Ionut Puscasu
About Ionut Puscasu
Ionut Puscasu is a Numerical Analysis Engineer at Emerson in Cluj Napoca, specializing in FEA, CFD, and FSI analysis using Ansys Software.
Current Position at Emerson
Ionut Puscasu is currently employed at Emerson in Cluj Napoca, where he works as a Numerical Analysis Engineer (Simulation Engineer). He has been with Emerson since October 2018. In this role, he specializes in performing Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), and Fluid Structural Interaction (FSI) analysis using specialized software tools.
Previous Roles in Quality Control
Before joining Emerson, Puscasu gained experience in quality control. In 2018, he worked at CSi Romania srl as a Quality Control Engineer for eight months in Cluj Napoca. Prior to this, he held a position at Star Transmission & Star Assembly as a Quality Control Technician in 2016 for three months in Sebes, Judeţul Alba, România.
Educational Background
Ionut Puscasu studied at Universitatea Tehnică din Cluj-Napoca, where he pursued a degree in Automotive. He successfully achieved a Bachelor's degree in this field. His academic background has equipped him with a solid foundation in automotive engineering principles and practices.
Engineering Specializations
Puscasu specializes in several advanced engineering practices, including Finite Element Analysis (FEA), Computational Fluid Dynamics (CFD), and Fluid Structural Interaction (FSI) analysis using Ansys software. He is also proficient in using AMESim software for system analysis with a focus on pneumatic and mechanical systems. He utilizes Space Claim and Design Modeler for geometry modifications and volume extraction.
Technical Proficiency in Fluid Dynamics
In his role as a Numerical Analysis Engineer, Puscasu determines flow coefficients (Cg) and maximum flow rates for various regulators and valves, comparing results with laboratory data. He identifies turbulence zones and measures maximum and minimum velocity and pressure in fluid flow systems, contributing to effective and efficient system designs.