Modeling of the Thermal State of a Room when Using the Heating Structure of a Two-zone Dark Gas-beam Heater

Abstract

Statement of the problem. The purpose of the scientific article is to develop a complex thermal model for accurate prediction of the thermal state of the room when using a two-zone dark gas-radiant heater. The thermal state of a room depends on various factors such as room size, thermal insulation, heater po-wer and outdoor temperature. In the existing literature, there is no comprehensive approach to modeling that takes into account these factors when considering the specifics of the heating structure of a two-zone dark gas-radiant heater. In addition, the availability of advanced modeling tools, such as the ANSYS Fluent software package, makes it possible to develop a high-quality thermal model. However, an efficient methodology needs to be developed that integrates the characteristics of an efficient heater design into the modeling framework. Results and Conclusions. Solving these problems, this work is aimed at creating a model that accurately predicts the thermal state of the room when using a gas radiant heater. The developed model will serve as a valuable tool for engineers, architects and heating professionals to optimize the performance and efficiency of such heating systems. Ultimately, this research will contribute to improving human comfort, reducing energy consumption and improving the overall sustainability of heating systems in various applications.