Samuel Snyder serves as a Principal Product Engineer at Westinghouse Electric Company, where he plays a pivotal role in advancing the design and engineering of critical components in the nuclear power sector. With a focus on creating robust value propositions, Samuel is dedicated to enhancing...
Samuel Snyder serves as a Principal Product Engineer at Westinghouse Electric Company, where he plays a pivotal role in advancing the design and engineering of critical components in the nuclear power sector. With a focus on creating robust value propositions, Samuel is dedicated to enhancing customer satisfaction through innovative solutions in the realms of Steam Generators, Pressurizers, Primary Piping, and Fatigue Analysis. His expertise in Reactor Vessel Pressure Boundary Design and Steam Generator Pressure Boundary Design positions him as a key contributor to the development of safe and efficient nuclear systems.
In his current role, Samuel is responsible for the pressure boundary design of reactor vessels and replacement steam generators, ensuring compliance with stringent industry standards such as the ASME B&PV Code Section III and RCC-M Design. His technical acumen is complemented by his experience in producing detailed process specifications and material requirements documents, which are essential for maintaining the integrity and reliability of nuclear components.
Moreover, Samuel's involvement in fabrication oversight for heavy manufacturing activities across international locations, including South Korea, Spain, and Italy, underscores his ability to manage complex projects and collaborate with diverse teams. His comprehensive understanding of mechanical engineering, materials, and metal fabrication allows him to navigate the intricacies of project engineering effectively. As he continues to drive innovation at Westinghouse, Samuel Snyder remains committed to delivering high-quality engineering solutions that meet the evolving needs of the nuclear industry.
