@misc{FosterSebastiaSaezArellanoGarcia, author = {Foster, Niall and Sebastia-Saez, Daniel and Arellano-Garcia, Harvey}, title = {Fractal branch-like fractal shell-and-tube heat exchangers: A CFD study of the shell side performance}, series = {IFAC-PapersOnLine}, volume = {52}, journal = {IFAC-PapersOnLine}, number = {1}, issn = {2405-8963}, doi = {10.1016/j.ifacol.2019.06.044}, pages = {100 -- 105}, abstract = {Nature has provided some of the most ingenious and elegant solutions to complex problems over millions of years of refining through evolution. The adaptation of NatureĀ“s solutions to engineering problems is a recent trend which has opened opportunities for improvement in many areas ranging from Architecture to Chemical Engineering. In particular, the use of fractal geometries on heat exchangers is a recent design trend. Recent investigations highlight the benefit of implementing fractal-based geometries on the tube side of shell and tube heat exchangers. A complete evaluation of such devices by assessing the performance of the shell side has not been undertaken, though. Here, we present a systematic numerical assessment of the shell side of a tree-like shaped heat exchanger. Key performance parameters, i.e. temperature change, pressure drop and coefficient of performance, are obtained and compared to those of a straight tube, in order to fully understand the potential of the application of fractal-based shapes to the design of heat exchangers.}, language = {en} }