The NPRE BS at UIUC equips students to harness fission, fusion, plasma, and radiation for clean power, space propulsion, and medical breakthroughs. Coursework spans reactor physics, thermohydraulics, health physics, and plasma science, while labs model neutron transport and build thrusters. Research in micro-modular reactors, ITER diagnostics, and proton therapy positions graduates to lead in energy transition, space exploration, and radiological health.
Neutron-transport Monte Carlo model of a small modular reactor core
SOLPS divertor heat-flux simulation for fusion tokamaks
Hall-effect plasma thruster design for CubeSat propulsion
Radiation-shielding assessment for lunar habitats using regolith
Medical-isotope yield optimization in accelerator targets
IoT real-time radiation monitoring network for hospitals
Thermohydraulic loop analysis of molten-salt reactors
Consent-based siting white paper for spent-fuel repositories
Pulsed-plasma water sterilization prototype testing
ML anomaly detection on reactor sensor streams
VR emergency-response training for reactor operators
Patient-specific dosimetry study in proton therapy
Plasma-based CO₂ dissociation grant proposal
High-school outreach kit explaining nuclear science
Risk-communication dashboard visualizing dose equivalence
Power and protect the future with Nuclear, Plasma & Radiological Engineering.
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