Products
Innovate Faster, Model Complexities, and Optimize Performance.
Simcenter Fluids and Thermal Simulation offers advanced tools for computational fluid dynamics (CFD) and computational chemistry, enabling engineers to model, simulate, and optimize complex fluid and thermal behaviors across various industries. From design exploration to production validation, our solutions deliver the accuracy and efficiency needed for groundbreaking innovation.
Key Benefits
1. Model the Complexity – Multiphysics CFD Made Simple
Simulate real-world fluid dynamics, including reacting flows, aeroacoustics, and particle dynamics. Handle complex geometries with high-fidelity automated meshing for accurate predictions.
2. Accelerate Design Decisions – CAD-Embedded CFD
Integrate CFD into CAD tools for early-stage exploration of design alternatives. Conduct “what-if” analyses directly within NX, Creo, CATIA V5, or Solid Edge for seamless iteration.
3. Optimize Performance – Comprehensive Design Exploration
Automate CFD workflows to explore hundreds of designs using topology optimization and design sweeps. Innovate faster with tools that eliminate manual scripting and enhance simulation reliability.
4. Revolutionize Material Innovation – Computational Chemistry
Predict material properties and chemical processes for novel formulations.
Bridge the gap between molecular-scale simulations and macroscopic thermal behavior.
Why Simcenter Fluids and Thermal Simulation?
1. Seamless Integration:
Work across design and analysis phases with integrated tools for CAD-embedded CFD and standalone workflows.
2. Scalable Solutions:
Flexible hardware configurations from local workstations to cloud computing and HPC clusters.
3. Enhanced Efficiency:
Automated workflows and design exploration tools reduce time-to-market and enhance decision-making.
4. Proven Industry Expertise:
Trusted by leaders in automotive, aerospace, electronics, and material sciences for accurate, reliable simulations.
Technical Capabilities
Computational Fluid Dynamics (CFD)
Simulate and analyze fluid dynamics and heat transfer for applications such as aerodynamics, multiphase flows, and thermal management.
Thermal Analysis for Electronics
Model thermal behavior for chips, PCBs, and enclosures to design efficient cooling systems and eliminate costly prototyping.
Design Exploration and Optimization
Leverage automated workflows and integrated tools for topology optimization, Design of Experiments (DoE), and advanced simulations.
Material Property Prediction
Utilize computational chemistry to model chemical reactions and predict material properties for enhanced design fidelity.
Scalable CFD Computing
Run simulations on workstations, HPCs, or the cloud with flexible hardware and licensing options tailored to your project needs.
Applications
Aerodynamics:
Model external and internal flow behaviors for vehicles, machinery, and industrial systems.
Electronics Cooling:
Ensure thermal reliability and optimize heat dissipation for chips, PCBs, and enclosures.
Material Science:
Develop novel materials with predictive modeling of chemical and physical properties.
Industrial Equipment:
Simulate fluid and thermal dynamics to improve operational efficiency and reliability.
