Holtec International and its subsidiary companies are designing an unconditionally safe and secure source of clean energy, the SMR-300 small modular reactor. The Position is offered by Holtec Britain as a member of the Holtec International family, a global turnkey supplier of equipment and systems for nuclear, solar, geothermal, and fossil power generation sectors of the energy industry. Come join a growing multidisciplinary team of engineers designing the next generation nuclear power station. The Deterministic Safety Analysis (DSA) Fault Studies Team Lead will lead a group of engineers producing fault studies safety case and is responsible for delivery of these sections of the Safety Case for the Generic Design Assessment (GDA). This requires leadership experience in the production of nuclear safety case documentation in support of a developing reactor design to meet UK regulatory expectations and experience with leading and managing technical teams.
The Fault Studies Team Lead will report through the Head of Licensing to the GDA Project Director and will build a strong relationship with the US SMR Deterministic Safety Analysis (DSA) Lead. The UK GDA is a critical element for commercial deployment of SMR-300 word-wide, and this role provides a unique opportunity in an exciting emerging technology and energy marketplace. Specific Areas of Responsibility:
Managing/leading a technical team.Fault Studies and Severe Accidents assessments - evaluations of the reactor core, reactor coolant system, engineered safety features, containment, and radiological releases associated with anticipated operational occurrences, design basis accidents and beyond design basis accidents. Providing line management and coordinating the team, being responsible for coaching and mentoring to develop the team and the individuals in technical skills and in personal skills enabling them to deliver.Interact with regulators to explain analytical methods and models for the spectrum of fault studies that are applicable to the SMR-300 reactor design, and to explain qualitative or quantitative hazard assessments.Support UK team development, participating in interviews.Applicants should be prepared to play an active role in a project-driven and highly integrated engineering team.Minimum Requirements:
Degree qualified in an engineering or science related discipline. Must possess excellent credentials in principles of fault analysis.Strong understanding of thermal hydraulic behaviour of nuclear reactors under steady state and transient conditions.Experience in developing nuclear safety cases for specified discipline.Ability to work independently and balance competing priorities.Strong interpersonal skills. Able to engage credibly within and external to the business.Strong presentation and communication skills – able to present at multiple organisational levels and to external regulatory stakeholders.A credible decision maker, able to create confidence through crafting of strong justifications and arguments.Eligible to work under 10 CFR Part 810.Experience performing safety analysis calculations using industry computer codes such as GOTHIC, RELAP5, RETRAN, COBRA, VIPRE, etc.Holtec International are partnered with Thomas Thor for recruitment purposes, you may be contacted directly by Thomas Thor as part of your application process.
At Holtec, we value your privacy and take the protection of your personal information seriously. This privacy statement outlines how we collect, use, and share your information when working with our trusted recruitment partner, Thomas Thor - Holtec International Privacy Policy
Thomas Thor believes in transparency and the responsible handling of your data, please read this statement carefully to understand our practices - Thomas Thor Privacy Policy
By engaging with Holtec and sharing your information with our recruitment partner, you acknowledge that you have read and understood these privacy statements and agree to the terms. Your privacy is important to us, and we are committed to ensuring the confidentiality and security of your data.