READ ME File For 'Dataset of Linearised Reynolds-Averaged predictions of secondary currents in turbulent channels with topographic heterogeneity' Dataset DOI: https://doi.org/10.5258/SOTON/D2218. Date that the file was created: May, 2022 ------------------- GENERAL INFORMATION ------------------- ReadMe Author: Gerardo Zampino, University of Southampton Dataset available under a CC BY 4.0 licence Publisher: University of Southampton, U.K. -------------------------- SHARING/ACCESS INFORMATION -------------------------- Licenses/restrictions placed on the data, or limitations of reuse: This dataset supports the publication: AUTHORS: G. Zampino, D. Lasagna and B. Ganapathisubramani TITLE: Linearised Reynolds-Averaged predictions of secondary currents in turbulent channels with topographic heterogeneity JOURNAL: Journal of Fluidmechanics PAPER DOI: doi:10.1017/jfm.2022.478 -------------------------- DATA-SPECIFIC INFORMATION -------------------------- This dataset presents the numerical data from "Zampino et al., Linearised Reynolds-Averaged predictions of secondary currents in turbulent channels with topographic heterogeneity" The data are presented for each figure of the paper. The file name corresponds to the number of the figure in the paper. Using the data provided all figures in the paper can be reproduced. The quantities presented in each file are explained in the "Definition" sheet of each dete file. Further information regarding the data files: 1. Data for figure 3: The data from DNS and Linearized model are separated in different columns 2. Data for figure 4: The subfigures are presented in separate sheets. 3. Data for figure 5: The data are separated in different column. The corresponding quantity is reported in the file. 4. Data for figure 6: The subfigures are presented in separate sheets as function of the Reynolds number. The data are separated in different column. The corresponding quantity is reported in the file. 5. Data for figure 7: The subfigures are presented in separate sheets as function of the Reynolds number. The data are separated in different column. The corresponding quantity is reported in the file. 6. Data for figure 8: The data are separated in different column. The corresponding quantity is reported in the file. 7. Data for figure 9: The data are separated in different column. The corresponding quantity is reported in the file. 8. Data for figure 10: The subfigures are presented in separate sheets. 9. Data for figure 11: The data are separated in different column. The corresponding quantity is reported in the file. 10. Data for figure 12: The data are separated in different sheets. The quantity corresponds to the title of each sheet. Each quantity is followed by the number of the figure and the letter of the subfigure, i.e "Psi_12c". 11. Data for figure 13: The data are separated in different sheets. The quantity corresponds to the title of each sheet. Each quantity is followed by the number of the figure and the letter of the subfigure, i.e "Psi_13b". 12. Data for figure 14: The data are separated in different column. The corresponding quantity is reported in the file. 13. Data for figure 15: The data are separated in different column. The corresponding quantity is reported in the file. 14. Data for figure 16: The data are separated in different sheets. The quantity corresponds to the title of each sheet.