Journal
APPLIED THERMAL ENGINEERING
Volume 211, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.applthermaleng.2022.118452
Keywords
Computational Fluid Dynamics (CFD); Shell and Tube Heat Exchanger; Heat Transfer; Porous Media; Waste Heat Recovery Systems
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This study numerically investigates several porous-filled shell and tube heat exchangers (STHXs) and finds that porous filling can improve heat transfer performance and achieve a homogeneous thermal distribution, but it also increases pressure loss. Partially porous-filling is suitable for low-scale applications.
Among the techniques offered to improve the efficiency of Waste Heat Recovery Shell and Tube Heat Exchangers (WHR-STHX), the porous-filling is reported as an effective technique to improve the heat transfer rate.In this regard, the current study performs a numerical investigation to evaluate the heat transfer performance and pressure loss of several porous-filled STHXs. However, the novelty of this study stems from identifing the mechanisms that manipulated the flow structures and heat transfer to achieve a homogeneous thermal distribution, not from achieving an optimized porous-filling. Furthermore, the industrial feasibility of the porous-filled designs was evaluated by comparing their performance with the conventional type in a wide range of thermofluidic conditions. Based on the results, both porous-filled designs have substantially attenuated the interfacial thermal jumps observed in the conventional STHX; thus, a uniform thermal distribution was achieved. Furthermore, the heat transfer efficiency of the porous-filled cases was improved up to 60% compared with the conventional type; however, they imposed higher pressure drop values. Fortunately, since partially porous-filling provided a lower amount of pressure drop (almost half of full-foam), the noted design was found to be appropriate for low-scale applications in which pressure drop could not be tolerated.
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