Job SummaryThe Reactor Vessel Auxiliary Systems team is seeking a highly motivated Senior Engineer to join the growing Reactor Systems department where you will have the opportunity to work directly on the design, integration, and assembly of the structures, systems, and components (SSCs) within the reactor cavity in a first-of-a-kind FHR.In this role, you will manage and coordinate the detailed layout of reactor cavity components including routing of fuel, salt, and gas lines from the reactor vessel through the bio-shield, locating remote handling accessible instrumentation, and standardizing common components and features. The position requires a strong aptitude for mechanical design, systems engineering, and high temperature components under irradiation. You will regularly interface with multi-disciplinary teams including nuclear design, civil structures, remote handling, reactor coolant auxiliary systems, reactor systems, safety analysis, instrumentation & controls, and plant design integration. You will work closely with these teams to implement component and instrumentation standardization, collaborate on SSC design, and develop a cavity layout that meets safety analysis, construction, and maintenance requirements for FHR demonstration reactors.ResponsibilitiesOwn and manage the 3D layout and spatial integration of all components within the reactor cavity including reactor vessel and support systems, instrumentation, shielding, and maintenance interfaces.Coordinate with mechanical, civil, and I&C design teams to define spatial, thermal, and functional interfaces between the reactor vessel, cavity systems, and bio-shield.Lead design integration reviews to ensure structures, systems, and component designs are compatible and accessible for installation and maintenance.Develop and implement standardized layouts, component interfaces, and remote maintenance connection strategies to streamline manufacturing, assembly, and maintenance operations.Establish and maintain common connection standards for electrical and gas connections, inspection devices, and instrumentation access.Collaborate with I&C engineers to define sensor and cabling layouts within the cavity for radiation monitoring, temperature, pressure, and neutron flux instrumentation.Create and review engineering documentation such as mechanical drawings, test plans, memos, specifications, and technical reports.Independently perform engineering analyses such as thermal analyses, structural analyses, and failure mode and effects analyses or guide these analyses when performed by Kairos Power teams.Regularly interface and communicate component requirements with other disciplinary teams including nuclear design, reactor systems, reactor coolant auxiliary systems, safety analysis, remote handling, and manufacturing. Maintain knowledge of and assess compliance with applicable codes and standards such as ASME, ANSI, ASTM, and others.Engage with manufacturing, assembly, and operations teams to support build, install, and maintenance operations.Perform design verification and validation activities to ensure system performance meets functional and safety requirements.Participate in hazard and failure analyses (HAZOP, FMEA, FTA) and incorporate safety insights into design iterations.Contribute to configuration management by maintaining design baselines, revision control, and traceability of changes.Assist in cost, schedule, and risk assessments related to mechanical design and plant layout activities.Participate in peer design reviews and technical audits to ensure compliance with quality and performance objectives.Other duties as assigned.QualificationsBachelor's or advanced degree in Mechanical, Nuclear, or Systems Engineering (or related discipline).10+ years of experience in nuclear plant design, system integration or complex facility layout.Proven ability to lead cross-disciplinary integration and resolve technical and spatial conflicts.Demonstrated experience in system integration, equipment layout and standardization, and 3D CAD model management.Experience in reactor component fabrication and life cycle management processes including equipment qualification, in-service inspection, and other programs.Experience with configuration management systems or PLM tools.Experience with prototype or test rig development for mechanical systems.Experience working to a quality standard, such as ASME NQA-1 or ISO 9001.Knowledge, Skills & AbilitiesFamiliarity with applicable codes and standards such as ASME B&PV Section VIII Division 1 and 2, and Section III Division 5.Proficiency in 3D CAD design and tools (e.g., SolidWorks, AVEVA or equivalent) and engineering analysis tools for thermal and structural modelingKnowledge of FEA and CFD methods and ability to apply results to mechanical design decisionsAbility to interpret and apply industry standards and codes (ASME, ANSI, ASTM, ASME BPVC)Knowledge of system safety and reliability analysis methods such as FMEA and HAZOPKnowledge of configuration management and design control processesExperience with design and analysis of high-temperature and/or molten salt-wetted components under irradiation is a plusAbility to apply systems-thinking to evaluate interdependencies across reactor subsystemsStrong analytical problem-solving abilities to resolve complex design issues efficientlyFlexibility to consistently deliver tangible results in a rapid and dynamic work environmentSelf-motivated with strong time management skills and ownership mentalityCapability to mentor and train junior engineers and interns.Excellent verbal, written communication/presentation, and interpersonal skillsAbility to work with highly collaborative team Ability to solve problems quickly and efficientlyPrioritizes and ensures safety of oneself and othersAbility to proactively collect, manage and transfer knowledgeAbility to seek different and novel ways to create efficiencies when working on problems, challenges and issuesPhysical ConditionsRemaining in a stationary position, often standing or sitting, for prolonged periodsAdjusting, moving, transporting, installing, positioning, or removing objects up to 30 pounds in all directions.Ascending or descending ladders, stairs, scaffolding, ramps, scissor lifts, articulated boom lifts and the like.Working with hand tools to assemble equipment and hardware as necessary.Environmental ConditionsGeneral office environmentLaboratory environmentSafety and PPEReading and interpreting hazardous warning signsReporting issues with equipment or unsafe conditionsWearing proper PPE, to include face mask, face shields, gloves, safety shoes,etc.TravelSome travel may be required (10%)Additional RequirementsOccasionally requires schedule flexibilityOccasionally requires extended hours to support launch and critical project timelinesThe salary range for this position is $140,600 to $165,400 for employees working onsite at our Alameda, CA headquarters. The range provided in this job posting represents the typical range or starting rate of candidates hired in California. Factors that maybe used to determine your actual salary may include your education, experience, knowledge, skills, ability and the market data for your work location, and a comparison to other employees already in the role.#LI-Onsite