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On July 23, 2021 at 6:24:30 AM UTC, Administrator:

Changed title to snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport (previously Snow Accumulation on Arctic Sea Ice during MOSAIC)

Set maintainer of snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport to {"affiliation": "WSL", "email": "hames.oceane@gmail.com", "given_name": "Océane", "identifier": "", "name": "Hames"} (previously {"affiliation": "", "email": "oceane.hames@wsl.ch", "given_name": "", "identifier": "", "name": "Hames"})

Set author of snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport to [{"affiliation": "WSL", "affiliation_02": "SLF", "affiliation_03": "EPFL", "data_credit": "software", "email": "hames.oceane@gmail.com", "given_name": "Oc\u00e9ane", "identifier": "", "name": "Hames"}, {"affiliation": "EPFL", "affiliation_02": "CRYOS", "affiliation_03": "", "data_credit": ["software", "supervision"], "email": "mahdi.jafari@epfl.ch", "given_name": "Mahdi", "identifier": "", "name": "Jafari"}, {"affiliation": "WSL", "affiliation_02": "SLF", "affiliation_03": "EPFL", "data_credit": "supervision", "email": "lehning@slf.ch", "given_name": "Michael", "identifier": "", "name": "Lehning"}] (previously [{"affiliation": "WSL", "affiliation_02": "", "affiliation_03": "", "email": "oceane.hames@wsl.ch", "given_name": "", "identifier": "", "name": "Hames"}])

Updated description of snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport from
This page compiles metadata information on the publication: Modelling the small-scale deposition of snow onto structured Arctic sea ice during a MOSAiC storm.
to
snowBedFoam 1.0. is a snow transport solver implemented in the Computational Fluid Dynamics (CFD) software OpenFOAM. It is adapted from the standard multi-phase flow solver DPMFoam for application in snow-influenced environments. To simulate aeolian snow transport, snowBedFoam 1.0. handles coupled Eulerian–Lagrangian phases, which involve a finite number of particles (snow) spread in a continuous phase (air). The snow erosion and deposition are modelled through physically-based equations such as the ones employed in the well-established LES-Lagrangian Stochastic Model (Comola and Lehning, 2017 ; Sharma et al., 2018). This modelling approach is computationally intensive and thus adapted to simulate snow movement and distribution on small scale terrain. snowBedFoam 1.0. was tested against topographical data collected on Arctic sea ice during the MOSAiC expedition (Clemens-Sewall, 2021) . Together with atmospheric data from the MOSAiC Met City (Shupe et al., 2021) used for the fluid forcing, the model was able to accurately simulate the zones of erosion and deposition of snow along a complex ice ridge structure. The core code of snowBedFoam 1.0. is also accessible on the WSL/SLF GitLab repository (more details in the Resources section).

