READ ME File For 'Dataset for PhD thesis "The soluble lead flow battery: Numerical modelling for enhanced design of cell architecture"' Dataset DOI: 10.5258/SOTON/D2183 ReadMe Author: EWAN JOSEPH FRASER, University of Southampton ORCID ID: 0000-0001-9592-9071 This dataset supports the thesis entitled "The soluble lead flow battery: Numerical modelling for enhanced design of cell architecture" AWARDED BY: Univeristy of Southampton DATE OF AWARD: 04/05/2022 DESCRIPTION OF THE DATA This dataset contains the underlying data for the figures presented in the associated thesis. The data is stored with a separate .csv file for each figure. The files are grouped into zip folders by chapter. This dataset contains the following files. The file name refers to the figure in the assosiated thesis and provides a brief description of the data: Appendices: Figure Appendix C-2 Moving mesh mesh sensitivity.csv Figure Appendix C-3 Static mesh mesh sensitivity.csv Figure Appendix C-4 2D divided mesh sensitivity.csv Figure Appendix D-1 Efficiencies gold and plain electrodes vs cycle number.csv Figure Appendix D-2 Efficiencies gold positive and negative electrodes vs cycle number.csv Figure Appendix D-3 Cell potential post failure vs time for gold electrodes.csv Figure Appendix D-4 Cell cost comparison - current and future costs.csv Chapter 4 Model setup Figre 4-2 (A) RVC Mesh sensitivity vertical.csv Figre 4-2 (A) RVC Mesh sensitivity vertical.xlsx Figre 4-2 (B) RVC Mesh sensitivity horizontal in electrodes.csv Figre 4-2 (C) RVC Mesh sensitivity horizontal in membrane.csv Figre 4-2 (D) RVC Mesh sensitivity boundary layer.csv Chapter 5 Moving Mesh Figure 5-10 Simulated volumetric flow rate SM vs MM.csv Figure 5-11 (B) Simulated velocity with MM.csv Figure 5-12 Current density vs Y.csv Figure 5-13 Equilibrium potential vs Y.csv Figure 5-14 Overpotential vs Y.csv Figure 5-15 Concentration vs Y.csv Figure 5-16 Simulated vs average literature vs experimental cell potential.csv Figure 5-18 voltage time curve of static electrolyte cell in CT scanner.csv Figure 5-4 varied rate constant.csv Figure 5-5 Simulated Cell voltage.csv Figure 5-6 (A) MM vs SM cell potential 20 mA cm-2.csv Figure 5-6 (B) MM vs SM cell potential 30 mA cm-2.csv Figure 5-7 MM vs SM resistance.csv Figure 5-8 (A) proton and Pb concentrations vs X MM.csv Figure 5-8 (B) proton and Pb concentrations vs X SM.csv Chapter 6 Electrolyte Conductivity Figure 6-1 (A) Conductivity vs concentration Nernst Einstein.csv Figure 6-1 (B) Conductivity vs concentration Simulated vs Experimental.csv Figure 6-2 Bulk conductivity vs SoC.csv Chapter 7 Modelling the Divided SLFB Figure 7-1 Simulated and experimental potential drop across porous separator vs SoC.csv Figure 7-10 Simulated potential drop across cation exchange membrane vs current density.csv Figure 7-11 Simulated potential drop across cation exchange membrane vs porosity.csv Figure 7-12 Simulated potential drop across cation exchange membrane vs fixed charge concentration.csv Figure 7-13 (A) Simulated additive flux vs additive valence - positive electrode.csv Figure 7-13 (B) Simulated additive flux vs additive valence - negative electrode.csv Figure 7-14 (A&B) Simulated additive flux vs additive diffusion coefficient - negative electrode.csv Figure 7-14 (C&D) Simulated additive flux vs additive diffusion coefficient - positive electrode.csv Figure 7-15 (A&B) Simulated additive flux vs additive concentration - negative electrode.csv Figure 7-15 (C&D) Simulated additive flux vs additive concentration - positive electrode.csv Figure 7-16 (A&B) Simulated additive flux vs fixed charge concentration - negative electrode.csv Figure 7-16 (C&D) Simulated additive flux vs fixed charge concentration - positive electrode.csv Figure 7-17 Simulated concentration profiles for each species across 2D cell.csv Figure 7-18 Simulated electrolyte potential at different current densities during charge and discharge across 2D cell.csv Figure 7-2 Potential drop across porous separator vs porosity.csv Figure 7-3 Simulated potential drop across porous separator vs thickness.csv Figure 7-4 Simulated and experimental potential drop across anion exchange membrane vs SoC.csv Figure 7-5 Simulated potential drop across anion exchange membrane vs current density.csv Figure 7-6 Simulated potential drop across anion exchange membrane vs porosity.csv Figure 7-7 Simulated potential drop across anion exchange membrane vs fixed charge concentration.csv Figure 7-8 Simulated and experimental potential drop across cation exchange membrane vs SoC.csv Figure 7-9 Simulated electrolyte potential across domain with cation exchange membrane.csv Chapter 8 Image Based Modelling of RVC electrodes Figure 8-2 Comparison of methods for clculating porous electrode surface area.csv Figure 8-4 Simulated velocity mid height undivided.csv Figure 8-5 Simulated current distribution mid height undivided.csv Figure 8-6 Simulated Current density y direction undivided.csv Figure 8-7 Simulated velocity y direction undivided.csv Figure 8-9 Simulated Pb2+ concentration mid height undivided.csv Figure 8-10 Simulated Current density y direction divided.csv Figure 8-11 Simulated current distribution mid height divided.csv Figure 8-12 Simulated Pb2+ concentration mid height divided.csv Figure 8-13 Simulated current distribution mid height divided 10 vs 100ppi.csv Figure 8-14 Simulated cell potential vs time for different grades of RVC.csv Figure 8-15 Simulated and experimental cell potential vs time.csv Date of data collection: 2016-2021 Licence: CC_BY Related projects/Funders: EPSRC Centre for Doctoral Training in Energy Storage and its Applications (grant EP/L016818/1) Date that the file was created: April, 2022