Numeca Fine Suite 8.9.1 | 2.51 GB
NUMECA International develops automated and customized Flow Integrated Environments (FINE™). These allow for rapid design, simulation, and optimization of flow problems and cover a wide range of applications, while providing feature-specific modules.
About Numeca International Inc.
NUMECA International is a worldwide provider of computational fluid dynamics (CFD) software and consulting services. NUMECA software is used for the simulation, design, and optimization of fluid flow and heat transfer. It is used by product developers, design, and research engineers, allowing them to reach superior product quality and performances at a reduced engineering cost.
NUMECA International's corporate headquarters are located in Brussels, with offices, resellers, and service centers in Brazil, China, Germany, India, Japan, Korea, Russia, Spain, and the USA. The company won the "Grand Prix Entreprendre 2000" from the Brussels Chamber of Commerce and Industry for its success in exporting high tech products worldwide.
NUMECA: The Next Generation in CFD Software
NUMECA International is a leading software developer and solution provider for fluid dynamics simulations. Our solutions allow engineers and designers to predict physical behavior of complex systems where fluids (liquid or gas) play a significant role.
Our software and services bring the following benefits to our customers:
- Minimizing engineering and calculation time;
- Highly accurate simulations for better product and systems development;
- Multiphysics collaborative framework;
- New generation of pre- and post-processing systems;
- Integrated CAD design and optimization systems;
- and much more ...
- FINE™/Turbo: Advanced CFD Technology for Turbomachinery Flows
FINE™/Turbo is a fast and accurate Flow Integrated Environment available for the simulation of internal, rotating, and turbomachinery flows, and this for all types of fluids. FINETM/Turbo integrates a fully hexahedral, highly automated grid generator, AutoGridTM, advanced density-based numerical algorithms with local preconditioning. The package is completed by CFViewTM, an advanced visualization tool. Users pilot FINETM/Turbo through an easy-to-use and intuitive interface for fast solution set-up, or through a batch process for transparent integration in a design cycle.
- FINE™/Design3D: Design and optimization of rotating machinery
FINE™/Design3D is a highly customized Integrated Environment for the design and optimization of blades and channels of rotating machinery. This tool allows designers to explore the concept of computer-based innovative design. FINE™/Design3D is integrated in a user-friendly interface with full parametric blade modeler (AutoBlade™), advanced neural network, and efficient optimization algorithms. Its all-in-one structure allows a direct integration into the design cycle.
- AutoBlade™: Parametric blade modeler
AutoBlade™is an advanced and easy-to-use parametric modeller dedicated to the design of rotating and turbomachinery blades and channels. AutoBlade™ provides a multiview layout for fast editing and analysis of the design parameters, with a full undo/redo capability.
AutoBlade™ can be used as a stand alone product or as part of NUMECA's design and optimization suite, FINE™/Design3D and FINE™/Turbo.
- IGG: Interactive Geometry Modeler and Grid Generator
IGG™ enables the creation of 2D and 3D arbitrary shapes and multi-block structured grids on 2D/3D geometries. IGG™ also support python scripts for automatic replay into optimization loops.
- CFD post-processing tool
CFView ™ is a polyvalent scientific visualization software system offering all type of qualitative and quantitative outputs for 2D and 3D scalar or vector fields. Steady or unsteady data can be loaded, with 2D/3D steady state or transient animations.
CFView™ supports scripts for parametric visualization. Recorded templates can be used for automatic replay of saved screenshots on a new data set. Furthermore, it offers specific features for rotating and turbomachinery problems, such as meridional, blade-to-blade, pitch averaged and cylindrical views.
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