Changed value of field resource_type to software in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field date to [{"date": "2019-12-03", "date_type": "created", "end_date": ""}] in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field spatial to {"type":"Polygon","coordinates":[[[53.4375,84.24187622276202],[53.4375,84.93705433648492],[90,84.93705433648492],[90,84.24187622276202],[53.4375,84.24187622276202]]]} in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field publication_state to approved in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field funding to [{"grant_number": "", "institution": "Swiss National Science Foundation", "institution_url": "http://www.snf.ch/en/Pages/default.aspx"}] in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field related_datasets to *Atmospheric Radiation Measurement (ARM) user facility. 2019. Ka ARM Zenith Radar (KAZRCFRGE). 2019-11-06 to 2019-11-13, ARM Mobile Facility (MOS) MOSAIC (Drifting Obs - Study of Arctic Climate); AMF2 (M1). Compiled by I. Lindenmaier, K. Johnson, D. Nelson, B. Isom, J. Hardin, A. Matthews, T. Wendler and V. Castro. ARM Data Center. doi:10.5439/1498936. *David Clemens-Sewall. 2021. Terrestrial Laser Scans of the Snow 2 area of the Multidisciplinary drifting Observatory for the Study of Arctic Climate from November 6 and 13 2019. urn:node:ARCTIC. doi:10.18739/A2DZ03304. *Shupe et al. 2021. MOSAiC atmospheric data from MET tower. [Note: a more complete reference (DOI) will be added after publication of the dataset.] in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field resource_type_general to software in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field related_publications to *Comola, F., and Lehning, M. (2017), Energy- and momentum-conserving model of splash entrainment in sand and snow saltation, Geophys. Res. Lett., 44, 1601– 1609, doi:10.1002/2016GL071822. *Sharma, V., Comola, F., and Lehning, M.: On the suitability of the Thorpe–Mason model for calculating sublimation of saltating snow, The Cryosphere, 12, 3499–3509, https://doi.org/10.5194/tc-12-3499-2018, 2018. in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Added resource snowBedFoam 1.0. to snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Added resource MOSAiC Met City preliminary (Level 2) wind data to snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Updated description of resource Paper Draft in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport from
Needs to be updated
to
This is the initial draft of the paper where the snowBedFoam 1.0. results are tested against Terrestrial Laser Scan (TLS) measurements of snow dynamics on Arctic sea ice (MOSAiC expedition). It highlights the numerical limitations of our model as well as the measurement uncertainties, which may occur in such extreme environments.

Uploaded a new file to resource Paper Draft in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Added field publication_state to resource Paper Draft in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

Changed value of field resource_size of resource Paper Draft to {"size_value": "3", "size_units": "mb"} (previously {"size_value": "", "size_units": "kb"}) in snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for modelling snow transport

              
    
          
          
        
        
