See how an integrated approach coupling Amesim and Simcenter 3D Thermal Multiphysics can leverage the strengths of both solvers for thermal analysis of spacecraft.
Simcenter Amesim offers an integrated, scalable platform for mechatronic system simulation, boosting productivity by allowing engineers to assess and optimize system performance virtually. It enables managing innovation complexity without compromising time-to-market and quality, combining ready-to-use multiphysics libraries with industry-oriented solutions for rapid model creation and accurate analysis.
Co-simulation using Simcenter Amesim and Simcenter 3D Thermal Multiphysics seamlessly integrates system-level models with detailed 3D simulations, improving collaboration and accuracy in thermal management. Engineers can simulate spacecraft behavior and optimize designs by exchanging data between Simcenter Amesim and Simcenter 3D during the solutions, allowing for enhanced model accuracy. Direct co-simulation incorporates physics from both system and 3D models, streamlining the design process and improving efficiency in spacecraft thermal control systems.
In the webinar, we will focus on Simcenter Amesim and the steps needed to setup thermal problems to couple with Simcenter 3D. We will also demonstrate how to build a model for the hypergolic liquid rocket engines used on the upper stage of Ariane 5 rockets for orbital insertion.