This [FiguresS1toS10readme.txt] file was generated on [2019-02-01] by [D. Oevermann, R.K. Bhagat, R. Rosario Fernandes and D.I. Wilson] ------------------- DESCRIPTION ------------------- Excel spreadsheet containing the data sets used for construction of Figures S1 to S10 of the manuscript. The file 'data - supplementary figures S1 to S10.xlsx' is divided in 10 sheets accordingly named. Figures S1 to S9 contain the results of video analysis using an automated script developed by the authors to identify the area of the cleaned region generated by a perpendicular coherent impinging water jet, with different nozzle diameters and jet velocities, from the experiments presented in: Kaye, P.L., Pickles, C.S.J., Field, J.E. and Julien, K.S. Investigation of erosion processes as cleaning mechanisms in the removal of thin deposited soils, Wear, 186-187 (1995) 413- 420. DOI: 10.1016/0043-1648 (95)07152-0 Figure S10 describes the values of the jet’s traversal velocity as a function of length/width (ratio between the length and width of the trail generated by the moving jet) for the experiments conducted by Kaye et al. (1995) and the model described in the manuscript, for both the strong soil and weak soil regimes, and with different values of the radius when the cleaning front is first seen. ------------------- GENERAL INFORMATION ------------------- i. The file contains data sets for Supplementary Figures S1 to S10 of the paper: Quantitative modelling of the erosive removal of a thin soil deposit by impinging liquid jets - Wear - https://doi.org/10.1016/j.wear.2018.12.056 ii. Author Information Principal Investigator Contact Information Name: Wilson, D. I Institution: University of Cambridge Address: Department of Chemical Engineering and Biotechnology, Philippa Fawcett Drive, Cambridge, CB3 0AS, UK Email: diw11@cam.ac.uk Associate or Co-investigator Contact Information . Name: Oevermann, D Institution: TU Dresden Address: Faculty of Mechanical Engineering, Institute of Processing Machines and Mobile Machines, Bergstraße 120, 01062 Dresden, Germany . Name: Oevermann, D Institution: TU Dresden Address: Faculty of Mechanical Engineering, Institute of Processing Machines and Mobile Machines, Bergstraße 120, 01062 Dresden, Germany . Name: Bhagat, R. K Institution: University of Cambridge Address: Department of Chemical Engineering and Biotechnology, Philippa Fawcett Drive, Cambridge, CB3 0AS, UK . Name: Fernandes, R. R. Institution: University of Cambridge Address: Department of Chemical Engineering and Biotechnology, Philippa Fawcett Drive, Cambridge, CB3 0AS, UK iii. The data reported was obtained by video analysis (Cambridge, UK, 2018), of the data sets used in: Kaye, P.L., Pickles, C.S.J., Field, J.E. and Julien, K.S. Investigation of erosion processes as cleaning mechanisms in the removal of thin deposited soils, Wear, 186-187 (1995) 413- 420. DOI: 10.1016/0043-1648 (95)07152-0 iv. Keywords: Cleaning, erosion, liquid jet, model, soil v. Funding and acknowledgements: .ERASMUS funding for Dirk Oevermann from the European Union .PhD scholarship for Rajesh Kumar Bhagat - Commonwealth Scholarship Commission; .PhD scholarship for Rubens Rosario Fernandes - CAPES-Brazil; .Permission from Unilever to publish the data; .Data and assistance of Dr Peter Kaye. --------------------- DATA & FILE OVERVIEW --------------------- i. The file 'data - supplementary figures S1 to S10.xlsx' is an Excel Spreadsheet, divided in 10 sheets accordingly named as: .Figure S1; .Figure S2; .Figure S3; .Figure S4; .Figure S5; .Figure S6; .Figure S7; .Figure S8; .Figure S9; .Figure S10. --------------------- METHODOLOGIAL INFORMATION --------------------- i. The data in Figures S1 to S9 was generated by video analysis, using an automated script developed by the authors to identify the area of the cleaned region generated by an impinging water jet of the experiments presented in: Kaye, P.L., Pickles, C.S.J., Field, J.E. and Julien, K.S. Investigation of erosion processes as cleaning mechanisms in the removal of thin deposited soils, Wear, 186-187 (1995) 413- 420. DOI: 10.1016/0043-1648 (95)07152-0 ii. The data in Figure S10 was generated by image analysis of photographs presented by: Kaye, P.L. The erosive cleaning of surfaces, (1995) PhD dissertation, University of Cambridge. iii. To open the data sets, please use Microsoft Excel - version 2007 and later, or using one of the following software and websites: . Kingsoft Spreadsheets; . OpenOffice Calc; . LibreOffice Calc. . Google Sheets; . Microsoft Excel Online; . Zoho Docs. ----------------------------------------- DATA-SPECIFIC INFORMATION: ----------------------------------------- .Figure S1: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 0.25 mm, and U_0 (jet velocity, [m/s]) of 19.9 m/s. .Figure S2: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 0.35 mm, and U_0 (jet velocity, [m/s]) of 11.3. m/s. .Figure S3: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 0.35 mm, and U_0 (jet velocity, [m/s]) of 28 m/s. .Figure S4: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 1.0 mm, and U_0 (jet velocity, [m/s]) of 6 m/s. .Figure S5: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 1.0 mm, and U_0 (jet velocity, [m/s]) of 19.9 m/s. .Figure S6: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 1.0 mm, and U_0 (jet velocity, [m/s]) of 30.5 m/s. .Figure S7: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 1.5 mm, and U_0 (jet velocity, [m/s]) of 13.5 m/s. .Figure S8: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 1.5 mm, and U_0 (jet velocity, [m/s]) of 28.0 m/s. .Figure S9: Describes the values of t (time, [s]) and a (cleaned radius, [mm]) for a cleaning experiment conducted with d_n (nozzle diameter, [mm]) of 2.0 mm, and U_0 (jet velocity, [m/s]) of 19.5 m/s. .Figure S10: Describes the values of V (Jet’s traversal velocity, [mm/s]) as a function of length/width (ratio between the length and width of the trail generated by the moving jet) for the experiments conducted by Kaye et al. (1995) and the model presented in the current work, for both the strong soil and weak soil regimes, and with different values of a_i (Radius when cleaning front is first seen, [mm]).