Changes
On March 25, 2024 at 12:09:04 PM UTC, Oceane Hames:
-
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. *Hames, O., Jafari, M., Wagner, D. N., Raphael, I., Clemens-Sewall, D., Polashen-933 ski, C., Lehning, M. (2022). Modeling the small-scale deposition of934 snow onto structured Arctic sea ice during a MOSAiC storm using snowBed-935 Foam 1.0. Geoscientific Model Development, 15 (16), 6429–6449. * Melo, D. B., Sharma, V., Comola, F., Sigmund, A., & Lehning, M. (2022). Modeling snow saltation: The effect of grain size and interparticle cohesion. Journal of Geophysical Research: Atmospheres, 127, e2021JD035260. https://doi.org/10.1029/2021JD035260 *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
f | 1 | { | f | 1 | { |
2 | "author": "[{\"affiliation\": \"WSL\", \"affiliation_02\": \"SLF\", | 2 | "author": "[{\"affiliation\": \"WSL\", \"affiliation_02\": \"SLF\", | ||
3 | \"affiliation_03\": \"EPFL\", \"data_credit\": \"software\", | 3 | \"affiliation_03\": \"EPFL\", \"data_credit\": \"software\", | ||
4 | \"email\": \"hames.oceane@gmail.com\", \"given_name\": | 4 | \"email\": \"hames.oceane@gmail.com\", \"given_name\": | ||
5 | \"Oc\\u00e9ane\", \"identifier\": \"\", \"name\": \"Hames\"}, | 5 | \"Oc\\u00e9ane\", \"identifier\": \"\", \"name\": \"Hames\"}, | ||
6 | {\"affiliation\": \"EPFL\", \"affiliation_02\": \"CRYOS\", | 6 | {\"affiliation\": \"EPFL\", \"affiliation_02\": \"CRYOS\", | ||
7 | \"affiliation_03\": \"\", \"data_credit\": [\"software\", | 7 | \"affiliation_03\": \"\", \"data_credit\": [\"software\", | ||
8 | \"supervision\"], \"email\": \"mahdi.jafari@epfl.ch\", \"given_name\": | 8 | \"supervision\"], \"email\": \"mahdi.jafari@epfl.ch\", \"given_name\": | ||
9 | \"Mahdi\", \"identifier\": \"\", \"name\": \"Jafari\"}, | 9 | \"Mahdi\", \"identifier\": \"\", \"name\": \"Jafari\"}, | ||
10 | {\"affiliation\": \"WSL\", \"affiliation_02\": \"SLF\", | 10 | {\"affiliation\": \"WSL\", \"affiliation_02\": \"SLF\", | ||
11 | \"affiliation_03\": \"EPFL\", \"data_credit\": \"supervision\", | 11 | \"affiliation_03\": \"EPFL\", \"data_credit\": \"supervision\", | ||
12 | \"email\": \"lehning@slf.ch\", \"given_name\": \"Michael\", | 12 | \"email\": \"lehning@slf.ch\", \"given_name\": \"Michael\", | ||
13 | \"identifier\": \"\", \"name\": \"Lehning\"}]", | 13 | \"identifier\": \"\", \"name\": \"Lehning\"}]", | ||
14 | "author_email": null, | 14 | "author_email": null, | ||
15 | "creator_user_id": "16379126-7832-4ddf-b7b2-4e1f408d532e", | 15 | "creator_user_id": "16379126-7832-4ddf-b7b2-4e1f408d532e", | ||
16 | "date": "[{\"date\": \"2019-12-03\", \"date_type\": \"created\", | 16 | "date": "[{\"date\": \"2019-12-03\", \"date_type\": \"created\", | ||
17 | \"end_date\": \"\"}]", | 17 | \"end_date\": \"\"}]", | ||
18 | "doi": "10.16904/envidat.223", | 18 | "doi": "10.16904/envidat.223", | ||
19 | "funding": "[{\"grant_number\": \"\", \"institution\": \"Swiss | 19 | "funding": "[{\"grant_number\": \"\", \"institution\": \"Swiss | ||
20 | National Science Foundation\", \"institution_url\": | 20 | National Science Foundation\", \"institution_url\": | ||
21 | \"http://www.snf.ch/en/Pages/default.aspx\"}]", | 21 | \"http://www.snf.ch/en/Pages/default.aspx\"}]", | ||
22 | "groups": [], | 22 | "groups": [], | ||
23 | "id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 23 | "id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
24 | "isopen": true, | 24 | "isopen": true, | ||
25 | "language": "en", | 25 | "language": "en", | ||
26 | "license_id": "cc-by-sa", | 26 | "license_id": "cc-by-sa", | ||
27 | "license_title": "Creative Commons Attribution Share-Alike | 27 | "license_title": "Creative Commons Attribution Share-Alike | ||
28 | (CC-BY-SA)", | 28 | (CC-BY-SA)", | ||
29 | "license_url": "https://creativecommons.org/licenses/by-sa/4.0/", | 29 | "license_url": "https://creativecommons.org/licenses/by-sa/4.0/", | ||
30 | "maintainer": "{\"affiliation\": \"WSL\", \"email\": | 30 | "maintainer": "{\"affiliation\": \"WSL\", \"email\": | ||
31 | \"hames.oceane@gmail.com\", \"given_name\": \"Oc\u00e9ane\", | 31 | \"hames.oceane@gmail.com\", \"given_name\": \"Oc\u00e9ane\", | ||
32 | \"identifier\": \"\", \"name\": \"Hames\"}", | 32 | \"identifier\": \"\", \"name\": \"Hames\"}", | ||
33 | "maintainer_email": null, | 33 | "maintainer_email": null, | ||
