Unique technologies & capabilities for high fidelity modeling of fluid/multiphysics problems.
Coupled multiphysics simulations with FlowVision shed light on hemodynamics and tissue mechanics in cardiac research and medical device design
Ultimate solution for engineering simulations of tire aquaplaning, rubber processing, extrusion, molding & vulcanization.
Webinar recordings, tutorials, best practices… Visit the video channel to see FlowVision in action!
External aerodynamics, fuel supply and burning, lubrication, ventilation, hydroplaning
Floating stability, nautical qualities, performance and handling quality of ships. Propeller screws
Capvidia provides efficient integration of FlowVision and other multiphysics solutions with flexible licensing policy. Education and technical support may be provided in multiple languages.
For the research, development and innovation teams which invest on FlowVision expertise, Capvidia offers end to end solution focused project design, execution and reporting.
For M.Sc. and B.Sc. level students, based on a project description report, FlowVision licenses can be granted up to 4 cores. For the accepted projects, full technical support is provided.
For the repetitive standard tasks, to create a time-efficient workflow and save engineering time, Capvidia offers plug-ins for FlowVision. This is a solution which is currently being used by many R&D teams.
CAPVIDIA FlowVision–Abaqus numerical solution is really working for tire wet grid design in practical with high accuracy and performance!!!
Green Eco-Tire Design Center, KENDA, 2016
Compared to other commercial CFD tools we have used, FV has several unique features we are very impressed, such as the grid generation technique for complex configuration and unsteady flow simulation of bodies or parts in a body with complex angular motion. With FV we have achieved unique simulation results in the study of unsteady flow around 2D and 3D vertical wind turbines, and 3D unsteady flow around fly vehicles with gyroscope motion or complex angular motion in their parts. The technique support team in FV is quite professional and enthusiastic to their work, which has been offered us a lot of timely help during last four years
School of Power, Energy and Mechanics Engineering North China Electric Power University
For simulation of heating / cooling coils, other commercial CFD tools we have tried up to now, only offers either porous medium assumption or simulation on highly limited computational grids. On the other hand, only with FlowVision, we were able to simulate fluid flow and heat transfer around actual coil geometries.
To make a general comparison between FlowVision and other leading CFD software’s, it wouldn’t be wrong to say that FlowVision is a couple of steps ahead in regards of various aspects: unique mesh generation technology, high speed of mesh generation, lower computation times and higher accuracies in simulations for steady/transient or laminar/turbulent fluid flows. In addition to that, accompanied with Formula Editor which brings very high level of usage flexibility and similar various tools that simplifies our simulation jobs, FlowVision is simply a peerless CFD solution for us.
I would like to present my congratulations to notably Dr. Andrey Aksenov and technical support leader Igor Moskalev and on behalf of them all FlowVision team.
UNTES Air Conditioning Systems