Lead Engineer – Nuclear Deterministic Safety Analysis

Role Overview

• Lead a variety of projects including technical evaluations and analyses in the area of Anticipated Operational Occurrences, Anticipated Transients without Scram, Reactor Heat Balance, and Thermal Hydraulic Fuel Channel Analyses
• Perform plant thermal hydraulic evaluations and analyses in the areas of Containment, HELB, Fire Safe Shutdown, Annulus Pressurization Loads, and RIPD analyses
• Perform plant thermal hydraulic evaluations and analyses in the areas of BWR stability
• Deliver products at a consistently high and sustainable level in accordance with customer requirements, business procedures, and regulatory agency guidelines
• Utilize unique opportunities to create and/or improve cutting-edge automation and methods
• Prepare thorough and accurate technical reports, correspondence, documentation, and calculations
• Perform technical verification of engineering technical deliverables
• Prepare, communicate, and present complex technical issues to internal and external customers and recommend solutions
• Perform in cross-disciplinary settings, engaged with interfacing teams responsible for mechanical design, core design, licensing, systems design, or other affiliated organizations to find optimum customer solutions
• Ensure work is performed with high quality in accordance with regulatory rules and regulations, customer requirements, and business quality assurance standards

Requirements

• B.S. Degree in Engineering Discipline (Nuclear, Mechanical, Electrical, Chemical, or similar)
• At least 4 years of relevant nuclear experience
• Eligibility to access U.S. export-controlled information
• Master's degree in engineering or Senior Reactor Operator Certification (desired)
• Experience with BWR core simulation and thermal-hydraulic systems codes
• Experience with BWR Containment, HELB, Fire Safe Shutdown, Annulus Pressurization Loads, and RIPD analyses
• Knowledge of BWR Systems and integrated plant response
• Knowledge of the fundamental principles of nuclear engineering such as nuclear physics, thermal hydraulics, and mechanical design, as applied to BWR
• Experience in two-phase thermal hydraulic analysis techniques
• Experience with standard engineering work planning and design process techniques
• Knowledge of reactor licensing requirements
• Experience with BWR/PWR T-H systems codes such as TRACG, RELAP & TRACE
• Experience in Best Estimate methodology development (e.g., TRACG)
• Experience with Containment codes such as GOTHIC
• Experience with Best Estimate and CSAU applications
• Programming experience such as C#, FORTRAN, or PYTHON

Tech Stack

• Python

Benefits

• medical, dental, vision, and prescription drug coverage
• access to Health Coach from GE Vernova, a 24/7 nurse-based resource
• access to the Employee Assistance Program, providing 24/7 confidential assessment, counseling and referral services
• GE Vernova Retirement Savings Plan, a tax-advantaged 401(k) savings opportunity with company matching contributions and company retirement contributions
• access to Fidelity resources and financial planning consultants
• tuition assistance
• adoption assistance
• paid parental leave
• disability benefits
• life insurance
• 12 paid holidays
• permissive time off