Changes between Version 352 and Version 353 of doc/app/initialization_parameters

Timestamp:

Aug 7, 2017 11:45:08 AM (7 years ago)

Author:

schwenkel

Comment:

--

doc/app/initialization_parameters

@@ -37 +37 @@
 Note, that the default flux representation for input and output depends on the approximation. For details, please see [#flux_input_mode flux_input_mode] and [#flux_output_mode flux_output_mode].\\\\
 }}}
+|----------------
+{{{#!td style="vertical-align:top"
+[=#cloud_droplets '''cloud_droplets''']
+}}}
+{{{#!td style="vertical-align:top"
+L
+}}}
+{{{#!td style="vertical-align:top"
+.F.
+}}}
+{{{#!td
+Parameter to switch on the Lagrangian cloud model (LCM).\\\\ 
+In this case the embedded particle model is used as a cloud model. Therefore, particles are representing droplets and aerosols. 
+However, at present it is computationally not feasible to simulate a realistic amount of particles. A single Lagrangian particle thus represents an ensemble of identical particles (i.e., same radius, velocity, mass of solute aerosol) and is referred to as "super-droplet". The number of particles in this ensemble is referred to as the "weighting factor".
+The LCM must be steered with the list of [../parpar Particle Parameters].
+}}}
+|----------------
 |----------------
 {{{#!td style="vertical-align:top"