Finite Element Analysis (FEA) provides a further thorough understanding of stress and stress accumulated in certain areas of structural components. With the growing improvements in computer technology, the Finite Element Method (FEM) is nowadays applied in several industries and for relevant purposes like product development, safety structural analysis, asset performance optimization, among others.

Computational Fluid Dynamics analysis uses numerical and algorithmic methods to solve and analyze problems that involve fluid flows.
This analysis method, in which computers are used to perform the necessary calculations to simulate the interaction of liquids and gases with surfaces defined by boundary conditions, allows rapid system integration, to optimize the settings for cost and efficiency.

Having a large deployment offshore, this method also enables to carry out of durability assessments, based on fatigue fractures reviews, dynamic simulation, and fire modeling, among others.

There is a wide range of applications and engineering fields where vibration issues are of interest and need in-depth analysis.

The most common routine vibration problems can be easy to solve, but the challenges related to high-demanding industries, harsh environments, and production improvement requires a complex approach involving field measurement, advanced simulation, and experimental laboratory testing.

EQS Global has extensive experience with vibrations associated with new product development, machinery reliability analysis (pulsations), integrity management of plant equipment, pipelines, and offshore structures (FIV/VIV/AIV), among others.

Multiphysics challenges are usually encountered when the behavior of a system is affected by several phenomena. The interaction between these phenomena leads to completely different behavior than the one resulting if each would be treated separately from the others.

Advanced simulation of interactions such as thermomechanical and electrochemical, fluid-structure, acoustic-structure, and Thermo fluidic, among others are of the most important when analyzing asset performance, integrity, reliability, and safety.