Fluent software contains the broad, physical modeling capabilities needed to model flow, turbulence, heat transfer and reactions for industrial applications. These range from air flow over an aircraft wing to combustion in a furnace, from bubble columns to oil platforms, from blood flow to semiconductor manufacturing and from clean room design to wastewater treatment plants. Fluent spans an expansive range, including special models, with capabilities to model in-cylinder combustion, aero-acoustics, turbomachinery and multiphase systems.
Fluent also offers highly scalable, high-performance computing (HPC) to help solve complex, large-model computational fluid dynamics (CFD) simulations quickly and cost-effectively. Fluent set a world supercomputing record by scaling to 172,000 cores.
New Fluent Experience: A whole new way to enjoy CFD simulations
Fluent already solves the toughest design challenges with well-validated results across the widest range of CFD and multiphysics applications. But today, engineers need to accomplish more, in less time and with less training than ever before. Introducing the New Fluent Experience, a whole new way to enjoy CFD simulations.
Built on top of the proven Fluent solver, this new experience:
A new look
Fluent has a new look that’s easy on the eyes. Users can pick from several themes or choose the new, Japanese language localization.
Fluent’s task-based workflow guides you through an organized simulation process offering the most accurate results in less time. At each step in the process, the software provides the most relevant design options or defaults to a best-practice option. Benchmark data show that users complete the watertight geometry workflow with 70 percent fewer clicks and 50 percent less hands-on time.
A fault-tolerant workflow speeds meshing for non-watertight (“dirty”) geometries with use of a “wrapper” a layer of mesh that covers surface imperfections in the geometry. Complex models that previously took days or even weeks can now be meshed in hours with minimal sacrifice to simulation accuracy.