Extending from steady-state to transient simulation is essential in investigating the real conditions of vehicle driving cycles. This enables engineers to accurately simulate the thermal behavior of vehicle components and systems under real-world operating conditions, including dynamic changes in temperature, pressure, and airflow.
At Simulation Dynamics, we use advanced simulation processes that are efficient and accurate in modeling real-world transient conditions. Our team of experienced engineers utilize a combination of finite element analysis (FEA) and computational fluid dynamics (CFD) solvers, including Abaqus, Ansys, LS-Dyna, Nastran, Siemens Star-ccm+, and Ansys Fluent, to perform detailed thermal analysis of vehicle components and systems.
By coupling FEA solvers with CFD solvers, we can simulate the thermal behavior of vehicle components and systems, including heat transfer, fluid flow, and heat exchange, under realistic operating conditions. This allows us to accurately model the performance and behavior of the components and systems, optimize their design, and ensure their durability and reliability under real-world conditions.
