Dataset Open Access
HyPer SMM wind tunnel tests: PIV pictures
Raffaele, Lorenzo;
Gertjan, Glabeke
In this study, windblown sand transport on flat ground is reproduced by means of Wind-Sand Tunnel Tests (WSTT) carried out in the wind tunnel L-1B of von Karman Institute for Fluid Dynamics. The aim of WSTT is twofold. On one hand, they are intended to characterize the incoming sand flux in open field conditions. On the other hand, they allow to properly tune cheaper Wind-Sand Computational Simulations. The wind tunnel setup implements a uniform 5-meter-long sand fetch as sand source. The wind speed boundary layer is characterized through 2D Particle Image Velocimetry (PIV) technique. Wind flow state variables are assessed along the sand fetch by setting the wind speed equal to 1.3, 1.5, 2 times the threshold one. For the complete wind tunnel setup and data analysis please refer to: Raffaele L., Coste, N., and Glabeke G. "Life-Cycle Performance and Cost Analysis of Sand Mitigation Measures: Toward a Hybrid Experimental-Computational Approach." Journal of Structural Engineering 148.7 (2022): 04022082.
The study has been developed in the framework of the MSCA-IF-2019 research project Hybrid Performance Assessment of Sand Mitigation Measures (HyPer SMM, https://hypersmm.vki.ac.be/). This project has received funding from the European Union’s Horizon 2020 research and innovation program under the Marie Sklodowska-Curie grant Agreement No. 885985
| Name | Size | |
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HyperSMM_PIV_pos2_1.zip
md5:ae84c4693227429bffd320e1bd839547 |
5.2 GB | Download |
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HyperSMM_PIV_pos2_1_3.zip
md5:15fa9f9ef35cdcca060817da1717d962 |
5.2 GB | Download |
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HyperSMM_PIV_pos2_1_5.zip
md5:5f3f486b3b7288922b759363aefa56a4 |
5.3 GB | Download |
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HyperSMM_PIV_pos2_2.zip
md5:5adeb1b102fbaabc5c86915d844974fa |
5.3 GB | Download |
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HyperSMM_PIV_pos2_cal2.zip
md5:71da98b0ab4ed1bc5d62331e0796c7d6 |
5.8 MB | Download |
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HyperSMM_PIV_pos2_set.zip
md5:42ca9aff5ee5af5c2d328a5cd214f74e |
29.2 kB | Download |
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HyperSMM_PIV_pos3_1.zip
md5:4cadbe0f5c6cfadc6f49f5b5df5b11d0 |
3.5 GB | Download |
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HyperSMM_PIV_pos3_1_3.zip
md5:65bcb1994ca21b669750be630896f454 |
3.4 GB | Download |
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HyperSMM_PIV_pos3_1_5.zip
md5:61729ffcc3f2a71b47bf17665bb08bb6 |
3.5 GB | Download |
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HyperSMM_PIV_pos3_2.zip
md5:1884dfeba753fbc28d06c64d8689ffd1 |
3.5 GB | Download |
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HyperSMM_PIV_pos3_cal3.zip
md5:e1b2cd05bccf3455d07be89a73211054 |
6.1 MB | Download |
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HyperSMM_PIV_pos3_set.zip
md5:937c23963fe2bb0013b65bd7954ebe2d |
29.1 kB | Download |
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readme_HyPerSMM_PIV.txt
md5:9522159bf7acf45158e302284443b8d5 |
2.7 kB | Download |
Raffaele L., Coste, N., and Glabeke G. "Life-Cycle Performance and Cost Analysis of Sand Mitigation Measures: Toward a Hybrid Experimental-Computational Approach." Journal of Structural Engineering 148.7 (2022): 04022082.
| All versions | This version | |
|---|---|---|
| Views | 65 | 65 |
| Downloads | 2 | 2 |
| Data volume | 10.5 GB | 10.5 GB |
| Unique views | 59 | 59 |
| Unique downloads | 2 | 2 |
- Publication date:
- May 15, 2022
- DOI:
-
- Keyword(s):
- wind tunnel boundary layer aeolian sand transport particle image velocimetry particle tracking velocimetry
- Grants:
-
European Commission:
- HyPer SMM - Hybrid Performance Assessment of Sand Mitigation Measures (885985)
- Related identifiers:
- Described by
- 10.1061/(ASCE)ST.1943-541X.0003344 (Journal article)
- License (for files):
- Creative Commons Attribution 4.0 International