34 | "metadata_created": "2021-05-20T09:50:58.431619", | 34 | "metadata_created": "2021-05-20T09:50:58.431619", | ||
n | 35 | "metadata_modified": "2024-03-25T12:07:37.198276", | n | 35 | "metadata_modified": "2024-03-25T12:09:04.914393", |
36 | "name": "snow-accumulation-on-arctic-sea-ice-during-mosaic", | 36 | "name": "snow-accumulation-on-arctic-sea-ice-during-mosaic", | ||
37 | "notes": "snowBedFoam 1.0. is a snow transport solver implemented in | 37 | "notes": "snowBedFoam 1.0. is a snow transport solver implemented in | ||
38 | the computational fluid dynamics software OpenFOAM (The OpenFOAM | 38 | the computational fluid dynamics software OpenFOAM (The OpenFOAM | ||
39 | Foundation, 2024). It is adapted from the standard multi-phase flow | 39 | Foundation, 2024). It is adapted from the standard multi-phase flow | ||
40 | solver DPMFoam for application in snow-influenced environments. \n\nTo | 40 | solver DPMFoam for application in snow-influenced environments. \n\nTo | ||
41 | simulate aeolian snow transport, snowBedFoam 1.0. handles coupled | 41 | simulate aeolian snow transport, snowBedFoam 1.0. handles coupled | ||
42 | Eulerian\u2013Lagrangian phases, which involve a finite number of | 42 | Eulerian\u2013Lagrangian phases, which involve a finite number of | ||
43 | particles (snow) spread in a continuous phase (air). The snow erosion | 43 | particles (snow) spread in a continuous phase (air). The snow erosion | ||
44 | and deposition are modelled through physics-based equations similar to | 44 | and deposition are modelled through physics-based equations similar to | ||
45 | the ones employed in the well-established LES-Lagrangian Stochastic | 45 | the ones employed in the well-established LES-Lagrangian Stochastic | ||
46 | Model (Comola and Lehning, 2017 ; Sharma et al., 2018 ; Melo et al., | 46 | Model (Comola and Lehning, 2017 ; Sharma et al., 2018 ; Melo et al., | ||
47 | 2022). This modelling approach is computationally intensive and thus | 47 | 2022). This modelling approach is computationally intensive and thus | ||
48 | adapted to simulate snow movement and distribution on small scale | 48 | adapted to simulate snow movement and distribution on small scale | ||
49 | terrain.\n\nFirst, snowBedFoam 1.0. was applied to topographical data | 49 | terrain.\n\nFirst, snowBedFoam 1.0. was applied to topographical data | ||
50 | collected on Arctic sea ice during the MOSAiC expedition | 50 | collected on Arctic sea ice during the MOSAiC expedition | ||
51 | (Clemens-Sewall, 2021). Together with atmospheric data from the MOSAiC | 51 | (Clemens-Sewall, 2021). Together with atmospheric data from the MOSAiC | ||
52 | Met City (Shupe et al., 2021) used for the fluid forcing, the model | 52 | Met City (Shupe et al., 2021) used for the fluid forcing, the model | ||
53 | was able to accurately simulate the zones of erosion and deposition of | 53 | was able to accurately simulate the zones of erosion and deposition of | ||
54 | snow along a complex ice ridge structure (Hames et al., 2022). | 54 | snow along a complex ice ridge structure (Hames et al., 2022). | ||
55 | \n\nSecond, snowBedFoam 1.0. was used to simulate the snow | 55 | \n\nSecond, snowBedFoam 1.0. was used to simulate the snow | ||
56 | distribution around the German Antarctic research station Neumayer | 56 | distribution around the German Antarctic research station Neumayer | ||
57 | Station III. The effect of snow properties, fluid forcing and | 57 | Station III. The effect of snow properties, fluid forcing and | ||
58 | aerodynamic structures on the snow accumulation were assessed. | 58 | aerodynamic structures on the snow accumulation were assessed. | ||
59 | \n\nsnowBedFoam 1.0 was implemented in 2 different OpenFOAM versions, | 59 | \n\nsnowBedFoam 1.0 was implemented in 2 different OpenFOAM versions, | ||
60 | namely OpenFOAM-2.3.0 and OpenFOAM-5.0. The latter offers more options | 60 | namely OpenFOAM-2.3.0 and OpenFOAM-5.0. The latter offers more options | ||
61 | for turbulence models and boundary conditions. The fundamental model | 61 | for turbulence models and boundary conditions. The fundamental model | ||
62 | equations were not changed from one implementation to the other, thus | 62 | equations were not changed from one implementation to the other, thus | ||
