Computational Fluid Dynamics based simulation
Digitally validate Li-ion cell design including geometrical cell specifications and cell performance. Extensive components of a battery cell are available, as well as a material database to support the user in its model development.
Couple to other simulation tools through dedicated interfaces, or an intuitive API. This enables the multi-physics simulations with different time scales ranging from microseconds to thousands of seconds, providing faster and more accurate analyses and shorter turnover times for development and assessment of complex designs.
Rather than just simulating a single operating point, explore how your product performs over the full range of operating conditions that it will face during its working life, and employ intelligent design exploration to discover better designs faster.
Comprehensive analytical models include all aspects of the design of electric machines, including thermal, electromagnetic and drive control. Of particular importance is the efficient utilization, and even elimination, of magnets. Our simulation tools are structured to give seamless design capability over the entire range of permanent-magnet machines and the alternatives including hybrid combinations and covers the entire range of power, voltage, and speed used in vehicle systems.
Simulate complex electrochemically-driven processes involving ion and electron exchange between fluid and solid phases. Simcenter STAR-CCM+ offers a general-purpose electrochemistry approach that allows you to simulate flow, energy, and electrochemistry together and open the door to real-world chemistry applications in 3D.
Engine simulations involve moving components, multiphase flow, combustion and heat transfer. You no longer have to be an expert user to simulate internal combustion engines: using an application-specific workflow and simplified interface allows you to set up engine simulations quickly and easily. Expert users can use those simulations as the starting point for performing more complicated multiphysics engine simulations that exploit the full range of Simcenter STAR-CCM+ simulation capabilities.
Problems that involve multiple moving and interacting components can be easily simulated using overset meshing, mesh morphing, or a combination of both. The moving mesh capabilities can also be used for parametric studies and for steady or unsteady simulations, providing an easy way to reposition or replace objects to study multiple design configurations.
Computational rheology is used to model non-Newtonian or viscoelastic materials in industrial problems. The rheology solver accurately resolves the dominant physics of complex rheological material flow and helps predict their behavior.
Almost all real-world engineering problems ultimately depend on the interaction between fluids and solid structures. Simcenter STAR-CCM+ offers both finite volume (FV)-based computational fluid dynamics and finite element (FE)-based computational solid mechanics (CSM) in an easy-to-use single integrated user interface. Using this approach you can solve static, quasi-static, and dynamic problems including those with nonlinear geometry and multiple parts using bonded and small sliding contacts.
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