Methods and applications of computational fluid-structure interaction for nvh problems - a review

The extensive application field of the interactions between fluids and structures makes studying these phenomena crucial in the multiphysics domains. The numerical simulations are the primary solution for investigating the fundamental physics involved in complex interactions. This review delves into several methods employed to solve fluid-structure problems. A fundamental aspect discussed is the distinction between monolithic and partitioned approaches. While the monolithic approach involves formulating a unified set of system equations for the problem, the partitioned approach treats the fluid and solid domains separately. In addition, the two approaches differ regarding discretization of problem domains, solution strategies and computational costs. Through a comprehensive analysis of numerical methods and their applications, this review is supposed to be a starting point for those who want to approach the topic of multiphysics interactions