The master's thesis presents a study of the use of various energy systems which can be implemented in any object, that can make a key contribution to the financial and environmental improvement of the national and global energy system. As part of the task, we looked at the basic model of the selected building, which was a classic electric flow heater, and tried to upgrade it using a conventional approach by installing elements that are currently available on the market as is heat pump, battery energy storage system, solar power plant. Then we took an unconventional approach by installing newer technologies that are not yet widely used as it green hydrogen energy storage with the help of electrolysis. For the needs of the analysis, we created a module in the Python programming language. During the economic analysis of the various elements incorporated into the system, it was found that, within the framework of the current prices of energy devices, the investment in an energy storage system with renewable green hydrogen or in a battery storage does not pay back quickly enough.