Network design: From steady-state optimization to unsteady dynamics

dc.contributor.authorMiguel, Antonio F.
dc.date.accessioned2025-10-29T00:27:43Z
dc.date.available2025-10-29T00:27:43Z
dc.date.embargo2025
dc.date.issued2025
dc.description.abstractThis work presents a comprehensive framework to analyze the design and dynamics of branching flow networks, guided by the constructal law. The model is validated against the functionally diverse vascular systems of the liver, kidney, and lungs. Results demonstrate that the architecture of these vital organs consistently aligns with a design that minimizes steady-state impedance under a constant volume constraint. This governing principle is remarkably robust, showing little sensitivity to the non-linear rheological properties of blood, which justifies using a simplified linear model for dynamic analysis. While steady-state models accurately predict mean flow, the framework’s unsteady analysis is essential for capturing the true dynamics of unsteady flow systems. This framework, validated on biological systems, provides a tool for both reverse-engineering natural designs and forward-engineering manufactured networks.por
dc.identifier.authoremailafm@uevora.pt
dc.identifier.citationA. F. Miguel. Network design: From steady-state optimization to unsteady dynamics. International Communications in Heat and Mass Transfer 169 (2025) 10975724por
dc.identifier.doihttps://doi.org/10.1016/j.icheatmasstransfer.2025.109757por
dc.identifier.scientificarea349por
dc.identifier.urihttp://hdl.handle.net/10174/39525
dc.language.isoengpor
dc.peerreviewedyespor
dc.rightsrestrictedAccesspor
dc.subjectconstructal lawpor
dc.subjectunsteady flowpor
dc.subjectasymmetrypor
dc.subjectflow networkspor
dc.titleNetwork design: From steady-state optimization to unsteady dynamicspor
dc.typearticle

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