CreepingFlowGl

CreepingFlowGl is a computational fluid dynamics (CFD) model designed to simulate low Reynolds number flows, also known as creeping flows. These flows are characterized by very slow velocities where inertial forces are negligible compared to viscous forces, making the Navier-Stokes equations simplifies considerably. CreepingFlowGl is particularly useful for accurately modeling micro-scale fluid behavior in biological systems, microfluidics, and certain industrial applications, where laminar and viscous-dominated flows predominate.

The model employs the Stokes flow approximation, which assumes steady, incompressible, and viscous-dominant conditions. This simplification

Applications of CreepingFlowGl span across biology, engineering, and environmental sciences. For instance, it helps analyze fluid

The accuracy of CreepingFlowGl depends on the mesh resolution and boundary condition specifications. Its use continues