Database Projects
2024
Videos of decaying turbulent secondary motions
Andreolli, A.; Hutchins, N.; Frohnapfel, B.; Gatti, D.
2024, August 6. doi:10.35097/farApPGYflANpeIi
Andreolli, A.; Hutchins, N.; Frohnapfel, B.; Gatti, D.
2024, August 6. doi:10.35097/farApPGYflANpeIi
Data for the publication: Skin friction reduction via suppression of large scales in turbulent Couette flows
Andreolli, A.; Singh, M.; Gatti, D.
2024, July 4. doi:10.35097/EhgiloDgsqkMSqTn
Andreolli, A.; Singh, M.; Gatti, D.
2024, July 4. doi:10.35097/EhgiloDgsqkMSqTn
Data for the publication: Separating large-scale superposition and modulation in turbulent channels
Andreolli, A.; Gatti, D.; Vinuesa, R.; Örlü, R.; Schlatter, P.
2024, July 2. doi:10.35097/EEXRgyvGozfhsyqo
Andreolli, A.; Gatti, D.; Vinuesa, R.; Örlü, R.; Schlatter, P.
2024, July 2. doi:10.35097/EEXRgyvGozfhsyqo
Spatio-temporal reconstruction of droplet impingement dynamics by means of color-coded glare points and deep learning
Dreisbach, M.; Stroh, A.; Kriegseis, J.
2024, May 14. doi:10.35097/AcElpeTrdkOvxYWf
Dreisbach, M.; Stroh, A.; Kriegseis, J.
2024, May 14. doi:10.35097/AcElpeTrdkOvxYWf
Flow resistance over heterogeneous roughness made of spanwise-alternating sandpaper strips
Frohnapfel, B.; Deyn, L. von; Yang, J.; Neuhauser, J.; Stroh, A.; Örlü, R.; Gatti, D.
2024, January 24. doi:10.35097/1798
Frohnapfel, B.; Deyn, L. von; Yang, J.; Neuhauser, J.; Stroh, A.; Örlü, R.; Gatti, D.
2024, January 24. doi:10.35097/1798
2023
Deep Learning and Hybrid Approach for Particle Detection in Defocusing Particle Tracking Velocimetry - used Research Data
Sax, C.; Dreisbach, M.; Kriegseis, J.; Leister, R.
2023, March 2. doi:10.5445/IR/1000156318
Sax, C.; Dreisbach, M.; Kriegseis, J.; Leister, R.
2023, March 2. doi:10.5445/IR/1000156318
2022
Database: From drag-reducing riblets to drag-increasing ridges
Deyn, L. H. von; Gatti, D.; Frohnapfel, B.
2022, November 11. doi:10.5445/IR/1000152366
Deyn, L. H. von; Gatti, D.; Frohnapfel, B.
2022, November 11. doi:10.5445/IR/1000152366
Dataset for "The effect of spanwise heterogeneous surfaces on mixed convection in turbulent channels"
Schäfer, K.; Mellado, J. P.; Frohnapfel, B.
2022, October 4. doi:10.5445/IR/1000149685
Schäfer, K.; Mellado, J. P.; Frohnapfel, B.
2022, October 4. doi:10.5445/IR/1000149685
Dataset for Study of irregular roughness in minimal channels
Yang, J.; Stroh, A.; Jakirlić, S.; Frohnapfel, B.; Forooghi, P.
2022, September 26. doi:10.5445/IR/1000150842
Yang, J.; Stroh, A.; Jakirlić, S.; Frohnapfel, B.; Forooghi, P.
2022, September 26. doi:10.5445/IR/1000150842
Dataset: Simulation of turbulent flow over roughness strips
Neuhauser, J.; Schäfer, K.; Gatti, D.; Frohnapfel, B.
2022, July 7. doi:10.5445/IR/1000147862
Neuhauser, J.; Schäfer, K.; Gatti, D.; Frohnapfel, B.
2022, July 7. doi:10.5445/IR/1000147862
Particle Detection by means of Neural Networks and Synthetic Training Data Refinement in Defocusing Particle Tracking Velocimetry (data)
Dreisbach, M.; Leister, R.; Probst, M.; Friederich, P.; Stroh, A.; Kriegseis, J.
2022, June 27. doi:10.5445/IR/1000146837
Dreisbach, M.; Leister, R.; Probst, M.; Friederich, P.; Stroh, A.; Kriegseis, J.
2022, June 27. doi:10.5445/IR/1000146837
Dataset for DNS-based characterization of pseudo-random roughness in minimal channels
Yang, J.; Stroh, A.; Chung, D.; Forooghi, P.
