Changes between Version 5 and Version 6 of doc/app/salsa_parameters

Timestamp:

Jun 28, 2019 1:24:39 PM (6 years ago)

Author:

monakurppa

Comment:

--

doc/app/salsa_parameters

@@ -108 +108 @@
 |----------------
 {{{#!td style="vertical-align:top"
-[=#depo_topo_type '''depo_topo_type''']
+[=#depo_surf_par '''depo_surf_par''']
 }}}
 {{{#!td style="vertical-align:top"
@@ -126 +126 @@
 |----------------
 {{{#!td style="vertical-align:top"
-[=#depo_vege_type '''depo_vege_type''']
+[=#depo_pcm_par '''depo_pcm_par''']
 }}}
 {{{#!td style="vertical-align:top"
@@ -144 +144 @@
 |----------------
 {{{#!td style="vertical-align:top"
+[=#depo_pcm_type '''depo_pcm_type''']
+}}}
+{{{#!td style="vertical-align:top"
+C(20)
+}}}
+{{{#!td style="vertical-align:top"
+'zhang2001'
+}}}
+{{{#!td
+Leaf type applied in the dry deposition model.  
+Available options:
+'evergreen_needleleaf', 'evergreen_broadleaf', 'deciduous_needleleaf' and 'deciduous_broadleaf'.
+}}}
+|----------------
+{{{#!td style="vertical-align:top"
+[=#depo_surf_par '''depo_surf_par''']
+}}}
+{{{#!td style="vertical-align:top"
+C(20)
+}}}
+{{{#!td style="vertical-align:top"
+'zhang2001'
+}}}
+{{{#!td
+The method to solve the aerosol size specific dry deposition velocity (in m s-1) over an urban surface. 
+Available options:
+'zhang2001' ([wiki:doc/app/salsaref/ Zhang et al. 2001])
+'petroff2010' ([wiki:doc/app/salsaref/ Petroff & Zhang, 2010]).
+
+Note that the surface material is not specified in the included parametrisations.
+}}}
+|----------------
+{{{#!td style="vertical-align:top"
 [=#dpg '''dpg''']
 }}}
@@ -155 +188 @@
 The number geometric mean diameter per aerosol mode (in µm). A total of 7 different aerosol modes can be applied.  Example modes: nucleation, Aitken, accumulation and coarse mode. 
 
-If [#isdtyp isdtyp]= 1, the initial aerosol size distribution is described by input parameters '''dpg''', [#sigmag sigmag] and [#n_lognorm n_lognorm].
+If [#init_aerosol_type init_aerosol_type]= 1, the initial aerosol size distribution is described by input parameters '''dpg''', [#sigmag sigmag] and [#n_lognorm n_lognorm].
 }}}
 |----------------
@@ -168 +201 @@
 }}}
 {{{#!td
-Time step for calling aerosol dynamic processes of SALSA. For switching on individual processes, see [#nlcnd nlcnd], [#nlcndgas nlcndgas], [#nlcndh2oae nlcndh2oae], [#nlcoag nlcoag], [#nldepo nldepo], [#nldepo_vege nldepo_vege], [#nldepo_topo nldepo_topo], [#nldistupdate nldistupdate] and [#nsnucl nsnucl].
+Time step for calling aerosol dynamic processes of SALSA. For switching on individual processes, see [#nlcnd nlcnd], [#nlcndgas nlcndgas], [#nlcndh2oae nlcndh2oae], [#nlcoag nlcoag], [#nldepo nldepo], [#nldepo_pcm nldepo_pcm], [#nldepo_surf nldepo_surf], [#nldistupdate nldistupdate] and [#nsnucl nsnucl].
 }}}
 |----------------
@@ -213 +246 @@
 |----------------
 {{{#!td style="vertical-align:top"
-[=#igctyp '''igctyp''']
+[=#init_gases_type '''init_gases_type''']
 }}}
 {{{#!td style="vertical-align:top"
@@ -224 +257 @@
 Gas concentration initialisation type.
 
