The Director of Maritime Infrastructure is responsible for identifying, securing, and operating the physical industrial footprint and dockyard network required for nuclear-powered maritime platforms. This includes managing facility maintenance, civil engineering integrity, and scaling manufacturing capabilities from prototype to fleet assembly.
Ocean Atomics
10 Remote Job Openings at Ocean Atomics
Lead the spatial allocation, general arrangements, and weight control frameworks for maritime systems to ensure regulatory approval. Manage weight engineering matrices and center of gravity tracking to accommodate heavy nuclear payloads within vessel structures.
Lead the hydrodynamics, seakeeping, and stability architectures for floating nuclear energy platforms to ensure regulatory approval. Manage vessel equilibrium, mooring dynamics, and mass margins to accommodate nuclear payloads in extreme marine environments.
Lead the structural engineering, analysis, and validation of floating energy platforms to ensure resilience under extreme marine loads. Own the design pathway from concept to deployment, focusing on hull girder strength and regulatory approvals for nuclear integration.
Lead the design and optimization of machinery spaces, internal power networks, and thermal management for floating energy platforms. Ensure all systems meet rigid nuclear-ready interfaces and secure necessary marine classification and regulatory approvals.
Lead the naval architecture domain to design and oversee the physical integrity and marine performance of nuclear-ready vessels. Manage specialized engineering leads and ensure designs meet strict regulatory and classification society standards.
Lead the design of human factors, living space architectures, and radiological HVAC systems for floating nuclear energy platforms. Ensure all habitability assets meet strict structural constraints and secure necessary regulatory approvals from ABS, USCG, and NRC.
Lead the design and optimization of propulsion machinery, shafting, and thruster architectures for floating nuclear energy platforms. Ensure mechanical interface standards are met to allow seamless nuclear integration and secure regulatory approvals from ABS and USCG.
Lead the engineering and optimization of high-voltage distribution networks and grid-synchronization architectures for floating nuclear energy platforms. Manage the design of generation busses and substations while ensuring compliance with ABS and USCG regulatory standards.
Lead the design and implementation of instrumentation, automation networks, and secure communication architectures for floating nuclear energy platforms. Ensure the integration of reactor telemetry with conventional marine operations while maintaining strict cybersecurity and regulatory standards.
