Changes between Version 69 and Version 70 of doc/tut/palm

Timestamp:

Oct 22, 2020 4:52:35 PM (4 years ago)

Author:

hettrich

Comment:

--

doc/tut/palm

@@ -6 +6 @@
 - carry out runs with PALM for different meteorological scenarios.
 - use specific parts of the model, such as the embedded particle model or topography.
-- understand and analyze the PALM output data.
+- understand and analyse the PALM output data.
 - add user-defined code to the model.
 - debug errors.
 
-At least once a year, we are hosting the 5-day seminar ''An Introduction to the Large-Eddy Simulation Model PALM'', which covers all the above-mentioned topics (Class of 2020 in Fig. 1).\\\\
+At least once a year, we are hosting the 5-day seminar ''An Introduction to the Large-Eddy Simulation Model PALM'', which covers all the above-mentioned topics (Class of February 2020 in Fig. 1).\\\\
       }}}
       {{{#!td align=left style="border: none; vertical-align:top; width: 50%"
 [[Image(palm_seminar_2020.jpg, width=600px, border=2, link=attachment)]]\\
-Fig 1: PALM seminar group 2020 at IMUK, Leibniz University Hannover. Photographer: Micha Gryschka (Real-size image [attachment:palm_seminar_2020.jpg download])\\\\
+Fig 1: PALM seminar group February 2020 at IMUK, Leibniz University Hannover. Photographer: Micha Gryschka (Real-size image [attachment:palm_seminar_2020.jpg download])\\\\
       }}}
    }}}
@@ -25 +25 @@
 
 
-If you cannot make it to the seminar, you could self-study the contents by following the time schedule of this years' PALM seminar (Fig. 2). The respective PDF presentations are available as attachments below ([#normal normal] and [#handout handout] version). At the '''PALM seminar 2020''' in Hanover, we are going to work with PALM revision number r4389. The PALM code is currently under heavy development. To view the code changes since then, feel free to [//trac/browser browse] the repository, or have a look at the [wiki:doc/tec/changelog changelog].\\\\
+If you cannot make it to the seminar, you could self-study the contents by following the time schedule of this years' PALM seminar (Fig. 2). The respective PDF presentations are available as attachments below ([#normal normal] and [#handout handout] version). At the '''PALM seminar September 2020''' in Hannover, we were working with PALM revision number r4664. The PALM code is currently under development. To view the code changes since then, feel free to [//trac/browser browse] the repository, or have a look at the [wiki:doc/tec/changelog changelog].\\\\
 
-[[Image(seminar_schedule_2020.png, 710px, left, margin-right=2, margin-top=0, margin-bottom=5, border=2, nolink)]]\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
-Fig 2: Time schedule of the latest PALM seminar in 2020, held Feb 10-14 at the Institute of Meteorology and Climatology, Leibniz Universität Hannover.\\\\\\\\\\\\
+[[Image(PALM Seminar September 2020.png, 710px, left, margin-right=2, margin-top=0, margin-bottom=5, border=2, nolink)]]\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\
+Fig 2: Overview of the PALM seminar on 21st to 25th September 2020, as a webinar organised by the Institute of Meteorology and Climatology, Leibniz Universität Hannover.\\\\\\\\\\\\
 
