2026-05-25T12:26:39Z https://www.fdr.uni-hamburg.de/oai2d

oai:fdr.uni-hamburg.de:14202 2025-01-09T13:31:19Z user-qcfd user-uhh

true 3.1 UHH.FDR 10.25592/uhhfdm.14202 Rung, Thomas 0000-0002-3454-1804 Institute for Fluid Dynamics and Ship Theory, Hamburg University of Technology, 21073 Hamburg, Germany Over, Paul 0000-0001-7436-5254 Institute for Fluid Dynamics and Ship Theory, Hamburg University of Technology, 21073 Hamburg, Germany Bengoechea, Sergio 0009-0001-8205-5878 Institute for Fluid Dynamics and Ship Theory, Hamburg University of Technology, 21073 Hamburg, Germany De Villiers, Eugene 0000-0002-0182-3637 ENGYS UK, London SW18 3SX, United Kingdom Scandurra, Leonardo 0000-0003-3075-2919 ENGYS Srl, Via del Follatoio, 12, 34148 Trieste TS, Italy Universität Hamburg 2024 QCFD. Quantum Computational Fluid Dynamics CFD, Computational Fluid Dynamics ShearFlows Deliverable CoreBenchmarks 1D CouetteFlow PoisseuilleFlow 2024-04-16 en https://www.fdr.uni-hamburg.de/record/oai:fdr.uni-hamburg.de:14202 10.3030/101080085 10.25592/uhhfdm.14201 v1 Creative Commons Attribution 4.0 International Open Access <p>A subset of the WP Core Benchmark CFD Set: Deliverable 1.1. in relation to the European Union&#39;s Horizon Europe research and innovation program (HORIZON-CL4-2021-DIGITAL-EMERGING-02-10) under grant agreement No. 101080085 QCFD (https://doi.org/10.3030/101080085).&nbsp; The dataset covers the computation of the prototypical shear flows phenomena, viz. Couette flow and Poisseuille flow. The shear flow computations recover the steady state flow profiles in a laminar flow regime. The linear profile for the Couette flow is given in full spatial resolution. Instead, the Poisseuille flow is modeled using symmetry. Both cases are computed using the finite volume suite HELYX of engys.</p> The current work have received funding from the European Union's Horizon Europe research and innovation program (HORIZON-CL4-2021-DIGITAL-EMERGING-02-10) under grant agreement No. 101080085 QCFD.