63 | both still correspond to snowBedFoam 1.0. The two branches are called | 63 | both still correspond to snowBedFoam 1.0. The two branches are called | ||
64 | snowBedFoam-v1-2.3.0 (OpenFOAM-2.3.0) and snowBedFoam-v1-5.0 | 64 | snowBedFoam-v1-2.3.0 (OpenFOAM-2.3.0) and snowBedFoam-v1-5.0 | ||
65 | (OpenFOAM-5.0). The core codes of snowBedFoam 1.0. are directly | 65 | (OpenFOAM-5.0). The core codes of snowBedFoam 1.0. are directly | ||
66 | accessible on the WSL/SLF GitLab repository (more details in the | 66 | accessible on the WSL/SLF GitLab repository (more details in the | ||
67 | Resources section).\n ", | 67 | Resources section).\n ", | ||
68 | "num_resources": 6, | 68 | "num_resources": 6, | ||
69 | "num_tags": 6, | 69 | "num_tags": 6, | ||
70 | "organization": { | 70 | "organization": { | ||
71 | "approval_status": "approved", | 71 | "approval_status": "approved", | ||
72 | "created": "2016-11-17T12:24:20.447699", | 72 | "created": "2016-11-17T12:24:20.447699", | ||
73 | "description": "CRYOS is the EPFL laboratory of the WSL/SLF - EPFL | 73 | "description": "CRYOS is the EPFL laboratory of the WSL/SLF - EPFL | ||
74 | joint appointment for Prof. Michael Lehning. At his WSL side, Prof. | 74 | joint appointment for Prof. Michael Lehning. At his WSL side, Prof. | ||
75 | Michael Lehning is head of the research unit \"Snow and Permafrost\" | 75 | Michael Lehning is head of the research unit \"Snow and Permafrost\" | ||
76 | at SLF in Davos.\r\n \r\n###General Mission\r\nThe laboratory of | 76 | at SLF in Davos.\r\n \r\n###General Mission\r\nThe laboratory of | ||
77 | cryospheric sciences investigates the processes that shape snow and | 77 | cryospheric sciences investigates the processes that shape snow and | ||
78 | ice in mountains and polar regions. In particular, snow cover | 78 | ice in mountains and polar regions. In particular, snow cover | ||
79 | processes, snow-atmosphere interactions and mountain hydrology are in | 79 | processes, snow-atmosphere interactions and mountain hydrology are in | ||
80 | the focus of current research. This includes a strive for deeper | 80 | the focus of current research. This includes a strive for deeper | ||
81 | understanding of the complicated mass and energy exchange processes | 81 | understanding of the complicated mass and energy exchange processes | ||
82 | within, above and below a snow cover but also predictions of future | 82 | within, above and below a snow cover but also predictions of future | ||
83 | snow and ice in mountains and high latitudes. A newer work area is the | 83 | snow and ice in mountains and high latitudes. A newer work area is the | ||
84 | risk management and optimization in the field of renewable energy | 84 | risk management and optimization in the field of renewable energy | ||
85 | production based on our detailed understanding of water, wind and | 85 | production based on our detailed understanding of water, wind and | ||
86 | radiation processes in mountains.\r\n\r\nMore information: | 86 | radiation processes in mountains.\r\n\r\nMore information: | ||
87 | http://cryos.epfl.ch/", | 87 | http://cryos.epfl.ch/", | ||
88 | "id": "b2ef52fe-c56a-4973-8309-24837f3848ed", | 88 | "id": "b2ef52fe-c56a-4973-8309-24837f3848ed", | ||
89 | "image_url": "2019-03-26-151807.125593CRYOSLogoFinal.jpg", | 89 | "image_url": "2019-03-26-151807.125593CRYOSLogoFinal.jpg", | ||
90 | "is_organization": true, | 90 | "is_organization": true, | ||
91 | "name": "cryos", | 91 | "name": "cryos", | ||
92 | "state": "active", | 92 | "state": "active", | ||
93 | "title": "CRYOS", | 93 | "title": "CRYOS", | ||
94 | "type": "organization" | 94 | "type": "organization" | ||
95 | }, | 95 | }, | ||
96 | "owner_org": "b2ef52fe-c56a-4973-8309-24837f3848ed", | 96 | "owner_org": "b2ef52fe-c56a-4973-8309-24837f3848ed", | ||
97 | "private": false, | 97 | "private": false, | ||
98 | "publication": "{\"publication_year\": \"2021\", \"publisher\": | 98 | "publication": "{\"publication_year\": \"2021\", \"publisher\": | ||
99 | \"EnviDat\"}", | 99 | \"EnviDat\"}", | ||
100 | "publication_state": "published", | 100 | "publication_state": "published", | ||
101 | "related_datasets": "*Atmospheric Radiation Measurement (ARM) user | 101 | "related_datasets": "*Atmospheric Radiation Measurement (ARM) user | ||
102 | facility. 2019. Ka ARM Zenith Radar (KAZRCFRGE). 2019-11-06 to | 102 | facility. 2019. Ka ARM Zenith Radar (KAZRCFRGE). 2019-11-06 to | ||
