I’m a simulation-driven R&D engineer with over ten years of experience applying CFD and numerical methods to optimize turbomachinery and complex fluid systems. My work focuses on the rotating equipment and energy sectors, where efficiency, reliability, and accuracy are critical.

I specialize in high-fidelity CFD simulations using Ansys Fluent, with emphasis on turbulence, multiphase, and thermal flows. Precision and validation are central to my approach—I believe meaningful engineering insight comes from models that faithfully represent real physics.

Having worked extensively in Agile R&D environments, I enjoy mentoring engineers and ensuring that simulation remains a decisive tool for design and innovation. My aim is to continue advancing the state of high-fidelity CFD within the rotating equipment and energy sectors—developing models, methods, and insights that bridge the gap between numerical prediction and real-world performance. I’m driven by a mix of curiosity and precision: using simulation to push technical boundaries, share knowledge, and turn complex flow physics into practical engineering value.