MIT's undergraduate program in Nuclear Science and Engineering trains students to explore and innovate in nuclear energy, fusion, radiation applications, and policy. These projects encourage real-world problem-solving in reactor design, waste management, and clean energy systems.
Design and Simulation of a Small Modular Reactor (SMR)
Fusion Reactor Plasma Containment Modeling
Radiation Shielding Using Composite Materials
Design of a Passive Cooling System for Nuclear Reactors
Neutron Activation Analysis for Material Detection
Radioactive Waste Storage and Containment Strategies
Development of Thorium-Based Fuel Cycles
Real-Time Monitoring System for Reactor Core Temperature
Design of a Micro Nuclear Power Plant for Remote Areas
Simulation of Nuclear Accidents Using Monte Carlo Methods
Radiopharmaceutical Production Using Cyclotrons
Development of Advanced Control Rod Materials
Nuclear-Powered Spacecraft Propulsion Feasibility Study
Radiation Dosimetry Using Wearable Sensors
High-Efficiency Heat Exchangers for Nuclear Applications
Design of Compact Gamma Ray Spectrometer
AI-Based Anomaly Detection in Nuclear Systems
Analysis of Molten Salt Reactor Safety Systems
Fusion Energy Breeding Blanket Concept Design
Medical Isotope Extraction from Fission Products
Remote Handling and Robotics for Nuclear Environments
Advanced Nuclear Fuel Cladding Materials
Simulation of Fast Neutron Spectra in Research Reactors
Public Perception and Risk Communication in Nuclear Energy
Hybrid Energy Systems: Integrating Nuclear with Renewables
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