UIUC’s Chemical Engineering BS combines transport phenomena, reaction kinetics, and process-control automation to address grand challenges in decarbonization, pharma, and advanced materials. Students scale bench reactions in the Unit-Ops Lab, model refinery CO₂ capture in Aspen Plus, and co-op at Dow, AbbVie, or Tesla battery plants. With electives in data-centric process systems and catalysis, graduates lead in energy transition, biotech manufacturing, and green-chem innovation.
Simulation of electrochemical CO₂-to-ethanol conversion plant economics
Fluidized-bed reactor model for plastic waste pyrolysis
CFD study of heat transfer in multilayer lithium-ion cells
Kinetic experiment on enzyme-catalyzed biodiesel production
Control strategy for continuous twin-screw pharmaceutical granulation
LCA comparing bio-based versus PET packaging polymers
Membrane-separation design for hydrogen fuel purification
Data-driven soft sensor predicting distillation column composition
Pilot-scale algae photobioreactor optimizing light distribution
Techno-economic analysis of ammonia synthesis via green hydrogen
MOF-based adsorber for water harvesting in arid climates
Ethics brief on PFAS remediation responsibilities
Grant proposal to DOE on solid-oxide fuel-cell materials
Workshop teaching process safety and HAZOP fundamentals
Machine-learning prediction of catalyst deactivation rates
Interactive dashboard visualizing global fertilizer demand trends
Scale chemistry into sustainable industry solutions with ChE@UIUC.
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