PhD in Chemical Engineering- Modeling, Theory, and Simulation in Gainesville United States | University of Florida

We create mathematical frameworks, AI-driven computational methods, and multi-scale simulations spanning atomic, particulate, and macroscopic levels to analyze chemical engineering phenomena. Our objectives include advancing fundamental scientific understanding and developing innovative applications for space-based production, sustainable energy solutions, pharmaceutical transport systems, geological processes, electrochemical analysis techniques, and advanced filtration technologies.

The doctoral, Master of Engineering, and Master of Science programs in chemical engineering mandate coursework across three foundational domains: The chemical engineering fundamentals segment includes three core classes covering mathematical, molecular, and continuum principles. The engineering systems and applied science component offers courses in diverse subjects like transport mechanisms, electrochemical systems, thermodynamic principles, reaction kinetics, process automation, separation technologies, and thermal/fluid dynamics. The specialized research track allows students to develop expertise through tailored coursework, which may include interdisciplinary classes or focused chemical engineering subjects such as interface science, material degradation, macromolecular chemistry, novel materials development, and bioprocess engineering.