= The PALM model system = {{{#!comment [[TracNav(toc2)]] }}} {{{ #!div style="align:'left'; width: 300px; border: 0px solid; float:right" [[Image(htdocs:gallery/palm_logo_200px.jpg,nolink)]] }}} PALM is an advanced and modern meteorological model system for atmospheric and oceanic boundary-layer flows. It has been developed as a turbulence-resolving large-eddy simulation (LES) model that is especially designed for performing on massively parallel computer architectures. Since PALM 5.0, the model is shipped along with several PALM-4U (PALM for urban applications, read: ''PALM for you'') components that allow to employ the model for various urban applications ranging from the meso- to the microscale. The PALM model system is free software. It can be redistributed and/or modified under the terms of the GNU General Public License (v3). We kindly request that you cite PALM in all your publications. For details, see [wiki:Help/FAQ#DoIneedtocitePALMinpublicationsciting citing PALM]. ---- PALM is regularly tested. The test status of the current revision is: [[Image(https://testserver.palm-model.org/buildStatus/icon?job=palm_trunk)]] More details [[wiki:doc/tec/testsuite|here]] == News == {{{#!comment ############################################# ## NEWS RULES: This section contains only ## ## news, that are not older than 1 year ## ############################################# }}} '''[ 2019-11-22 ]''' ''PALM seminar at the Leibniz University Hannover (Feb 10-14, 2020): Check out the [attachment:Announcement_PALMseminar2020.zip​ announcement]. Deadline for registration is Jan 06, 2020.''\\ '''[ 2019-01-09 ]''' ''Since September 2019 the second funding period of MOSAIK has started and will involve further development of PALM-4U.''\\ '''[ 2019-05-09 ]''' ''PALM seminar at the Zheijang University (Sep 16-20, 2019): Check out the [attachment:Announcement_PALMseminar2019.zip​ announcement]. Deadline for registration is May 30, 2019.''\\ '''[ 2019-03-15 ]''' ''PALM 6.0 special issue in Geoscientific Model Development is open for submissions until May 31 ([https://www.geosci-model-dev.net/special_issue999.html details])''\\ ---- [[NoteBox(note,The PALM code is currently under extensive development\, mainly within the framework of the urban climate project [http://palm.muk.uni-hannover.de/mosaik/ MOSAIK]. Hence\, the PALM documentation is not up-to-date at all times. We apologize for any inconvenience this may cause you. Please don't hesitate to contact us via the [wiki:tickets ticket] system in case of any questions or problems. View the [wiki:doc/tec/changelog change log] for an overview of the PALM development. Thank you for your patience.)]] ---- == PALM == The model PALM consists of a dynamic solver for the Navier-Stokes equations and the first law of thermodynamics. By default, the model is used in an LES mode in which the bulk of the turbulent motions in the atmospheric boundary are explicitly resolved. Further highlights and features of the PALM core are * excellent scaling, so far tested up to 32,000 cores * complex terrain is realized on a Cartesian grid (allows for steep orography and vertically oriented buildings) * online data analysis (during model runs) in order to avoid I/O bottlenecks * interactive land surface model, coupled to the RRTMG radiation model * wind turbine model (ADM-R) is implemented * ocean mode with salinity equation and equation of state for seawater * bulk cloud physics (Seifert-Beheng scheme) * embedded parallelized Lagrangian particle model for various applications (footprint calculation, simulation of cloud droplet growth, visualization, etc.) * interface allowing users to plug in their own code extensions without modifying the default code * dynamic core and thermodynamics runs on multiple GPUs using CUDA-aware MPI ---- == PALM-4U components == For urban applications, the PALM-4U components offer a variety of capabilities and features to answer research questions and to tackle issues in modern city planning related to the urban microclimate and climate change. Above all, this includes the representation of buildings on a Cartesian grid at grid spacings down to 1 m and below. PALM-4U components are shipped with PALM and are available after installation of PALM. PALM-4U components are thus also available in PALM and might be used without being limited to urban area applications. Per definition, starting from PALM version 5.0, the user runs PALM-4U as soon as buildings are placed within the model domain and at least one of the following PALM-4U components is used: {{{ #!div style="align:'left'; width: 200px; border: 0px solid; float:right" [[Image(PALM-4U_logo.png,200px,https://uc2-mosaik.org)]] }}} * Energy balance solvers for building and paved surfaces * Radiative transfer within the urban canopy layer, including shadowing effects and multiple reflections between urban structures * Wall material model for heat transfer between atmosphere and building * Indoor climate module, predicting indoor temperature, energy demand, and waste heat * Chemistry module for the transport and conversion of reactive species * Model self-nesting that allows to increase either model domain size or to focus on near-surface processes * A multi-agent system for urban residents, allowing for biometeorological studies and escape scenarios * Quasi-automatic external forcing by COSMO-DE model data * A Reynolds-averaged Navier Stokes (RANS) type turbulence parameterization can be used instead of LES to reduce computational costs * Analysis tools and direct output of biometeorological quantities The PALM-4U components have been, are and will be further developed by a consortium of institutions within the framework of the funding programme "[UC²] - Urban climate under change", funded by the German Federal Ministry of Education and Research (BMBF). For more information, see [http://uc2-mosaik.org]. \\\\\\ ---- '''PALM users world map'''[[FootNote(The world map shows groups that work with PALM and that have published at least one paper. You want to be listed in the map? Let [mailto:maronga@muk.uni-hannover.de us] know!)]] {{{ #!html
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