 == Lecture presentations ==
-||'''Lecture'''                   ||[=#normal '''Normal version''']              ||[=#handout '''Handout version'''] ||
-||[=#chemistry Chemistry model.pdf]            ||[attachment:Chemistry_model.pdf​] ||[attachment:handout_Chemistry_model.pdf​] ||
-||[=#parallelization Code parallelization]            ||[attachment:Code_parallelization.pdf​] ||[attachment:handout_Code_parallelization.pdf​] ||
-||[=#structure Code structure & features]       ||[attachment:Code_structure_and_features.pdf​] ||[attachment:handout_Code_structure_and_features.pdf​] ||
-||[=#visualization Data visualization]              ||[attachment:Data_visualization.pdf​] ||[attachment:handout_Data_visualization.pdf​] ||
-||[=#debugging Debugging]             ||[attachment:Debugging.pdf​] ||[attachment:handout_Debugging.pdf​] ||
-||[=#remarks Final remarks]                   ||[attachment:Final_remarks.pdf​] ||[attachment:handout_Final_remarks.pdf​] ||
-||[=#fundamentals Fundamentals of LES]             ||[attachment:Fundamentals_of_LES.pdf​] ||[attachment:handout_Fundamentals_of_LES.pdf​] ||
-||[=#nesting Grid nesting]                    ||[attachment:Grid_nesting.pdf​] ||[attachment:handout_Grid_nesting.pdf​] ||
-||[=#lpm Lagrangian particle model]       ||[attachment:Lagrangian_particle_model.pdf​] ||[attachment:handout_Lagrangian_particle_model.pdf​]||
-||[=#lsm Land surface model]              ||[attachment:Land_surface_model.pdf​] ||[attachment:handout_Land_surface_model.pdf​] ||
-||[=#beginners LES for beginners]               ||[attachment:LES_for_beginners.pdf​] ||[attachment:handout_LES_for_beginners.pdf​] ||
-||[=#agent Multi agent system]               ||[attachment:Multi_agent_system.pdf​] ||[attachment:handout_Multi_agent_system.pdf​] ||
-||[=#non_cyclic Non-cyclic boundary conditions]  ||[attachment:Noncyclic_boundary_conditions.pdf​] ||[attachment:handout_Noncyclic_boundary_conditions.pdf​] ||
-||[=#numerics Numerics & boundary conditions]  ||[attachment:Numerics_and_boundary_conditions.pdf​] ||[attachment:handout_Numerics_and_boundary_conditions.pdf​]||
-||[=#HLRN PALM on HLRN]                   ||[attachment:PALM_on_HLRN.pdf​] ||[attachment:handout_PALM_on_HLRN.pdf​] ||
-||[=#overview PALM overview]                   ||[attachment:PALM_overview.pdf​] ||[attachment:handout_PALM_overview.pdf​] ||
-||[=#steering PALM steering]                   ||[attachment:PALM_steering.pdf​] ||[attachment:handout_PALM_steering.pdf​] ||
-||[=#radiation Radiation model]                 ||[attachment:Radiation_model.pdf​] ||[attachment:handout_Radiation_model.pdf​] ||
-||[=#restart Restart runs]                    ||[attachment:Restart_runs.pdf​] ||[attachment:handout_Restart_runs.pdf​] ||
-||[=#into Seminar introduction]            ||[attachment:Seminar_Introduction.pdf] ||[attachment:handout_Seminar_Introduction.pdf] ||
-||[=#drivers Static and dynamic input files]  ||[attachment:Static_and_dynamic_driver.pdf​] ||[attachment:handout_Static_and_dynamic_driver.pdf​] ||
-||[=#topo Topography]                      ||[attachment:Topography.pdf​] ||[attachment:handout_Topography.pdf​] ||
-||[=#urban Urban surface model]               ||[attachment:Urban_surface_model.pdf​] ||[attachment:handout_Urban_surface_model.pdf​] ||
-||[=#user User-defined code]               ||[attachment:User_defined_code.pdf​] ||[attachment:handout_User_defined_code.pdf​] ||
-||[=#turbine Wind turbine model]               ||[attachment:Wind_Turbine_Model.pdf​] ||[attachment:handout_Wind_Turbine_Model.pdf​] ||
+||'''Lecture number'''                   ||[=#normal '''Lecture title''']              || '''pdf download''' ||
+||L-1.1||Seminar Introduction ||[attachment:L-1.1_Seminar_introduction.pdf​] ||
+||L-1.2||Fundamentals of LES ||[attachment:L-1.2_Fundamentals_of_LES.pdf​] ||
+||L-1.3||LES for beginners||[attachment:L-1.3_LES_for_beginners.pdf​] ||
+||L-1.4||PALM overview||[attachment:L-1.4_PALM_overview.pdf​] ||
+||L-1.5||PALM steering||[attachment:L-1.5_PALM_steering.pdf​] ||
+||L-1.6||Data visualisation||[attachment:L-1.6_Data_visualization.pdf​] ||
+||L-2.1||Numerics and boundary conditions ||[attachment:L-2.1_Numerics_and_boundary_conditions.pdf​] ||
+||L-2.2||Code parallelisation||[attachment:L-2.2_Code_parallelization.pdf​] ||
+||L-2.3||Code structure and features ||[attachment:L-2.3_Code_structure_and_features.pdf​]||
+||L-2.4||Topography||[attachment:L-2.4_Topography.pdf​] ||
+||L-3.1||Restart runs||[attachment:L-3.1_Restart_runs.pdf​] ||
+||L-3.2||Non-cyclic boundary conditions||[attachment:L-3.2_Non-cyclic_boundary_conditions.pdf​] ||
+||L-3.3||Grid nesting ||[attachment:L-3.3_Grid_nesting.pdf​] ||
+||L-3.4||User-defined code||[attachment:L-3.4_User_defined_code.pdf​]||
+||L-3.5||Debugging||[attachment:L-3.5_Debugging.pdf​] ||
+||L-3.6||Wind turbine model||[attachment:L-3.6_Wind_turbine_model.pdf​] ||
+||L-3.7||Ocean model||[attachment:L-3.7_Ocean_mode.pdf​] ||
+||L-3.8||Palmrun Gui||[attachment:L-3.8_pamrungui.pdf​] ||
+||L-4.1||Land surface model ||[attachment:L-4.1_Land_surface_model.pdf​] ||
+||L-4.2||Urban surface model||[attachment:L-4.2_Urban_surface_model.pdf] ||
+||L-4.3||Radiation model ||[attachment:L-4.3_Radiation_modeling.pdf​] ||
+||L-4.4||Multi-agent system||[attachment:L-4.4_Multi_agent_system.pdf​] ||
+||L-4.5||Static and dynamic drivers||[attachment:L-4.5_Static_and_dynamic_driver.pdf​] ||
+||L-5.1||Lagrangian particle model ||[attachment:L-5.1_Lagrangian particle model.pdf​] ||
+||L-5.2||Bulk cloud model ||[attachment:L-5.2_Bulk_cloud_model.pdf​] ||
+||L-5.3||Chemistry model ||[attachment:L-5.3-Chemistry_model.pdf​] ||
 Further [wiki:doc#Modeldescription documentation] about other model components is available.
 \\
 == Exercise presentations ==
-All exercises have been tested with Rev. 4389
+All exercises have been tested with Rev. 4664
 ||'''Exercise'''                                 ||[=#normal '''Normal version''']  ||[=#handout '''Handout version'''] ||Input files ||
 ||[=#e0 E0: Installation]                               ||[attachment:E0_Installation.pdf​] ||[attachment:handout_E0_Installation.pdf​] ||---     ||