Thermohydraulics Safety Analysis Engineer

About The Position

Requirements

• 2–5 years of professional or research experience in nuclear or mechanical engineering, applying thermal-hydraulic analysis methods in a nuclear, research, or closely related technical environment.
• Bachelor’s degree in Nuclear Engineering, Mechanical Engineering, or a closely related technical field.
• Demonstrated hands-on experience — professional or research — with at least one T/H system code applicable to light water reactor analysis: RELAP5, RELAP5-3D, TRACE, RETRAN, or MOOSE.
• Working knowledge of reactor system nodalization, steady-state benchmarking, and transient simulation for LWR applications.
• Familiarity with NRC regulatory requirements for nuclear safety analysis (e.g., 10 CFR Part 50); direct professional experience is preferred but academic exposure is acceptable.
• Working awareness of nuclear quality assurance principles (e.g., 10 CFR 50 Appendix B, NQA-1) as applied to engineering calculations and technical documentation.
• Ability to produce clear, well-organized technical documentation; some experience contributing to licensing-grade calculations or NRC submittals is a plus.
• Comfortable working independently and across disciplines in a virtual and hybrid team environment.
• Must be a U.S. person eligible to meet DOE Export Control requirements under 10 CFR 810.
• Ability to travel up to 20%

Nice To Haves

• Master’s degree or Ph.D. in Nuclear Engineering or Mechanical Engineering.
• Experience contributing to a safety analysis or T/H methodology program at a reactor vendor, national laboratory, utility, or nuclear engineering consultancy.
• Exposure to NRC licensing submittments — topical reports, RAI responses, or ACRS interactions — in any capacity.
• Familiarity with uncertainty quantification methods (e.g., CSAU, ASTRUM, or statistical analysis approaches) for best-estimate T/H analyses.
• Familiarity with advanced reactor designs, SMRs, or novel reactor concepts (e.g., underground siting, microreactors, Generation IV designs); exposure to 10 CFR Part 53 or emerging 10 CFR Part 57 licensing pathways is a meaningful plus.
• Proficiency with Python or MATLAB for scripting, post-processing, and model automation.
• Exposure to AI-enabled engineering platforms or modern simulation toolchains.

Responsibilities

• Develop, run, and interpret steady-state and transient system-level T/H simulations using codes such as RELAP5, RELAP5-3D, TRACE, RETRAN, or MOOSE.
• Perform design-basis analyses including non-LOCA transients, loss-of-flow, station blackout (SBO), and reactivity-initiated accidents (RIA), with mentorship available for less familiar event types.
• Build and maintain reactor system nodalization models; perform steady-state benchmarking against design data and code-to-code comparisons.
• Conduct sensitivity studies and post-process simulation results using Python, MATLAB, or equivalent scripting tools.
• Support V&V activities for T/H system codes in accordance with applicable regulatory requirements and NQA-1 quality assurance standards.
• Develop and maintain analysis procedures, calculation packages, and QA documentation consistent with licensing-grade standards.
• Assist in the development and application of Deep Fission’s safety analysis methodology, including licensing basis event identification and acceptance criteria.
• Prepare clear, well-organized technical analysis reports and calculation packages suitable for internal design reviews and NRC licensing submittments.
• Support preparation of safety analysis report (SAR) sections and responses to NRC Requests for Additional Information (RAIs) under the direction of senior staff.
• Contribute to licensing basis documentation as the design and safety basis evolves through the regulatory process.
• Coordinate with reactor physics, systems engineering, mechanical design, and licensing teams to maintain technical alignment across the design and safety basis.
• Participate in design reviews, safety review committee activities, and in-person technical workshops.
• Support nuclear safety culture and contribute to technical discussions in both internal and regulatory forums as your experience and confidence grow.

Benefits

• We are committed to building a diverse and inclusive workplace.
• We welcome applicants from all backgrounds who share our passion for advancing clean nuclear energy and creating a sustainable future.
• We do not discriminate on the basis of race, color, creed, religion, ancestry, age, sex, marital status, national origin, disability, veteran status, or any other characteristic protected by applicable law.