Senior Engineer, Reactor Vessel
Kairos Power · Albuquerque-Santa Fe Metropolitan Area · 5 days ago
On-siteEngineering$141k–$165k/yrFull-time
Responsibilities
- Own and manage design scope for reactor vessel components, interfaces, and hardware packages.
- Develop and maintain reactor vessel requirements, design bases, interface definitions, verification plans, and supporting technical documentation.
- Lead the mechanical design and technical execution of assigned reactor vessel structures, components, and interfaces, ensuring compliance with system requirements and design objectives.
- Cookordination with mechanical, civil, I&C, safety analysis, manufacturing, and plant integration teams to define spatial, thermal, structural, and functional interfaces.
- Lead or support design integration reviews to ensure reactor vessel and interfacing SSC designs are compatible, constructible, inspectable, and maintainable.
- Prepare and review mechanical engineering documentation and perform or guide supporting analyses, including drawings, design reports, test plans, memos, specifications, calculations, technical reports, thermal and structural analyses, pressure-boundary evaluations, FMEAs, and other mechanical design assessments.
- Assess reactor vessel compliance with applicable codes and standards such as ASME, ANSI, ASTM, ASME Boiler and Pressure Vessel Code, and other relevant standards.
- Engage with manufacturing, assembly, suppliers, and operations teams to support reactor vessel fabrication, inspection, installation, testing, and maintenance, including review of fabrication drawings, manufacturing processes, inspection plans, material certifications, and nonconformance dispositions.
- Maintain assigned design records in accordance with configuration management, document control, and technical change control processes.
- Lead technical interactions with suppliers for assigned reactor vessel components, including specification development, technical evaluations, manufacturing support, acceptance criteria, and resolution of technical issues.
- Develop technical estimates, identify technical risks, and provide engineering input supporting project planning, cost, schedule, and execution decisions.
- Provide independent engineering recommendations and technical decision support within assigned design scope, identifying risks, assumptions, and recommended mitigation strategies.
- Participate in peer design reviews, technical audits, hazard and failure analyses, and design readiness reviews to ensure compliance with quality and performance objectives.
- Provide technical mentorship, design guidance, and engineering coaching to junior engineers and interns while promoting engineering rigor and best practices.
Qualifications
- Bachelor’s or advanced degree in Mechanical Engineering, Nuclear Engineering, Materials Engineering, Structural Engineering, or a related discipline is required.
- 8+ years of relevant experience in mechanical design, nuclear component design, pressure vessel design, high-temperature systems, structural components, or complex hardware development is required.
- Demonstrated experience independently leading design, analysis, fabrication support, testing, or qualification of pressure vessels, reactor vessels, or other safety-significant mechanical systems is required.
- Experience developing and reviewing engineering documentation, including mechanical drawings, specifications, calculations, design reports, test plans, and technical reports is required.
- Experience with reactor component fabrication and lifecycle management processes, including equipment qualification, inspection, testing, maintenance, or related programs, consistent with qualifications in the provided examples is desired.
- Familiarity with applicable codes and standards such as ASME Boiler and Pressure Vessel Code Section VIII, Section III, ANSI, ASTM, ASME Y14.5, or related standards is desired.
- Experience with design for manufacturing, design for assembly, dimensional inspection, GD&T, welding, machining, or fabrication of large metallic components is desired.
Knowledge, Skills & Abilities
- Strong understanding of mechanical design principles, structural mechanics, pressure-boundary design, thermal expansion, bolted joints, weldments, and metallic component behavior.
- Knowledge of high-temperature design considerations, including thermal stress, creep, fatigue, creep-fatigue, material degradation, or irradiation effects.
- Proficiency with 3D CAD tools such as SolidWorks, AVEVA, or equivalent.
- Familiarity with engineering analysis tools and methods for thermal and structural modeling.
- Knowledge of FEA methods and ability to apply analysis results to mechanical design decisions.
- Ability to interpret and apply industry codes and standards to reactor vessel and pressure-retaining component design.
- Knowledge of system safety and reliability analysis methods such as FMEA, HAZOP, and FTA.
- Knowledge of configuration management, design control, interface control, and technical change control processes.
- Ability to translate system-level requirements into component-level requirements, interfaces, and verification activities.
- Working knowledge of supplier oversight, procurement specifications, and technical acceptance criteria for engineered components.
- Ability to apply systems thinking to evaluate interdependencies across reactor subsystems.
- Strong analytical problem-solving abilities to resolve complex design issues efficiently.
- Flexibility to consistently deliver tangible results in a rapid and dynamic work environment.
- Self-motivated with strong time management skills and an ownership mentality.
- Capability to mentor and train junior engineers and interns.
- Dedication to safety and risk management consistent with the expectations of designing and deploying components important to the safe operation of a nuclear reactor.
- Ability to proactively collect, manage, and transfer knowledge.
- Excellent verbal, written communication/presentation, and interpersonal skills.
- Ability to seek different and novel ways to create efficiencies when working on problems, challenges, and issues.
Physical Conditions
- Remaining in a stationary position, often standing or sitting, for prolonged periods.
- Adjusting, moving, transporting, installing, positioning, or removing objects up to 30 pounds in all directions.
- Working with hand tools to assemble equipment and hardware as necessary.
- Ascending or descending ladders, stairs, scaffolding, ramps, scissor lifts, articulated boom lifts, and similar equipment as needed.
Environmental Conditions
- General office environment.
- Laboratory, manufacturing, assembly, or test facility environment.
- Supplier, construction, or installation site environment as needed.
Safety and PPE
- Reading and interpreting hazardous warning signs.
- Reporting issues with equipment or unsafe conditions.
- Wearing proper PPE, including face mask, face shield, gloves, safety shoes, or other required protective equipment.
Travel
- Some travel may be required (20%), including travel to Kairos Power sites, suppliers, fabrication shops, test facilities, or installation sites.