Readme txt file description of the data provided within the .csv files for Figures 1 - 11. data1: Results for Figure 3 (left) Simulation from Morita et al. 1992 y axis: Pressure (kgf/cm2) (column C) x axis: Time (hour) (column B) Measurements from Morita et al. 1992 y axis: Pressure (kgf/cm2) (column F) x axis: Time (hour) (column E) T2Well y axis: Pressure (kgf/cm2) (column I) x axis: Time (hour) (column H) data2: Results for Figure 3 (right) Simulation from Morita et al. 1992 y axis: Temperature (°C) (column C) x axis: Time (hour) (column B) Measurements from Morita et al. 1992 y axis: Temperature (°C) (column F) x axis: Time (hour) (column E) T2Well y axis: Temperature (°C) (column I) x axis: Time (hour) (column H) data3: Results for Figure 4 Falcone et al. 2018 y axis: Temperature (°C) (column C) x axis: Time (days) (column B) T2Well y axis: Temperature (°C) (column H) x axis: Time (days) (column G) -------------------------------------------------------------------------------------------- Datasets for Figures 5 - 9 are based on usage of T2Well/EOS1 software for a total simulation time of 30 years. Outer and Inner T(°C)/P(MPa) labels indicate temperature/pressure results from the annulus and tubing respectively. Results have been quoted to 2 decimal places. -------------------------------------------------------------------------------------------- data4: Results for Figure 5 (left) y axis: Elevation(m) (column A) x axes: 3 kg/s - Temperature down annulus (column D) 3 kg/s - Temperature up tubing (column C) 5 kg/s - Temperature down annulus (column G) 5 kg/s - Temperature up tubing (column F) 7 kg/s - Temperature down annulus (column J) 7 kg/s - Temperature up tubing (column I) 9 kg/s - Temperature down annulus (column M) 9 kg/s - Temperature up tubing (column L) data5: Results for Figure 5 (right) y axis: Elevation(m) (column A) x axes: 3 kg/s - Pressure down annulus (column D) 3 kg/s - Pressure up tubing (column C) 5 kg/s - Pressure down annulus (column G) 5 kg/s - Pressure up tubing (column F) 7 kg/s - Pressure down annulus (column J) 7 kg/s - Pressure up tubing (column I) 9 kg/s - Pressure down annulus (column M) 9 kg/s - Pressure up tubing (column L) data6: Results for Figure 6 (left) y axis: Elevation(m) (column A) x axes: 0.01038 W/mK - Temperature down annulus (column D) 0.01038 W/mK - Temperature up tubing (column C) 1.163 W/mK - Temperature down annulus (column G) 1.163 W/mK - Temperature up tubing (column F) 2.5 W/mK - Temperature down annulus (column J) 2.5 W/mK - Temperature up tubing (column I) 46.1 W/mK - Temperature down annulus (column M) 46.1 W/mK - Temperature up tubing (column L) data7: Results for Figure 6 (right) y axis: Elevation(m) (column A) x axes: 0.01038 W/mK - Pressure down annulus (column D) 0.01038 W/mK - Pressure up tubing (column C) 1.163 W/mK - Pressure down annulus (column G) 1.163 W/mK - Pressure up tubing (column F) 2.5 W/mK - Pressure down annulus (column J) 2.5 W/mK - Pressure up tubing (column I) 46.1 W/mK - Pressure down annulus (column M) 46.1 W/mK - Pressure up tubing (column L) data8: Results for Figure 7 (left) y axis: Elevation(m) (column A) x axes: Only Casg1 - Temperature down annulus (column D) Only Casg1 - Temperature up tubing (column C) All Casings - Temperature down annulus (column G) All Casings - Temperature up tubing (column F) data9: Results for Figure 7 (right) y axis: Elevation(m) (column A) x axes: Only Casg1 - Pressure down annulus (column D) Only Casg1 - Pressure up tubing (column C) All Casings - Pressure down annulus (column G) All Casings - Pressure up tubing (column F) data10: Results for Figure 8 (left) y axis: Elevation(m) (column A) x axes: 0.99 W/mK - Temperature down annulus (column D) 0.99 W/mK - Temperature up tubing (column C) 2.24 W/mK - Temperature down annulus (column G) 2.24 W/mK - Temperature up tubing (column F) 3.52 W/mK - Temperature down annulus (column J) 3.52 W/mK - Temperature up tubing (column I) 300 W/mK - Temperature down annulus (column M) 300 W/mK - Temperature up tubing (column L) data11: Results for Figure 8 (right) y axis: Elevation(m) (column A) x axes: 0.99 W/mK - Pressure down annulus (column D) 0.99 W/mK - Pressure up tubing (column C) 2.24 W/mK - Pressure down annulus (column G) 2.24 W/mK - Pressure up tubing (column F) 3.52 W/mK - Pressure down annulus (column J) 3.52 W/mK - Pressure up tubing (column I) 300 W/mK - Pressure down annulus (column M) 300 W/mK - Pressure up tubing (column L) data12: Results for Figure 9 (left) y axis: Elevation(m) (column A) x axes: Original - Temperature down annulus (column D) Original - Temperature up tubing (column C) Case1 - Temperature down annulus (column G) Case1 - Temperature up tubing (column F) Case2 - Temperature down annulus (column J) Case2 - Temperature up tubing (column I) Case3 - Temperature down annulus (column M) Case3 - Temperature up tubing (column L) data13: Results for Figure 9 (right) y axis: Elevation(m) (column A) x axes: Original - Pressure down annulus (column D) Original - Pressure up tubing (column C) Case1 - Pressure down annulus (column G) Case1 - Pressure up tubing (column F) Case2 - Pressure down annulus (column J) Case2 - Pressure up tubing (column I) Case3 - Pressure down annulus (column M) Case3 - Pressure up tubing (column L) --------------------------------------------------------------------------------------------------- Datasets for Figures 10 and 11 are based on the working fluids velocity (m/s) and frictional pressure (Pa/m) values for bottom cell connections from the output file of T2Well/EOS1 software for a total simulation time of 30 years. Bottom cell connections D5002D6000 and D6000D5000 represent fluid flow down the annulus and up the tubing respectively near the bottom of the wellbore (Elevation difference between -1255m and -1267m), as seen visually in both figures. --------------------------------------------------------------------------------------------------- data14: Results displayed in Figure 10 data15: Results displayed in Figure 11