ABSTRACT
This study concentrates on the exchange of the thermal energy analysis of a tube and shell heat exchanger with helical baffles, suggesting a cross-sectional examination. Tube and shell heat interchangers are broadly utilized in different enterprises for the effective exchange of thermal energy among fluids. Helical baffles are utilized to improve the dwelling time of fluids across interchangers. The aim of this study is to assess the mechanisms of exchange of thermal energy, pressure drop elements, and patterns of fluid flow within the cross-section of the heat exchanger. Computational fluid dynamics and numerical simulation methods are used to simulate and model the behavior of heat interchangers and fluid flow. The results of this study will contribute to a precise understanding of the exchange of the thermal energy elements and optimize the possibility of tube and shell heat interchangers with helical baffles, enhancing design and functional effectiveness in different applications of the industry.