103 | 2019-11-13, ARM Mobile Facility (MOS) MOSAIC (Drifting Obs - Study of | 103 | 2019-11-13, ARM Mobile Facility (MOS) MOSAIC (Drifting Obs - Study of | ||
104 | Arctic Climate); AMF2 (M1). Compiled by I. Lindenmaier, K. Johnson, D. | 104 | Arctic Climate); AMF2 (M1). Compiled by I. Lindenmaier, K. Johnson, D. | ||
105 | Nelson, B. Isom, J. Hardin, A. Matthews, T. Wendler and V. Castro. ARM | 105 | Nelson, B. Isom, J. Hardin, A. Matthews, T. Wendler and V. Castro. ARM | ||
106 | Data Center. doi:10.5439/1498936.\r\n\r\n*David Clemens-Sewall. 2021. | 106 | Data Center. doi:10.5439/1498936.\r\n\r\n*David Clemens-Sewall. 2021. | ||
107 | Terrestrial Laser Scans of the Snow 2 area of the Multidisciplinary | 107 | Terrestrial Laser Scans of the Snow 2 area of the Multidisciplinary | ||
108 | drifting Observatory for the Study of Arctic Climate from November 6 | 108 | drifting Observatory for the Study of Arctic Climate from November 6 | ||
109 | and 13 2019. urn:node:ARCTIC. doi:10.18739/A2DZ03304.\r\n\r\n*Shupe et | 109 | and 13 2019. urn:node:ARCTIC. doi:10.18739/A2DZ03304.\r\n\r\n*Shupe et | ||
110 | al. 2021. MOSAiC atmospheric data from MET tower. [Note: a more | 110 | al. 2021. MOSAiC atmospheric data from MET tower. [Note: a more | ||
111 | complete reference (DOI) will be added after publication of the | 111 | complete reference (DOI) will be added after publication of the | ||
112 | dataset.]\r\n\r\n\r\n\r\n\r\n\r\n\r\n", | 112 | dataset.]\r\n\r\n\r\n\r\n\r\n\r\n\r\n", | ||
113 | "related_publications": "*Comola, F., and Lehning, M. (2017), | 113 | "related_publications": "*Comola, F., and Lehning, M. (2017), | ||
114 | Energy- and momentum-conserving model of splash entrainment in sand | 114 | Energy- and momentum-conserving model of splash entrainment in sand | ||
115 | and snow saltation, Geophys. Res. Lett., 44, 1601\u2013 1609, | 115 | and snow saltation, Geophys. Res. Lett., 44, 1601\u2013 1609, | ||
t | 116 | doi:10.1002/2016GL071822.\n\n* Melo, D. B., Sharma, V., Comola, F., | t | 116 | doi:10.1002/2016GL071822.\n\n*Hames, O., Jafari, M., Wagner, D. N., |
117 | Raphael, I., Clemens-Sewall, D., Polashen-933\nski, C., Lehning, M. | ||||
118 | (2022). Modeling the small-scale deposition of934\nsnow onto | ||||
119 | structured Arctic sea ice during a MOSAiC storm using | ||||
120 | snowBed-935\nFoam 1.0. Geoscientific Model Development, 15 (16), | ||||
121 | 6429\u20136449.\n\n* Melo, D. B., Sharma, V., Comola, F., Sigmund, A., | ||||
117 | Sigmund, A., & Lehning, M. (2022). Modeling snow saltation: The effect | 122 | & Lehning, M. (2022). Modeling snow saltation: The effect of grain | ||
118 | of grain size and interparticle cohesion. Journal of Geophysical | 123 | size and interparticle cohesion. Journal of Geophysical Research: | ||
119 | Research: Atmospheres, 127, e2021JD035260. | 124 | Atmospheres, 127, e2021JD035260. https://doi.org/10.1029/2021JD035260 | ||
120 | https://doi.org/10.1029/2021JD035260 \n\n*Sharma, V., Comola, F., and | 125 | \n\n*Sharma, V., Comola, F., and Lehning, M.: On the suitability of | ||
121 | Lehning, M.: On the suitability of the Thorpe\u2013Mason model for | 126 | the Thorpe\u2013Mason model for calculating sublimation of saltating | ||
122 | calculating sublimation of saltating snow, The Cryosphere, 12, | 127 | snow, The Cryosphere, 12, 3499\u20133509, | ||
123 | 3499\u20133509, https://doi.org/10.5194/tc-12-3499-2018, | 128 | https://doi.org/10.5194/tc-12-3499-2018, 2018.\n\n\n\n", | ||
124 | 2018.\n\n\n\n", | ||||
125 | "relationships_as_object": [], | 129 | "relationships_as_object": [], | ||
126 | "relationships_as_subject": [], | 130 | "relationships_as_subject": [], | ||
127 | "resource_type": "software", | 131 | "resource_type": "software", | ||
128 | "resource_type_general": "software", | 132 | "resource_type_general": "software", | ||
129 | "resources": [ | 133 | "resources": [ | ||
130 | { | 134 | { | ||
131 | "cache_last_updated": null, | 135 | "cache_last_updated": null, | ||
132 | "cache_url": null, | 136 | "cache_url": null, | ||
133 | "created": "2021-05-20T11:33:52.788535", | 137 | "created": "2021-05-20T11:33:52.788535", | ||
134 | "description": "This is the initial draft of the paper where the | 138 | "description": "This is the initial draft of the paper where the | ||
