Fuel Performance Modeling Analyst

About The Position

Requirements

• Level 3: Master’s Nuclear Engineering, Mechanical Engineering, Materials Science or a related ABET accredited field and 2 years of relevant experience; OR a PhD in Nuclear Engineering, Mechanical Engineering, Materials Science or a related ABET accredited field and 2 years relevant experience.
• of experience.
• Level 4: Master’s Nuclear Engineering, Mechanical Engineering, Materials Science or a related ABET accredited field and 6 years of relevant experience; OR a PhD in Nuclear Engineering, Mechanical Engineering, Materials Science or a related ABET accredited field and 4 years relevant experience.
• of experience.
• Demonstrated experience with fuel performance codes and/or thermal-hydraulics codes (RELAP5-3D or similar).
• Strong background in finite element modeling, heat transfer, solid mechanics, and materials behavior under irradiation.
• Proven ability to work effectively in collaborative, multi-disciplinary research environments.
• Excellent written and verbal communication skills with a record of technical publications or presentations.
• This position requires the ability to obtain and maintain a Department of Energy "L" clearance, which requires US Citizenship.

Nice To Haves

• Experience with finite element codes and programming.
• Experience with coupled multi-physics simulations involving fuel performance and thermal-hydraulics (and neutronics).
• Familiarity with transient testing and/or metallic fuels.
• Working knowledge of PIE data interpretation and experiment-informed model calibration.
• Understanding of code development practices, verification and validation (V&V), and uncertainty quantification.
• Demonstrated initiative toward leadership and mentoring roles.

Responsibilities

• Conduct fuel performance modeling and simulation using finite-element methods and including tools such as BISON, RELAP5-3D, and other similar or complementary codes.
• Support the design and analysis of fuel irradiation experiments and transient testing by providing predictive modeling and post-test evaluation.
• Develop, calibrate, and validate material and physical models using PIE and experimental data from INL test reactors.
• Integrate thermal-hydraulic boundary conditions with fuel performance models to ensure high-fidelity representation of in-reactor conditions.
• Perform sensitivity and uncertainty quantification to assess model confidence and guide future experimental efforts.
• Collaborate across INL’s reactor operations, PIE, and modeling groups to advance fuel qualification efforts for various reactor types.
• Contribute to technical reports, journal articles, and conference presentations.
• Pursue new research directions and potential funding opportunities in nuclear fuel modeling and simulation.
• Demonstrate potential for leadership in project management, mentoring, and technical direction.

Benefits

• Medical, Dental, Vision, and Flexible Spending Accounts
• 401(k) with a 4.2%25 employer contribution and up to 4.8%25 match
• Paid time off (personal leave)
• Employee Education Program (tuition assistance)
• Comprehensive Relocation Package
• Benefit eligibility subject multiple factors, including employment status and position classification.