall_ppm(), linear_prof(), revap_racc(), and sedi_heat().

Referenced by mpdrv().

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