135 | snowBedFoam 1.0. results are tested against Terrestrial Laser Scan | 139 | snowBedFoam 1.0. results are tested against Terrestrial Laser Scan | ||
136 | (TLS) measurements of snow dynamics on Arctic sea ice (MOSAiC | 140 | (TLS) measurements of snow dynamics on Arctic sea ice (MOSAiC | ||
137 | expedition). It highlights the numerical limitations of our model as | 141 | expedition). It highlights the numerical limitations of our model as | ||
138 | well as the measurement uncertainties, which may occur in such extreme | 142 | well as the measurement uncertainties, which may occur in such extreme | ||
139 | environments.", | 143 | environments.", | ||
140 | "doi": "", | 144 | "doi": "", | ||
141 | "format": "PDF", | 145 | "format": "PDF", | ||
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161 | "url_type": "upload" | 165 | "url_type": "upload" | ||
162 | }, | 166 | }, | ||
163 | { | 167 | { | ||
164 | "cache_last_updated": null, | 168 | "cache_last_updated": null, | ||
165 | "cache_url": null, | 169 | "cache_url": null, | ||
166 | "created": "2021-06-11T11:09:58.514378", | 170 | "created": "2021-06-11T11:09:58.514378", | ||
167 | "description": "OpenFOAM-2.3.0. scripts containing the | 171 | "description": "OpenFOAM-2.3.0. scripts containing the | ||
168 | implemented Eulerian-Lagrangian snow transport model.\r\n\r\nThe code | 172 | implemented Eulerian-Lagrangian snow transport model.\r\n\r\nThe code | ||
169 | file provided here is not updated. The most recent version of the | 173 | file provided here is not updated. The most recent version of the | ||
170 | script can be found on the WSL/SLF GitLab repository: | 174 | script can be found on the WSL/SLF GitLab repository: | ||
171 | https://gitlabext.wsl.ch/atmospheric-models/snowbedfoam-v1-0.git", | 175 | https://gitlabext.wsl.ch/atmospheric-models/snowbedfoam-v1-0.git", | ||
172 | "doi": "None", | 176 | "doi": "None", | ||
173 | "format": ".zip", | 177 | "format": ".zip", | ||
174 | "hash": "", | 178 | "hash": "", | ||
175 | "id": "056080d7-e68d-4cb8-9b63-34ebf5998fe7", | 179 | "id": "056080d7-e68d-4cb8-9b63-34ebf5998fe7", | ||
176 | "last_modified": "2024-03-25T12:31:29.151000", | 180 | "last_modified": "2024-03-25T12:31:29.151000", | ||
177 | "metadata_modified": "2024-03-25T11:31:30.107855", | 181 | "metadata_modified": "2024-03-25T11:31:30.107855", | ||
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180 | "name": "snowBedFoam-v1-2.3.0", | 184 | "name": "snowBedFoam-v1-2.3.0", | ||
181 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 185 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
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192 | "url_type": "upload" | 196 | "url_type": "upload" | ||
193 | }, | 197 | }, | ||
194 | { | 198 | { | ||
195 | "cache_last_updated": null, | 199 | "cache_last_updated": null, | ||
196 | "cache_url": null, | 200 | "cache_url": null, | ||
197 | "created": "2021-07-02T11:49:43.470036", | 201 | "created": "2021-07-02T11:49:43.470036", | ||
198 | "description": "Extract from the preliminary MOSAiC atmospheric | 202 | "description": "Extract from the preliminary MOSAiC atmospheric | ||
199 | data (Level 2) for the time period 6th to 13th of November, 2019. | 203 | data (Level 2) for the time period 6th to 13th of November, 2019. | ||
200 | \r\nThis data was used to set up the fluid forcing parameters in the | 204 | \r\nThis data was used to set up the fluid forcing parameters in the | ||
201 | snowBedFoam simulations on MOSAiC sea ice. It is being published in | 205 | snowBedFoam simulations on MOSAiC sea ice. It is being published in | ||
202 | this repository with the kind permission from Matthew Shupe and his | 206 | this repository with the kind permission from Matthew Shupe and his | ||
203 | team. \r\nThe final processed and quality controlled version of this | 207 | team. \r\nThe final processed and quality controlled version of this | ||
204 | dataset (Level 3) has not been published yet. A complete reference | 208 | dataset (Level 3) has not been published yet. A complete reference | ||
205 | will be added in this description once it is released.", | 209 | will be added in this description once it is released.", | ||
206 | "doi": "None", | 210 | "doi": "None", | ||
207 | "format": "zip-compressed folder of csv", | 211 | "format": "zip-compressed folder of csv", | ||
