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Changes between Version 21 and Version 22 of doc/tut/exercise


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Timestamp:
Jan 31, 2018 2:50:13 PM (7 years ago)
Author:
kanani
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  • doc/tut/exercise

    v21 v22  
    1 = PALM Seminar 2017 (Sep 25-29 @ Leibniz Universität Hannover) =
     1= PALM simulation examples =
    22
    3 == Group Photo ==
     3[[NoteBox(warn,UNDER CONSTRUCTION: This page will be filled with some new examples! Old examples need to be adjusted to PALM 5.0!)]]
     4
    45\\
    5 [[Image(P9283042.JPG, width=500px, height=500px,border=1, link=attachment)]]\\
    6 Picture taken by Notker Fechner ([https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/P9283042.JPG Real-size image download])
    7 \\\\\\
     6== Beginners ==
    87
    9 == PALM Seminar 2017 Lecture Slides (pdf) ==
     8=== 1. Convection between plates ===
     9Simulation of a convective boundary layer between two uniformly heated/cooled plates with zero mean flow ([attachment:exercise_cbl.pdf details]).
     10
     11=== 2. Heterogeneously heated convective boundary layer (with user code) ===
     12Simulation of a convective boundary layer with a heterogeneously heated surface, defined in the user code ([attachment:exercise_interface.pdf details]).
     13
     14=== 3. Restart runs ===
     15Simulation of manual or automatic job chains, i.e. starting a simulation based on the final meteorological state of a previous simulation ([attachment:example_restart.pdf details]).
     16
     17=== 4. Cumulus cloud with bulk cloud physics ===
     18Simulation of a marine, cumulus-topped, trade-wind-region boundary layer ([attachment:exercise_cumulus.pdf details]).
     19
    1020\\
    11 ||'''Lecture Slides''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/PALMseminar2017_LectureSlides.zip PALMseminar2017_LectureSlides.zip] ||
     21== Advanced ==
    1222
    13 == PALM Seminar 2017 Lecture Slides (pdf with notepad lines) ==
    14 \\
    15 ||'''Lecture Slides (Handout)''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/HANDOUT.zip HANDOUT.zip] ||
    16 \\\\\\
     23=== 1. LITFASS 2003 ===
     24This example shows the development of the convective boundary layer in the presence of irregular distributed surface heterogeneities in the LITFASS region on two days (May 30 and June 13, 2003) ([wiki:doc/tut/examples/2012_maronga_LITFASS2003 details]).
    1725
    18 == PALM Seminar 2017 Exercises ==
    19 \\
    20 === E1: Convective boundary layer ===
    21 ||'''E1 Slides'''      ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/E1_cbl.pdf e1_cbl.pdf] ||
    22 ||'''E1 input files''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/e1_parameterfiles.zip e1_parameterfiles.zip] ||
    23 \\
     26=== 2. DYCOMS ===
     27With this example stratocumulus-topped boundary layers can be studied ([wiki:doc/tut/examples/2013_heinze_DYCOMS details]).
    2428
    25 === E2: Neutrally stratified boundary layer ===
    26 ||'''E2 Slides'''      ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/E2_neutral.pdf e2_neutral.pdf] ||
    27 ||'''E2 input files''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/e2_parameterfiles.zip e2_parameterfiles.zip] ||
    28 \\
    29 
    30 === E3: Flow around cubical building with non-cyclic boundary conditions ===
    31 ||'''E3 Slides'''      ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/E3_cube.pdf e3_cube.pdf] ||
    32 ||'''E3 input files''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/e3_parameterfiles.zip e3_parameterfiles.zip] ||
    33 \\
    34 
    35 === E4: Land surface model ===
    36 ||'''E4 Slides'''      ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/E4_lsm.pdf e4_lsm.pdf] ||
    37 ||'''E4 input files''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/e4_parameterfiles.zip e4_parameterfiles.zip] ||
    38 \\
    39 
    40 === E5: Lagrangian & Eulerian dispersion modeling ===
    41 ||'''E5 Slides'''      ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/E5_dispersion.pdf e5_dispersion.pdf] ||
    42 ||'''E5 input files''' ||[https://palm.muk.uni-hannover.de/trac/raw-attachment/wiki/doc/tut/exercise/e5_files.zip e5_files.zip] ||
    43 \\
     29=== 3. BOMEX ===
     30With this example trade wind cumulus convection under steady-state conditions can be studied ([wiki:doc/tut/examples/2013_heinze_BOMEX details]).
                                                                                                                                                                                                                                                                                                                                                                               
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