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            n 25   "metadata_modified": "2021-05-20T11:33:56.162071", n 35   "metadata_modified": "2021-07-23T06:24:30.264284",
            26   "name": "snow-accumulation-on-arctic-sea-ice-during-mosaic", 36   "name": "snow-accumulation-on-arctic-sea-ice-during-mosaic",
            n 27   "notes": "This page compiles metadata information on the  n 37   "notes": "snowBedFoam 1.0. is a snow transport solver implemented in 
            28 publication:\r\nModelling the small-scale deposition of snow onto  38 the Computational Fluid Dynamics (CFD) software OpenFOAM. It is 
            29 structured Arctic sea ice during a MOSAiC storm.", 39 adapted from the standard multi-phase flow solver DPMFoam for 
            40 application in snow-influenced environments. \r\n\r\nTo simulate 
            41 aeolian snow transport, snowBedFoam 1.0. handles coupled 
            42 Eulerian\u2013Lagrangian phases, which involve a finite number of 
            43 particles (snow) spread in a continuous phase (air). The snow erosion 
            44 and deposition are modelled through physically-based equations such as 
            45 the ones employed in the well-established LES-Lagrangian Stochastic 
            46 Model (Comola and Lehning, 2017 ; Sharma et al., 2018). This modelling 
            47 approach is computationally intensive and thus adapted to simulate 
            48 snow movement and distribution on small scale 
            49 terrain.\r\n\r\nsnowBedFoam 1.0. was tested against topographical data 
            50 collected on Arctic sea ice during the MOSAiC expedition 
            51 (Clemens-Sewall, 2021) . Together with atmospheric data from the 
            52 MOSAiC Met City (Shupe et al., 2021) used for the fluid forcing, the 
            53 model was able to accurately simulate the zones of erosion and 
            54 deposition of snow along a complex ice ridge structure. \r\n\r\nThe 
            55 core code of snowBedFoam 1.0. is also accessible on the WSL/SLF GitLab 
            56 repository (more details in the Resources section).\r\n ",
            30   "num_resources": 1, 57   "num_resources": 3,
            31   "num_tags": 5, 58   "num_tags": 5,
            32   "organization": { 59   "organization": {
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            35     "description": "CRYOS is the EPFL laboratory of the WSL/SLF - EPFL  62     "description": "CRYOS is the EPFL laboratory of the WSL/SLF - EPFL 
            36 joint appointment for Prof. Michael Lehning. At his WSL side, Prof.  63 joint appointment for Prof. Michael Lehning. At his WSL side, Prof. 
            37 Michael Lehning is head of the research unit \"Snow and Permafrost\"  64 Michael Lehning is head of the research unit \"Snow and Permafrost\" 
            38 at SLF in Davos.\r\n \r\n###General Mission\r\nThe laboratory of  65 at SLF in Davos.\r\n \r\n###General Mission\r\nThe laboratory of 
            39 cryospheric sciences investigates the processes that shape snow and  66 cryospheric sciences investigates the processes that shape snow and 
            40 ice in mountains and polar regions. In particular, snow cover  67 ice in mountains and polar regions. In particular, snow cover 
            41 processes, snow-atmosphere interactions and mountain hydrology are in  68 processes, snow-atmosphere interactions and mountain hydrology are in 
            42 the focus of current research. This includes a strive for deeper  69 the focus of current research. This includes a strive for deeper 
            43 understanding of the complicated mass and energy exchange processes  70 understanding of the complicated mass and energy exchange processes 
            44 within, above and below a snow cover but also predictions of future  71 within, above and below a snow cover but also predictions of future 
            45 snow and ice in mountains and high latitudes. A newer work area is the  72 snow and ice in mountains and high latitudes. A newer work area is the 
            46 risk management and optimization in the field of renewable energy  73 risk management and optimization in the field of renewable energy 
            47 production based on our detailed understanding of water, wind and  74 production based on our detailed understanding of water, wind and 
            48 radiation processes in mountains.\r\n\r\nMore information:  75 radiation processes in mountains.\r\n\r\nMore information: 
            49 http://cryos.epfl.ch/", 76 http://cryos.epfl.ch/",
            50     "id": "b2ef52fe-c56a-4973-8309-24837f3848ed", 77     "id": "b2ef52fe-c56a-4973-8309-24837f3848ed",
            51     "image_url": "2019-03-26-151807.125593CRYOSLogoFinal.jpg", 78     "image_url": "2019-03-26-151807.125593CRYOSLogoFinal.jpg",
            52     "is_organization": true, 79     "is_organization": true,
            53     "name": "cryos", 80     "name": "cryos",