208 | "hash": "", | 212 | "hash": "", | ||
209 | "id": "a9b2c876-ac90-4aa5-ab56-a06e82221894", | 213 | "id": "a9b2c876-ac90-4aa5-ab56-a06e82221894", | ||
210 | "last_modified": null, | 214 | "last_modified": null, | ||
211 | "metadata_modified": "2021-07-02T11:50:30.701440", | 215 | "metadata_modified": "2021-07-02T11:50:30.701440", | ||
212 | "mimetype": null, | 216 | "mimetype": null, | ||
213 | "mimetype_inner": null, | 217 | "mimetype_inner": null, | ||
214 | "name": "MOSAiC Met City preliminary (Level 2) wind data ", | 218 | "name": "MOSAiC Met City preliminary (Level 2) wind data ", | ||
215 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 219 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
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217 | "resource_size": "{\"size_units\": \"kb\", \"size_value\": | 221 | "resource_size": "{\"size_units\": \"kb\", \"size_value\": | ||
218 | \"37.7\"}", | 222 | \"37.7\"}", | ||
219 | "resource_type": null, | 223 | "resource_type": null, | ||
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221 | \"shared_secret\": \"\"}", | 225 | \"shared_secret\": \"\"}", | ||
222 | "size": 37737, | 226 | "size": 37737, | ||
223 | "state": "active", | 227 | "state": "active", | ||
224 | "url": | 228 | "url": | ||
225 | -ac90-4aa5-ab56-a06e82221894/download/mosaic_mettowerdata_level2.zip", | 229 | -ac90-4aa5-ab56-a06e82221894/download/mosaic_mettowerdata_level2.zip", | ||
226 | "url_type": "upload" | 230 | "url_type": "upload" | ||
227 | }, | 231 | }, | ||
228 | { | 232 | { | ||
229 | "cache_last_updated": null, | 233 | "cache_last_updated": null, | ||
230 | "cache_url": null, | 234 | "cache_url": null, | ||
231 | "created": "2024-03-25T11:32:23.549021", | 235 | "created": "2024-03-25T11:32:23.549021", | ||
232 | "description": "OpenFOAM-5.0 scripts containing the implemented | 236 | "description": "OpenFOAM-5.0 scripts containing the implemented | ||
233 | Eulerian-Lagrangian snow transport model.\n\nThe code file provided | 237 | Eulerian-Lagrangian snow transport model.\n\nThe code file provided | ||
234 | here is not updated. The most recent version of the script can be | 238 | here is not updated. The most recent version of the script can be | ||
235 | found on the WSL/SLF GitLab repository: | 239 | found on the WSL/SLF GitLab repository: | ||
236 | https://gitlabext.wsl.ch/atmospheric-models/snowbedfoam-v1-0.git", | 240 | https://gitlabext.wsl.ch/atmospheric-models/snowbedfoam-v1-0.git", | ||
237 | "doi": "", | 241 | "doi": "", | ||
238 | "format": "ZIP", | 242 | "format": "ZIP", | ||
239 | "hash": "", | 243 | "hash": "", | ||
240 | "id": "87b34f08-3ae1-44d3-bd5a-aa502f8e83c3", | 244 | "id": "87b34f08-3ae1-44d3-bd5a-aa502f8e83c3", | ||
241 | "last_modified": "2024-03-25T12:39:37.140000", | 245 | "last_modified": "2024-03-25T12:39:37.140000", | ||
242 | "metadata_modified": "2024-03-25T11:39:38.084197", | 246 | "metadata_modified": "2024-03-25T11:39:38.084197", | ||
243 | "mimetype": "application/zip", | 247 | "mimetype": "application/zip", | ||
244 | "mimetype_inner": null, | 248 | "mimetype_inner": null, | ||
245 | "name": "snowBedFoam-v1-5.0", | 249 | "name": "snowBedFoam-v1-5.0", | ||
246 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 250 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
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250 | "restricted": | 254 | "restricted": | ||
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252 | "size": 40167324, | 256 | "size": 40167324, | ||
253 | "state": "active", | 257 | "state": "active", | ||
254 | "url": | 258 | "url": | ||
255 | 87b34f08-3ae1-44d3-bd5a-aa502f8e83c3/download/snowbedfoam-v1-5.0.zip", | 259 | 87b34f08-3ae1-44d3-bd5a-aa502f8e83c3/download/snowbedfoam-v1-5.0.zip", | ||
256 | "url_type": "upload" | 260 | "url_type": "upload" | ||
257 | }, | 261 | }, | ||
258 | { | 262 | { | ||
259 | "cache_last_updated": null, | 263 | "cache_last_updated": null, | ||
260 | "cache_url": null, | 264 | "cache_url": null, | ||
261 | "created": "2024-03-25T11:42:20.757421", | 265 | "created": "2024-03-25T11:42:20.757421", | ||
262 | "description": "Files containing the topographical data | 266 | "description": "Files containing the topographical data | ||
