The Master of Science in Chemical Engineering at the University of Michigan equips students with advanced tools to solve modern challenges in energy, materials science, pharmaceuticals, and environmental systems. The program integrates theoretical foundations with hands-on research and computational modeling.
Design of Catalysts for CO2-to-Fuel Conversion
Optimization of Membrane Reactors in Hydrogen Production
Computational Modeling of Multiphase Flow Reactors
Development of Sustainable Bio-Based Polymers
Kinetic Study of Biomass Pyrolysis for Biofuel Applications
Simulation of Heat Transfer in Packed Bed Reactors
Nanoparticle-Based Drug Delivery Systems in Chemical Processing
Electrochemical Characterization of Energy Storage Devices
Process Intensification Techniques in Chemical Manufacturing
Photocatalytic Water Splitting Using Metal Oxide Semiconductors
Carbon Capture and Sequestration from Industrial Emissions
AI-Powered Process Optimization in Continuous Chemical Plants
Smart Sensors for Real-Time Monitoring of Chemical Reactors
Green Synthesis of Chemicals Using Flow Chemistry
Modeling and Control of Polymerization Reactors
Thermodynamic Analysis of Supercritical Fluid Extraction
Waste-to-Energy Systems: Design and Feasibility Analysis
Nanomaterial Coatings for Corrosion Resistance in Pipelines
Computational Fluid Dynamics in Microreactor Design
Reactive Distillation for Process Efficiency in Biodiesel Production
The MS in Chemical Engineering provides rigorous training in transport phenomena, reaction kinetics, and sustainability-focused process design for diverse industry applications and doctoral preparation.
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