PpOur client is dedicated to making nuclear power more accessible and focuses on delivering simple and safe micro‑reactor solutions that are scalable, affordable, and deployable in various locations. They are currently developing a micro modular reactor capable of providing clean energy and radioisotopes where needed, initially supporting the reactor licensing process in the United States, and aim to become a leading technology provider in global energy solutions. /p h3Role Overview /h3 pThe Mechanical Systems Designer will be responsible for designing, developing, and optimizing mechanical systems and components for nuclear power plants, research reactors, and other applications. The role includes creating detailed technical drawings, collaborating with engineers and regulatory agencies, and ensuring designs meet nuclear safety, performance, and regulatory standards. /p h3Responsibilities /h3 ul liDesign and develop mechanical systems, components, and assemblies for nuclear reactor applications, including piping, heat exchangers, pressure vessels, and cooling systems. /li liCreate and modify CAD drawings using AutoCAD, SolidWorks, or CREO for detailed design. /li liCollaborate with engineers and regulatory agencies to ensure design feasibility, safety, and compliance. /li liConduct material selection, stress analysis, and thermal analysis for optimal performance under high‑radiation and high‑temperature conditions. /li liEnsure regulatory compliance with ASME BPVC, NRC guidelines, and ANSI standards. /li liAnalyze mechanical loads of systems and components, including pressure vessels. /li liAssist in prototype development and testing, troubleshooting nuclear mechanical systems. /li liPrepare technical documentation, including design specifications, engineering reports, and bills of materials. /li liRevise designs based on feedback from testing results, manufacturing input, and regulatory requirements. /li liMaintain organized design files and ensure version control for nuclear components and systems. /li liSupport the product lifecycle management (PLM) process, including design updates and safety improvements. /li /ul h3Candidate Profile /h3 h3Education /h3 pMaster’s degree in Mechanical Engineering, Nuclear Engineering, or related field. /p h3Experience /h3 p2–5 years in mechanical design for nuclear applications, power plants, or industrial settings. /p h3Certifications (Preferred) /h3 pCSWP (Certified SolidWorks Professional), AutoCAD Certification, or equivalent. /p h3Proficiency /h3 ul liCAD Software: AutoCAD, SolidWorks, CREO. /li liMechanical design principles for nuclear applications. /li liUnderstanding of nuclear reactor components, cooling systems, and radiation shielding. /li liFamiliarity with ASME BPVC, NRC regulations, and ANSI standards. /li liExperience with finite element analysis (FEA) and computational fluid dynamics (CFD) for nuclear applications. /li liExperience in tribology, seals, and welding. /li /ul h3Skills /h3 ul liStrong problem‑solving and analytical abilities. /li liEffective communication and teamwork skills. /li liAttention to detail and project management skills. /li /ul h3Preferred Qualifications /h3 pPhD or engineering doctorate. /p pFluency in English (written and oral). /p h3Soft Skills /h3 pPassionate engineer willing to be part of history in the nuclear industry and able to build relationships and influence at all levels of the organization. /p /p #J-18808-Ljbffr