Аннотации:
This study presents the development of a mathematical model for the simulation and analysis of the catalytic reforming
process using a Python-based software tool. The model captures the kinetics of hydrocarbon feedstock processing within a
fixed catalyst bed, ensuring a balance between accuracy and computational efficiency. A key feature of the software is a
digital flow diagram that visualizes material and energy flows at each stage of the process while displaying critical parameters
such as temperature, pressure, and flow rate. To validate the model's accuracy, the calculated data were compared with
experimental values obtained from commercial fixed-bed reforming units. The results showed an absolute calculation error
of no more than 3%, confirming the model’s reliability in accurately describing reforming processes. Furthermore, the study
investigates the effects of temperature and pressure variations on the final product yield to enhance process efficiency and
optimize operating conditions.
