The PhD in Chemical Engineering at the University of Wisconsin–Madison prepares researchers to lead in process systems, molecular engineering, and energy technology. Through cutting-edge labs and computational tools, students develop advanced expertise in catalysis, transport phenomena, thermodynamics, and sustainable materials for both academic and industrial innovation.
Modeling and Optimization of Chemical Reactors
Catalyst Design for Sustainable Ammonia Production
Simulation of Heat and Mass Transfer in Microfluidic Devices
Polymer Synthesis for Advanced Biomedical Applications
Electrochemical Systems for Energy Storage and Conversion
Design of Bioreactors for Industrial Enzyme Production
Membrane Separation Processes for Water Purification
Kinetics of Heterogeneous Catalytic Reactions
Using AI to Predict Material Properties in Process Design
Carbon Capture and Utilization via Chemical Conversion
Molecular Dynamics of Transport in Porous Media
Microreactor Design for Green Chemistry Applications
Thermodynamic Modeling of Multiphase Equilibria
Simulation of Crystallization Processes in Pharmaceuticals
Waste Valorization via Pyrolysis and Gasification
Designing Fuel Cells for High Efficiency Energy Systems
Computational Fluid Dynamics in Multicomponent Systems
Life Cycle Assessment of Chemical Production Pathways
Enzyme Immobilization Techniques for Process Intensification
Renewable Feedstocks in Petrochemical Substitutions
Transform industries and enable sustainable solutions through deep research in chemical process design and molecular innovation.
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