-If '''igctyp''' = 1, the whole modelling domain is initialised with values given in [#H2SO4_init H2SO4_init], [#HNO3_init HNO3_init], [#NH3_init NH3_init], [#OCNV_init OCNV_init] and [#OCSV_init OCSV_init].
-
-If '''igctyp''' = 2, the initial gas concentrations are read from the input file PIDS_CHEM. In this case, also vertical profiles can be provided. 
-}}}
-|----------------
-{{{#!td style="vertical-align:top"
-[=#isdtyp '''isdtyp''']
+If '''init_gases_type''' = 0, the whole modelling domain is initialised with values given in [#H2SO4_init H2SO4_init], [#HNO3_init HNO3_init], [#NH3_init NH3_init], [#OCNV_init OCNV_init] and [#OCSV_init OCSV_init].
+
+If '''init_gases_type''' = 1, the initial gas concentrations are read from the input file PIDS_CHEM. In this case, also vertical profiles can be provided. 
+}}}
+|----------------
+{{{#!td style="vertical-align:top"
+[=#init_aerosol_type '''init_aerosol_type''']
 }}}
 {{{#!td style="vertical-align:top"
@@ -241 +274 @@
 Aerosol size distribution initialisation type.
 
-If '''isdtyp''' = 1, the whole modelling domain is initialised with a constant log-normal aerosol size distribution described by input parameters [#dpg dpg], [#sigmag sigmag] and [#n_lognorm n_lognorm]. 
-
-If '''isdtyp''' = 2, the initial aerosol size distribution is read from the input file PIDS_AERO. In this case, also a vertical profile of the aerosol size distribution can be provided. 
+If '''init_aerosol_type''' = 0, the whole modelling domain is initialised with a constant log-normal aerosol size distribution described by input parameters [#dpg dpg], [#sigmag sigmag] and [#n_lognorm n_lognorm]. 
+
+If '''init_aerosol_type''' = 1, the initial aerosol size distribution is read from the input file PIDS_SALSA. In this case, also a vertical profile of the aerosol size distribution can be provided. 
 }}}
 |----------------
@@ -446 +479 @@
 |----------------
 {{{#!td style="vertical-align:top"
-[=#nldepo_topo '''nldepo_topo''']
-}}}
-{{{#!td style="vertical-align:top"
-L
-}}}
-{{{#!td style="vertical-align:top"
-.F.
-}}}
-{{{#!td
-Parameter to switch aerosol dry deposition on topography elements (ground, wall, roofs). The parametrisation to calculate the size-dependent deposition velocity is set by parameter [#depo_topo_type depo_topo_type].
+[=#nldepo_surf '''nldepo_surf''']
+}}}
+{{{#!td style="vertical-align:top"
+L
+}}}
+{{{#!td style="vertical-align:top"
+.F.
+}}}
+{{{#!td
+Parameter to switch aerosol dry deposition on topography elements (ground, wall, roofs). The parametrisation to calculate the size-dependent deposition velocity is set by parameter [#depo_surf_type depo_surf_type].
 
 Requires [#nldepo nldepo] = .T..
@@ -461 +494 @@
 |----------------
 {{{#!td style="vertical-align:top"
-[=#nldepo_vege '''nldepo_vege''']
-}}}
-{{{#!td style="vertical-align:top"
-L
-}}}
-{{{#!td style="vertical-align:top"
-.F.
-}}}
-{{{#!td
-Parameter to switch on aerosol dry deposition on resolved scale vegetation. The parametrisation to calculate the size-dependent deposition velocity is set by parameter [#depo_vege_type depo_vege_type].
+[=#nldepo_pcm '''nldepo_pcm''']
+}}}
+{{{#!td style="vertical-align:top"
+L
+}}}
+{{{#!td style="vertical-align:top"
+.F.
+}}}
+{{{#!td
+Parameter to switch on aerosol dry deposition on resolved scale vegetation. The parametrisation to calculate the size-dependent deposition velocity is set by parameter [#depo_pcm_par depo_pcm_par].
 
 Note that currently the deposition velocity is calculated by default for deciduous broadleaf trees.
@@ -602 +635 @@
 The standard deviation of the log-normal aerosol number size distribution per aerosol mode. A total of 7 different aerosol modes can be applied.  Example modes: nucleation, Aitken, accumulation and coarse mode. 
 
-If [#isdtyp isdtyp] = 1, the initial aerosol size distribution is described by input parameters [#dpg dpg], '''sigmag''' and [#n_lognorm n_lognorm].
+If [#init_aerosol_type init_aerosol_type] = 0, the initial aerosol size distribution is described by input parameters [#dpg dpg], '''sigmag''' and [#n_lognorm n_lognorm].
 }}}
 |----------------