UVA’s MS in Chemical Engineering prepares students to tackle grand challenges in energy, biotechnology, materials design, and sustainable manufacturing. With advanced coursework in thermodynamics, catalysis, and process modeling, students develop the analytical and lab skills necessary for innovation in academia or industry.
Kinetic modeling of enzymatic hydrolysis for biofuel production
Membrane-based CO₂ capture for carbon-neutral processes
Design of green solvents for polymer synthesis
Photocatalytic degradation of pharmaceutical waste in water
Molecular simulation of gas adsorption in porous media
Reactor design optimization for ammonia synthesis
Data-driven modeling of chemical plant operations
Emulsion polymerization for biodegradable plastics
Thermal management of battery components using phase-change materials
Artificial neural networks in reaction yield prediction
Electrochemical systems for nitrogen fixation
Catalytic cracking of biomass-derived feedstocks
Nano-engineered coatings for corrosion resistance in pipelines
Multiscale modeling of fluidized bed reactors
Process intensification strategies for fine chemical manufacturing
Integration of machine learning into chemical sensor networks
Sustainable separation techniques using ionic liquids
Solve complex industrial and environmental challenges with UVA’s MS in Chemical Engineering.
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