Abstract
This work proposes a novel, three-dimensional model for transient simulation of cryogenic plate-fin heat exchangers (PFHE). This model is based on the combination of computational fluid dynamics with well-established correlations for calculating heat transfer and pressure drop occurring during fluid flow through various fin types. This reduces the complex geometry of a PFHE to a geometrically simple mesh, allowing for efficient simulation of large-scale industrial PFHE. Successful validation of the model is carried out using both data available in the literature and results calculated using commercial software. The necessity for a three-dimensional model is further demonstrated using a transient case study in which the design of inlet distributors is shown to cause unfavorable distribution of fluid flow and hence severe temperature maldistribution in the PFHE. These results show that the proposed model can be useful in both detailed engineering and lifetime investigations of flexible PFHE.
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