263 | barometrically measured in June 2009 around the German Antarctic | 267 | barometrically measured in June 2009 around the German Antarctic | ||
264 | Research station Neumayer III. Those measurements are compared to the | 268 | Research station Neumayer III. Those measurements are compared to the | ||
265 | snowBedFoam simulations to assess the ability of the model to | 269 | snowBedFoam simulations to assess the ability of the model to | ||
266 | reproduce real snow distribution observations.", | 270 | reproduce real snow distribution observations.", | ||
267 | "doi": "", | 271 | "doi": "", | ||
268 | "format": "ZIP", | 272 | "format": "ZIP", | ||
269 | "hash": "", | 273 | "hash": "", | ||
270 | "id": "a6d100a5-ab97-41f4-b45a-dbed9fb30619", | 274 | "id": "a6d100a5-ab97-41f4-b45a-dbed9fb30619", | ||
271 | "last_modified": "2024-03-25T12:50:18.774000", | 275 | "last_modified": "2024-03-25T12:50:18.774000", | ||
272 | "metadata_modified": "2024-03-25T11:50:19.752420", | 276 | "metadata_modified": "2024-03-25T11:50:19.752420", | ||
273 | "mimetype": "application/zip", | 277 | "mimetype": "application/zip", | ||
274 | "mimetype_inner": null, | 278 | "mimetype_inner": null, | ||
275 | "name": "Snowdrift measurements around Neumayer Station III", | 279 | "name": "Snowdrift measurements around Neumayer Station III", | ||
276 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 280 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
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279 | "resource_type": null, | 283 | "resource_type": null, | ||
280 | "restricted": | 284 | "restricted": | ||
281 | {\"level\":\"public\",\"allowed_users\":\"\",\"shared_secret\":\"\"}", | 285 | {\"level\":\"public\",\"allowed_users\":\"\",\"shared_secret\":\"\"}", | ||
282 | "size": 32270, | 286 | "size": 32270, | ||
283 | "state": "active", | 287 | "state": "active", | ||
284 | "url": | 288 | "url": | ||
285 | e/a6d100a5-ab97-41f4-b45a-dbed9fb30619/download/nm3-measurements.zip", | 289 | e/a6d100a5-ab97-41f4-b45a-dbed9fb30619/download/nm3-measurements.zip", | ||
286 | "url_type": "upload" | 290 | "url_type": "upload" | ||
287 | }, | 291 | }, | ||
288 | { | 292 | { | ||
289 | "cache_last_updated": null, | 293 | "cache_last_updated": null, | ||
290 | "cache_url": null, | 294 | "cache_url": null, | ||
291 | "created": "2024-03-25T11:51:47.809789", | 295 | "created": "2024-03-25T11:51:47.809789", | ||
292 | "description": "Snow distribution results around Neumayer | 296 | "description": "Snow distribution results around Neumayer | ||
293 | Station III obtained for the sensitivity analysis and comparison to | 297 | Station III obtained for the sensitivity analysis and comparison to | ||
294 | measurements. The file contains several sub-folders, namely:\n-COMP: | 298 | measurements. The file contains several sub-folders, namely:\n-COMP: | ||
295 | simulation output for the comparison to measurements;\n-FLOW: | 299 | simulation output for the comparison to measurements;\n-FLOW: | ||
296 | simulation output for the study of wind forcing | 300 | simulation output for the study of wind forcing | ||
297 | impact;\n-simulation_exampleCase: example case of a snowBedFoam | 301 | impact;\n-simulation_exampleCase: example case of a snowBedFoam | ||
298 | simulation with the reference Neumayer Station mesh;\n-SNOW: | 302 | simulation with the reference Neumayer Station mesh;\n-SNOW: | ||
299 | simulation output for the study of snow properties impact;\n-STRUCT: | 303 | simulation output for the study of snow properties impact;\n-STRUCT: | ||
300 | simulation output for the study of structure properties impact.\n\n", | 304 | simulation output for the study of structure properties impact.\n\n", | ||
301 | "doi": "", | 305 | "doi": "", | ||
302 | "format": "ZIP", | 306 | "format": "ZIP", | ||
303 | "hash": "", | 307 | "hash": "", | ||
304 | "id": "6bce1ab3-5fab-4fe6-afb0-7aa90760e9d2", | 308 | "id": "6bce1ab3-5fab-4fe6-afb0-7aa90760e9d2", | ||
305 | "last_modified": "2024-03-25T13:04:17.969000", | 309 | "last_modified": "2024-03-25T13:04:17.969000", | ||
306 | "metadata_modified": "2024-03-25T12:04:18.931423", | 310 | "metadata_modified": "2024-03-25T12:04:18.931423", | ||
307 | "mimetype": "application/zip", | 311 | "mimetype": "application/zip", | ||
308 | "mimetype_inner": null, | 312 | "mimetype_inner": null, | ||
309 | "name": "Neumayer III simulations", | 313 | "name": "Neumayer III simulations", | ||
