Tutorial Examples: Difference between revisions

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* click [[MECCA-based (full) Chemistry|here]] to see more details
* click [[MECCA-based (full) Chemistry|here]] to see more details


==== Stratospheric Ozone chemistry (with linearized Ozone, LINOZ) ====
==== [[Stratospheric Ozone Chemistry and Polar Stratospheric Clouds]] ====
* here a simulation with only stratospheric (simplified) ozone chemistry is performed, also polar stratospheric clouds are taken into account
* Stratospheric Ozone chemistry (with linearized Ozone, LINOZ)
* this example teaches you...
** the implementation of stratospheric specific chemistry (here on thee example of ozone)
** applying linearized ozone chemistry (LINOZ) in a simulation
** the implementation of polar stratospheric clouds (PSCs)
* click [[Stratospheric Ozone Chemistry and Polar Stratospheric Clouds|here]] to see more details


==== [[Lifetime Tracer Simulation]] ====
==== [[Lifetime Tracer Simulation]] ====
In this example it is shown how to simulate a lifetime driven tracer with simplified chemistry in ICON-ART. Here the very short-lived substances Bromoform (<chem>CHBr3</chem>) and dibromomethane (<chem>CH2Br2</chem>) are simulated. This tutorial teaches you...
* here it is shown how to simulate a lifetime driven tracer with simplified chemistry in ICON-ART. Here the very short-lived substances Bromoform (<chem>CHBr3</chem>) and dibromomethane (<chem>CH2Br2</chem>) are simulated.
* this example teaches you...
* the correct setup of the xml-file for such tracers.
* the structure and correct usage of namelist parameter settings of lifetime tracers in xml-files
** the correct setup of the xml-file for such tracers.
** the structure and correct usage of namelist parameter settings of lifetime tracers in xml-files
* editing output variables
** editing output variables

* click [[Lifetime Tracer Simulation|here]] to see more details


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Revision as of 12:15, 20 July 2023

- under construction! -

In this article several examples from different application areas in ICON-ART are presented. Just click on the highlighted text to get to the page of the respecting example. For every example a configuration is explained to try out typical cases in ICON-ART yourselves. Thereby, these pages can be viewed as a Tutorial in ICON-ART.

Overview of topics

Atmospheric Chemistry Simulations

Simplified Chemistry

  • here a simulation of the Hydroxylradical (OH) is performed with simplified chemistry
  • this example teaches you...
    • the basics of setting up an ICON runscript with ICON-ART settings
    • the use of the most simple ICON-ART namelist parameter
    • the implementation of the desired chemical species in a simulation by setting up a chemtracer xml-data for simplified chemistry simulations
    • the implementation of emission data in a simulation
  • click here to see more details

MECCA-based (full) Chemistry

  • here a simulation with (full) MECCA-based chemistry is performed, for that a complete reaction mechanism is created and transferred to ICON-ART
  • this example teaches you...
    • the implementation of (full) MECCA-based chemistry in ICON-ART
    • the creation of a chemical mechanism and the selection of the respective desired chemical species and their reactions in MECCA
    • the implementation of not yet in MECCA implemented reactions in your mechanism
    • the creation of the to your mechanism belonging Mecca-xml data to link MECCA calculations with ICON-ART
  • click here to see more details

Stratospheric Ozone Chemistry and Polar Stratospheric Clouds

  • here a simulation with only stratospheric (simplified) ozone chemistry is performed, also polar stratospheric clouds are taken into account
  • this example teaches you...
    • the implementation of stratospheric specific chemistry (here on thee example of ozone)
    • applying linearized ozone chemistry (LINOZ) in a simulation
    • the implementation of polar stratospheric clouds (PSCs)
  • click here to see more details

Lifetime Tracer Simulation

  • here it is shown how to simulate a lifetime driven tracer with simplified chemistry in ICON-ART. Here the very short-lived substances Bromoform () and dibromomethane () are simulated.
  • this example teaches you...
    • the correct setup of the xml-file for such tracers.
    • the structure and correct usage of namelist parameter settings of lifetime tracers in xml-files
    • editing output variables
  • click here to see more details

Aerosol Simulations

Simulating a Point Source

  • In this example a Point Source is installed at the location of the volcano Raikoke and a constant emission of SO2 and Ash is emitted into the atmosphere.
  • this example teaches you...
    • How to setup and run your first Simulation
    • The setup of the directory structure when doing an ICON-ART Simulation
    • How to modify a runscript to suit your needs
    • How to modify .xml data to set up a Simulation
    • A possible approach to visualise the output data





Slides ICON-Training

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TD slides B.png