SUMMARY In this work, analysis, calculations and comparisons were made for 8 different gas processes. These gas processes are with upgrades to increase the thermal utilization of these processes. These processes are: Basic process without upgrades, process with heat regenerator as an upgrade, process with intermediate cooling as an upgrade, and process with subsequent combustion as an upgrade. Combinations of these systems were also used, such as: Process combination with intercooling and heat regenerator, afterburning and heat regeneration, intercooling and heat regeneration and a combination of all systems (intercooling, heat regeneration and afterburning). Comparisons, calculations and analyzes were made between open and closed processes. For the sake of an even comparison, it is specified in the task that we use the same useful power in all processes. Using the given and calculated input parameters of the process, we calculated the necessary values such as: temperature, pressure, specific entropy and enthalpy, and specific heat capacity, which we needed to calculate the real and ideal powers of turbines and turbocompressors, mass flow, supplied and removed heat, and ultimately the usability of the process. After calculating all the necessary values, analyzes and comparisons of all systems and results in graphs were made, as well as comparisons of all systems with each other. From the obtained results, we concluded that the system with a combination of heat regenerator, intercooling and afterburning provides the highest utilization of the process. We also came to the conclusion that of all the processes, systems that use heat regeneration have the greatest increase in utilization.