310 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | 314 | "package_id": "8bdc13ec-e59e-4f08-aa0d-646745fb76a6", | ||
311 | "position": 5, | 315 | "position": 5, | ||
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313 | "resource_type": null, | 317 | "resource_type": null, | ||
314 | "restricted": | 318 | "restricted": | ||
315 | {\"level\":\"public\",\"allowed_users\":\"\",\"shared_secret\":\"\"}", | 319 | {\"level\":\"public\",\"allowed_users\":\"\",\"shared_secret\":\"\"}", | ||
316 | "size": 296665509, | 320 | "size": 296665509, | ||
317 | "state": "active", | 321 | "state": "active", | ||
318 | "url": | 322 | "url": | ||
319 | ce/6bce1ab3-5fab-4fe6-afb0-7aa90760e9d2/download/nm3-simulations.zip", | 323 | ce/6bce1ab3-5fab-4fe6-afb0-7aa90760e9d2/download/nm3-simulations.zip", | ||
320 | "url_type": "upload" | 324 | "url_type": "upload" | ||
321 | } | 325 | } | ||
322 | ], | 326 | ], | ||
323 | "spatial": | 327 | "spatial": | ||
324 | 3705433648492],[90,84.24187622276202],[53.4375,84.24187622276202]]]}", | 328 | 3705433648492],[90,84.24187622276202],[53.4375,84.24187622276202]]]}", | ||
325 | "spatial_info": "Switzerland", | 329 | "spatial_info": "Switzerland", | ||
326 | "state": "active", | 330 | "state": "active", | ||
327 | "subtitle": "", | 331 | "subtitle": "", | ||
328 | "tags": [ | 332 | "tags": [ | ||
329 | { | 333 | { | ||
330 | "display_name": "ANTARCTICA", | 334 | "display_name": "ANTARCTICA", | ||
331 | "id": "7e2647cf-cb96-44bb-800e-e4468384ebe7", | 335 | "id": "7e2647cf-cb96-44bb-800e-e4468384ebe7", | ||
332 | "name": "ANTARCTICA", | 336 | "name": "ANTARCTICA", | ||
333 | "state": "active", | 337 | "state": "active", | ||
334 | "vocabulary_id": null | 338 | "vocabulary_id": null | ||
335 | }, | 339 | }, | ||
336 | { | 340 | { | ||
337 | "display_name": "ARCTIC SEA ICE", | 341 | "display_name": "ARCTIC SEA ICE", | ||
338 | "id": "f98cc601-3e57-4af1-a8b5-3e1770bd0420", | 342 | "id": "f98cc601-3e57-4af1-a8b5-3e1770bd0420", | ||
339 | "name": "ARCTIC SEA ICE", | 343 | "name": "ARCTIC SEA ICE", | ||
340 | "state": "active", | 344 | "state": "active", | ||
341 | "vocabulary_id": null | 345 | "vocabulary_id": null | ||
342 | }, | 346 | }, | ||
343 | { | 347 | { | ||
344 | "display_name": "MOSAIC", | 348 | "display_name": "MOSAIC", | ||
345 | "id": "e97c8f27-76a3-4c98-9627-b3731f6720e4", | 349 | "id": "e97c8f27-76a3-4c98-9627-b3731f6720e4", | ||
346 | "name": "MOSAIC", | 350 | "name": "MOSAIC", | ||
347 | "state": "active", | 351 | "state": "active", | ||
348 | "vocabulary_id": null | 352 | "vocabulary_id": null | ||
349 | }, | 353 | }, | ||
350 | { | 354 | { | ||
351 | "display_name": "OPENFOAM", | 355 | "display_name": "OPENFOAM", | ||
352 | "id": "e1854139-4856-4dc6-9546-19f39fa235a7", | 356 | "id": "e1854139-4856-4dc6-9546-19f39fa235a7", | ||
353 | "name": "OPENFOAM", | 357 | "name": "OPENFOAM", | ||
354 | "state": "active", | 358 | "state": "active", | ||
355 | "vocabulary_id": null | 359 | "vocabulary_id": null | ||
356 | }, | 360 | }, | ||
357 | { | 361 | { | ||
358 | "display_name": "SNOW DEPOSITION", | 362 | "display_name": "SNOW DEPOSITION", | ||
359 | "id": "ff281882-e1c0-4119-9c10-5929c5222ef9", | 363 | "id": "ff281882-e1c0-4119-9c10-5929c5222ef9", | ||
360 | "name": "SNOW DEPOSITION", | 364 | "name": "SNOW DEPOSITION", | ||
361 | "state": "active", | 365 | "state": "active", | ||
362 | "vocabulary_id": null | 366 | "vocabulary_id": null | ||
363 | }, | 367 | }, | ||
364 | { | 368 | { | ||
365 | "display_name": "SNOW TRANSPORT", | 369 | "display_name": "SNOW TRANSPORT", | ||
366 | "id": "506cb5dc-8200-41ac-b0a4-fdd2db5cd539", | 370 | "id": "506cb5dc-8200-41ac-b0a4-fdd2db5cd539", | ||
367 | "name": "SNOW TRANSPORT", | 371 | "name": "SNOW TRANSPORT", | ||
368 | "state": "active", | 372 | "state": "active", | ||
369 | "vocabulary_id": null | 373 | "vocabulary_id": null | ||
370 | } | 374 | } | ||
371 | ], | 375 | ], | ||
372 | "title": "snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for | 376 | "title": "snowBedFoam: an OpenFOAM Eulerian-Lagrangian solver for | ||
373 | modelling snow transport", | 377 | modelling snow transport", | ||
374 | "type": "dataset", | 378 | "type": "dataset", | ||
375 | "url": null, | 379 | "url": null, | ||
376 | "version": "1.0" | 380 | "version": "1.0" | ||
377 | } | 381 | } |