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            55     "title": "CRYOS", 82     "title": "CRYOS",
            56     "type": "organization" 83     "type": "organization"
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            61 \"EnviDat\"}", 88 \"EnviDat\"}",
            n 62   "publication_state": "pub_pending", n 89   "publication_state": "approved",
            63   "related_datasets": "", 90   "related_datasets": "*Atmospheric Radiation Measurement (ARM) user 
            64   "related_publications": "", 91 facility. 2019. Ka ARM Zenith Radar (KAZRCFRGE). 2019-11-06 to 
            92 2019-11-13, ARM Mobile Facility (MOS) MOSAIC (Drifting Obs - Study of 
            93 Arctic Climate); AMF2 (M1). Compiled by I. Lindenmaier, K. Johnson, D. 
            94 Nelson, B. Isom, J. Hardin, A. Matthews, T. Wendler and V. Castro. ARM 
            95 Data Center. doi:10.5439/1498936.\r\n\r\n*David Clemens-Sewall. 2021. 
            96 Terrestrial Laser Scans of the Snow 2 area of the Multidisciplinary 
            97 drifting Observatory for the Study of Arctic Climate from November 6 
            98 and 13 2019. urn:node:ARCTIC. doi:10.18739/A2DZ03304.\r\n\r\n*Shupe et 
            99 al. 2021. MOSAiC atmospheric data from MET tower. [Note: a more 
            100 complete reference (DOI) will be added after publication of the 
            101 dataset.]\r\n\r\n\r\n\r\n\r\n\r\n\r\n",
            102   "related_publications": "*Comola, F., and Lehning, M. (2017), 
            103 Energy- and momentum-conserving model of splash entrainment in sand 
            104 and snow saltation, Geophys. Res. Lett., 44, 1601\u2013 1609, 
            105 doi:10.1002/2016GL071822.\r\n\r\n*Sharma, V., Comola, F., and Lehning, 
            106 M.: On the suitability of the Thorpe\u2013Mason model for calculating 
            107 sublimation of saltating snow, The Cryosphere, 12, 3499\u20133509, 
            108 https://doi.org/10.5194/tc-12-3499-2018, 2018.\r\n\r\n",
            65   "relationships_as_object": [], 109   "relationships_as_object": [],
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            n 74       "description": "Needs to be updated", n 118       "description": "This is the initial draft of the paper where the 
            119 snowBedFoam 1.0. results are tested against Terrestrial Laser Scan 
            120 (TLS) measurements of snow dynamics on Arctic sea ice (MOSAiC 
            121 expedition). It highlights the numerical limitations of our model as 
            122 well as the measurement uncertainties, which may occur in such extreme 
            123 environments.",
            75       "doi": "", 124       "doi": "",
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            92       "state": "active", 142       "state": "active",
            93       "url":  143       "url": 
            n 94 /download/gmd_smallscaledeposition_arcticseaice_hamesjafari_etal.pdf", n 144 6e-afa2-4a08-bb12-351648d1e1f9/download/snowbedfoam_mosaicseaice.pdf",
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            147     {
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            150       "created": "2021-06-11T11:09:58.514378",
            151       "description": "OpenFOAM-2.3.0. scripts containing the 
            152 implemented Eulerian-Lagrangian snow transport model.\r\n\r\nThe code 
            153 file provided here is not updated. The most recent version of the 
            154 script can be found on the WSL/SLF GitLab repository: 
            155 https://gitlabext.wsl.ch/atmospheric-models/snowbedfoam-v1-0.git",
            156       "doi": "None",
            157       "format": ".zip",
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            164       "name": "snowBedFoam 1.0. ",
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            167       "publication_state": "",
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            170       "resource_type": null,
            171       "restricted": "{\"level\": \"public\", \"allowed_users\": \"\", 
            172 \"shared_secret\": \"\"}",
            173       "size": 38674582,
            174       "state": "active",
            175       "url": 
            176 080d7-e68d-4cb8-9b63-34ebf5998fe7/download/snowbedfoam-v1-0-main.zip",
            177       "url_type": "upload"
            178     },
            179     {
            180       "cache_last_updated": null,
            181       "cache_url": null,
            182       "created": "2021-07-02T11:49:43.470036",
            183       "description": "Extract from the preliminary MOSAiC atmospheric 
            184 data (Level 2) for the time period 6th to 13th of November, 2019. 
            185 \r\nThis data was used to set up the fluid forcing parameters in the 
            186 snowBedFoam simulations on MOSAiC sea ice. It is being published in 
            187 this repository with the kind permission from Matthew Shupe and his 