2022, May 12. doi:10.5445/IR/1000142136
Yang, J.; Stroh, A.; Chung, D.; Forooghi, P.
2022, May 12. doi:10.5445/IR/1000142136
Research data for publication Dadvand et al. (2021) Physics-of-Fluids (doi: 10.1063/5.0048614)
Dadvand, A.; Bagheri, M.; Samkhaniani, N.; Marschall, H.; Wörner, M.
2022, March 10. doi:10.5445/IR/1000134627
Dadvand, A.; Bagheri, M.; Samkhaniani, N.; Marschall, H.; Wörner, M.
2022, March 10. doi:10.5445/IR/1000134627
2021
Database: Ridge-type roughness - from turbulent channel flow to internal combustion engine
Deyn, L. H. von; Schmidt, M.; Stroh, A.
2021, December 6. doi:10.5445/IR/1000140474
Deyn, L. H. von; Schmidt, M.; Stroh, A.
2021, December 6. doi:10.5445/IR/1000140474
Dataset for Modelling spanwise heterogeneous roughness through a parametric forcing approach
Schäfer, K.; Stroh, A.; Forooghi, P.; Frohnapfel, B.
2021, September 23. doi:10.5445/IR/1000137665
Schäfer, K.; Stroh, A.; Forooghi, P.; Frohnapfel, B.
2021, September 23. doi:10.5445/IR/1000137665
Dataset for Study of irregular roughness in minimal channels
Yang, J.; Stroh, A.; Jakirlić, S.; Forooghi, P.; Frohnapfel, B.
2021, September. doi:10.5445/IR/1000140429
Yang, J.; Stroh, A.; Jakirlić, S.; Forooghi, P.; Frohnapfel, B.
2021, September. doi:10.5445/IR/1000140429
DNS of Turbulent Heat Transfer in Impinging Jets at Different Reynolds and Prandtl Numbers
Secchi, F.; Magagnato, F.
2021, February 15. doi:10.5445/IR/1000129589
Secchi, F.; Magagnato, F.
2021, February 15. doi:10.5445/IR/1000129589
2020
Coupled Simulation of Flow-Induced Viscous and Elastic Anisotropy of Short-Fiber Reinforced Composites (Version 3)
Karl, T.; Gatti, D.
2020, November 24. doi:10.5445/IR/1000126534
Karl, T.; Gatti, D.
2020, November 24. doi:10.5445/IR/1000126534
Coupled Simulation of Flow-Induced Viscous and Elastic Anisotropy of Short-Fiber Reinforced Composites (Version 2)
Karl, T.; Gatti, D.
2020, September 8. doi:10.5445/IR/1000123343
Karl, T.; Gatti, D.
2020, September 8. doi:10.5445/IR/1000123343
Coupled Simulation of Flow-Induced Viscous and Elastic Anisotropy of Short-Fiber Reinforced Composites
Karl, T.; Gatti, D.
2020, May 12. doi:10.5445/IR/1000119139
Karl, T.; Gatti, D.
2020, May 12. doi:10.5445/IR/1000119139
2019
Dataset for rearrangement of secondary flow over spanwise heterogeneous roughness
Stroh, A.; Schäfer, K.; Frohnapfel, B.; Forooghi, P.
2019. doi:10.5445/IR/1000100142
Stroh, A.; Schäfer, K.; Frohnapfel, B.; Forooghi, P.
2019. doi:10.5445/IR/1000100142
Riblets in fully developed turbulent channel flow
Deyn, L. H. von; Gatti, D.; Frohnapfel, B.
2019. doi:10.5445/IR/1000089978
Deyn, L. H. von; Gatti, D.; Frohnapfel, B.
2019. doi:10.5445/IR/1000089978
2018
| Title | Contact | Short Description |
|---|---|---|
| Active Control of Spatially Developing Turbulent Boundary Layers | Simulations of spatially developing turbulent boundary layers with localized application of three different control techniques aimed at reduction of skin friction drag. Considered control techniques are uniform blowing, body-force damping of wall-normal velocity component and opposition control. |
|
| DFG Priority Programme 1881 "Turbulent Superstructures" | 3d data set and Lagrangian particles trajectories. |
|
| DNS of momentum and heat transfer over rough walls | Simulations of flow and heat tranfer (passive scalar) in fully developed channals over a variety of roughness geometries. |
|
| Turbulent flow over superhydrophobic surfaces with streamwise grooves | Simulations of superhydrophobic surfaces modelled by imposition of slip / no-slip boundary conditions at the wall in a fully developed turbulent channel flow at Reτ=180. |