Paschalidis, LeandrosLeandrosPaschalidis2026-06-162026-05-122026-06-16https://hdl.handle.net/11420/63507The Python scripts accompannying the publication: The steam barrier as a design constraint in carbon capture: pathways to low-temperature regeneration, submitted to Chemical Engineering and Processing - Process Intensification is presented here. The following scripts are included: Davies.py - it calculates the chemical and gas-liquid equilibrium using the semi-empirical Davies activity coefficient model. Debye_Hückel.py - it calculates the chemical and gas-liquid equilibrium using the Debye Hückel activity coefficient model. Ideal.py - it calculates the chemical and gas-liquid equilibrium assuming an ideal liquid phase. contour_creation.py - iterates accross different parameter values to create the contour plots of Figure 4 in the main article. water_exergy_vs_T_vs_p.py - performs the exergy calculations.enhttps://mit-license.org/carbon capturepH-swingcarbonic anhydraselow-temperature desorptionTechnology::660: Chemistry; Chemical Engineering::660.2: Chemical EngineeringPython Scripts for: The Steam Barrier as a Design Constraint in Carbon Capture: Pathways to Low-Temperature RegenerationSoftwarehttps://doi.org/10.15480/882.1732010.15480/882.17320Paschalidis, LeandrosLeandrosPaschalidisSkiborowski, MirkoMirkoSkiborowski10.1016/j.cep.2026.110917