A coupling environment for partitioned multiphysics simulations applied to fluid-structure interaction scenarios
نویسندگان
چکیده
An efficient way to simulate multi-physics scenarios is given by the partitioned coupling approach. It allows to take up established simulation codes for single fields and combine them to one multi-physics simulation tool. The challenges appearing there range from purely technical, such as data communication, via numerical, such as data mapping and transient coupling algorithms, to software engineering challenges, in order to pertain the inherent modularity of the partitioned approach. We present the coupling environment preCICE, which provides black box solutions for surface coupling to the tasks mentioned before and serves as basis for the development of new coupling features. As application example we show fluid-structure interaction scenarios simulated with fixed-grid fluid solvers.
منابع مشابه
XpressSpace: a programming framework for coupling partitioned global address space simulation codes
Complex coupled multiphysics simulations are playing increasingly important roles in scientific and engineering applications such as fusion, combustion, and climate modeling. At the same time, extreme scales, increased levels of concurrency, and the advent of multicores are making programming of high-end parallel computing systems on which these simulations run challenging. Although partitioned...
متن کاملCoupling Algorithms for Partitioned Multi-Physics Simulations
Partitioned coupling approaches are an important tool in order to achieve a decent time-to-solution for multi-physics problems with more than two physical fields or changing combinations of fields. We study different approaches to deduce coupling schemes for partitioned multi-physics scenarios, by means of a simple, but yet challenging fluid-structure-fluid model problem. To our knowledge, this...
متن کاملModified mathematical model for variable fill fluid coupling
Variable fill fluid couplings are used in the speed control units. Also, variation in coupling oil volume is used in adapting one size of coupling to a wider range of power transmission applications. Available model for the partially filled fluid couplings, has a good performance for couplings with fixed amount of oil but their performance will be degraded if they are used for the variable fill...
متن کاملParallel Adaptive Cartesian Upwind Methods for Shock-Driven Multiphysics Simulation
The multiphysics fluid-structure interaction simulation of shock-loaded thin-walled structures requires the dynamic coupling of a shock-capturing flow solver to a solid mechanics solver for large deformations. By combining a Cartesian embedded boundary approach with dynamic mesh adaptation a generic software framework for such flow solvers has been constructed that allows easy exchange of the s...
متن کاملSimulation of fluid-structure interaction with the interface artificial compressibility method
Partitioned fluid-structure interaction simulations of the arterial system are difficult due to the incompressibility of the fluid and the shape of the domain. The interface artificial compressibility method (IAC) mitigates the incompressibility constraint by adding a source term to the continuity equation in the fluid domain adjacent to the fluid-structure interface. This source term imitates ...
متن کامل