Die Application Gallery bietet COMSOL Multiphysics® Tutorial- und Demo-App-Dateien, die für die Bereiche Elektromagnetik, Strukturmechanik, Akustik, Strömung, Wärmetransport und Chemie relevant sind. Sie können diese Beispiele als Ausgangspunkt für Ihre eigene Simulationsarbeit verwenden, indem Sie das Tutorial-Modell oder die Demo-App-Datei und die dazugehörigen Anleitungen herunterladen.
Suchen Sie über die Schnellsuche nach Tutorials und Apps, die für Ihr Fachgebiet relevant sind. Beachten Sie, dass viele der hier vorgestellten Beispiele auch über die Application Libraries zugänglich sind, die in die COMSOL Multiphysics® Software integriert und über das Menü File verfügbar sind.
This model presents a way to compute projected area using the Surface-to-Surface Radiation interface of the Heat Transfer Module. By computing illuminated area from a set of directions on a discretized sphere, it is possible to interpolate the projected area onto any angle of incidence. ... Mehr lesen
This model simulates transition flow through a microchannel using the Transition Flow interface in COMSOL Multiphysics®, which solves the Boltzmann BGK equation. The analysis is carried out to understand the fluid flow behavior across five different pore-length (porosity) ... Mehr lesen
Thermally induced transformations in solids may be modeled by using an Arrhenius law to express the dependence on temperature of the transformation rate. This tutorial model shows how to use the Irreversible Transformation subfeature, available under the Solid feature of the Heat ... Mehr lesen
Free-surface calculations in the predefined flow interfaces are currently limited to time-dependent studies when using the built-in boundary conditions. Here, a stationary formulation following Romero et al. [1] is implemented using equation contributions. The attached slides describe ... Mehr lesen
This model analyzes the uncertainty in focused ultrasound induced tissue heating. The material properties for the tissue mimicking material, including the uncertainty, are taken from the FDA Medical Device Development Tool: Tissue Mimicking Material (TMM) for Preclinical Acoustic ... Mehr lesen
As an analyte band flows through a curved channel in an electroosmotically driven flow, dispersion of the band occurs due to gradients in the fluid velocity across the channel. These velocity gradients result from differences in the electric field acting at the walls within the curved ... Mehr lesen
At the bottom of an oil well, the pressure and temperature can differ significantly from those at the surface. As the oil mixture flows upward and the pressure decreases, phase changes may occur. At the wellbore inlet, the mixture may already contain both liquid and gas phases. ... Mehr lesen
This model demonstrates continuous magnetophoretic separation of particles in a 3D microfluidic Y-channel using a permanent magnet. Separation is achieved through the balance between the magnetophoretic force and hydrodynamic drag. Mehr lesen