            188 team. \r\nThe final processed and quality controlled version of this 
            189 dataset (Level 3) has not been published yet. A complete reference 
            190 will be added in this description once it is released.",
            191       "doi": "None",
            192       "format": "zip-compressed folder of csv",
            193       "hash": "",
            194       "id": "a9b2c876-ac90-4aa5-ab56-a06e82221894",
            195       "last_modified": null,
            196       "metadata_modified": "2021-07-02T11:50:30.701440",
            197       "mimetype": null,
            198       "mimetype_inner": null,
            199       "name": "MOSAiC Met City preliminary (Level 2) wind data ",
            200       "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6",
            201       "position": 2,
            202       "resource_size": "{\"size_units\": \"kb\", \"size_value\": 
            203 \"37.7\"}",
            204       "resource_type": null,
            205       "restricted": "{\"allowed_users\": \"\", \"level\": \"public\", 
            206 \"shared_secret\": \"\"}",
            207       "size": 37737,
            208       "state": "active",
            209       "url": 
            210 -ac90-4aa5-ab56-a06e82221894/download/mosaic_mettowerdata_level2.zip",
            95       "url_type": "upload" 211       "url_type": "upload"
            96     } 212     }
            97   ], 213   ],
            n 98   "spatial": "{\"type\": \"Polygon\", \"coordinates\": [[[5.95587,  n 214   "spatial": 
            99 45.81802],[5.95587, 47.80838],[10.49203, 47.80838],[10.49203,  215 3705433648492],[90,84.24187622276202],[53.4375,84.24187622276202]]]}",
            100 45.81802],[5.95587, 45.81802]]]}", 
            101   "spatial_info": "Switzerland", 216   "spatial_info": "Switzerland",
            102   "state": "active", 217   "state": "active",
            103   "subtitle": "", 218   "subtitle": "",
            104   "tags": [ 219   "tags": [
            105     { 220     {
            106       "display_name": "ARCTIC SEA ICE", 221       "display_name": "ARCTIC SEA ICE",
            107       "id": "f98cc601-3e57-4af1-a8b5-3e1770bd0420", 222       "id": "f98cc601-3e57-4af1-a8b5-3e1770bd0420",
            108       "name": "ARCTIC SEA ICE", 223       "name": "ARCTIC SEA ICE",
            109       "state": "active", 224       "state": "active",
            110       "vocabulary_id": null 225       "vocabulary_id": null
            111     }, 226     },
            112     { 227     {
            113       "display_name": "MOSAIC", 228       "display_name": "MOSAIC",
            114       "id": "e97c8f27-76a3-4c98-9627-b3731f6720e4", 229       "id": "e97c8f27-76a3-4c98-9627-b3731f6720e4",
            115       "name": "MOSAIC", 230       "name": "MOSAIC",
            116       "state": "active", 231       "state": "active",
            117       "vocabulary_id": null 232       "vocabulary_id": null
            118     }, 233     },
            119     { 234     {
            120       "display_name": "OPENFOAM", 235       "display_name": "OPENFOAM",
            121       "id": "e1854139-4856-4dc6-9546-19f39fa235a7", 236       "id": "e1854139-4856-4dc6-9546-19f39fa235a7",
            122       "name": "OPENFOAM", 237       "name": "OPENFOAM",
            123       "state": "active", 238       "state": "active",
            124       "vocabulary_id": null 239       "vocabulary_id": null
            125     }, 240     },
            126     { 241     {
            127       "display_name": "SNOW DEPOSITION", 242       "display_name": "SNOW DEPOSITION",
            128       "id": "ff281882-e1c0-4119-9c10-5929c5222ef9", 243       "id": "ff281882-e1c0-4119-9c10-5929c5222ef9",
            129       "name": "SNOW DEPOSITION", 244       "name": "SNOW DEPOSITION",
            130       "state": "active", 245       "state": "active",
            131       "vocabulary_id": null 246       "vocabulary_id": null
            132     }, 247     },
            133     { 248     {
            134       "display_name": "SNOW TRANSPORT", 249       "display_name": "SNOW TRANSPORT",
            135       "id": "506cb5dc-8200-41ac-b0a4-fdd2db5cd539", 250       "id": "506cb5dc-8200-41ac-b0a4-fdd2db5cd539",
            136       "name": "SNOW TRANSPORT", 251       "name": "SNOW TRANSPORT",
            137       "state": "active", 252       "state": "active",
            138       "vocabulary_id": null 253       "vocabulary_id": null
            139     } 254     }
            140   ], 255   ],
            t 141   "title": "Snow Accumulation on Arctic Sea Ice during MOSAIC", t 256   "title": "snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for 
            257 modelling snow transport",
            142   "type": "dataset", 258   "type": "dataset",
            143   "url": null, 259   "url": null,
            144   "version": "1.0" 260   "version": "1.0"
            145 } 261 }