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Nuclear Pra Engineer Jobs (NOW HIRING)

Aalo Atomics

PRA Engineer

Austin, TX · On-site

Our mission is to make nuclear energy globally accessible, starting with the Aalo-1, a 10 MWe ... Work closely with design engineers to define SSC safety functions for PRA modeling and to confirm ...

Airswift

PRA Engineer

Richland, WA · On-site

Airswift is seeking a Probabilistic Safety Analysis (PSA) Engineer to support new nuclear design ... Develop, maintain, and review Probabilistic Safety Analysis (PSA/PRA) models to support nuclear ...

Jensen Hughes

Consultant/Engineer - PRA and PSA

... Engineers with experience in Probabilistic Risk Assessment (PRA) and Probabilistic Safety ... Advanced Nuclear - supporting regulatory and risk initiatives for next-generation nuclear (e.g ...

Jensen Hughes

Consulting Engineer - Nuclear

West Chester, PA

$93K - $111K/yr

... risk assessment (PRA) engineers on the Energy & Utilities team which provides premium nuclear ... safety and reliability consulting services. This is a dynamic, technically rewarding position that ...

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Nuclear Pra Engineer information

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$97K

$135.7K

$176.5K

How much do nuclear pra engineer jobs pay per year?

As of Jun 15, 2026, the average yearly pay for nuclear pra engineer in the United States is $135,726.00, according to ZipRecruiter salary data. Most workers in this role earn between $114,000.00 and $158,500.00 per year, depending on experience, location, and employer.

What is the highest pay for a Nuclear Engineer?

The highest salaries for nuclear engineers can exceed $130,000 annually, especially for those with extensive experience, advanced certifications, or working in specialized roles such as nuclear plant management or research. Top earners often work in senior positions or in regions with high demand for nuclear expertise.

What engineers make $300,000 a year?

Senior nuclear power engineers, including nuclear Pra engineers, can earn $300,000 or more annually, especially with extensive experience, advanced certifications, and leadership roles in the industry. High salaries are often associated with specialized skills, working in large facilities, or managerial positions within the nuclear energy sector.

What are the key skills and qualifications needed to thrive as a Nuclear PRA Engineer, and why are they important?

To thrive as a Nuclear PRA (Probabilistic Risk Assessment) Engineer, you need a solid background in nuclear engineering, risk analysis, and quantitative modeling, typically supported by a relevant engineering degree. Familiarity with PRA software tools (such as SAPHIRE or RiskSpectrum), regulatory standards, and experience with nuclear safety analysis are essential. Strong analytical thinking, attention to detail, and effective communication skills help you interpret complex data and collaborate with multidisciplinary teams. These skills are crucial for ensuring nuclear facility safety, regulatory compliance, and risk mitigation.

What are Nuclear PRA Engineers?

Nuclear PRA (Probabilistic Risk Assessment) Engineers are specialists who analyze and assess the safety and risks associated with nuclear power plants and other nuclear facilities. They use advanced modeling techniques to estimate the likelihood and consequences of potential failures or accidents. Their work helps ensure that nuclear facilities operate within safe limits and comply with regulatory requirements. Nuclear PRA Engineers collaborate with other engineers, safety analysts, and regulatory bodies to support decision-making and improve plant safety. Their analyses are essential for both the design and ongoing operation of nuclear facilities.

What is the difference between Nuclear Pra Engineer vs Nuclear Reactor Operator?

AspectNuclear Pra EngineerNuclear Reactor Operator
CredentialsEngineering degree, NRC licensingReactor Operator license, NRC certification
Work EnvironmentDesign, safety analysis, regulatory complianceOperating and monitoring reactors
Industry UsageDesign, safety, and regulatory roles in nuclear facilitiesDay-to-day reactor operation and control

The Nuclear Pra Engineer focuses on safety analysis, design, and regulatory compliance within nuclear facilities, often working on project development and safety assessments. In contrast, Nuclear Reactor Operators are responsible for the real-time operation and control of nuclear reactors, ensuring safe and efficient plant operation. Both roles require NRC licensing but differ in daily responsibilities and focus areas.

What are some common challenges faced by Nuclear PRA Engineers when performing risk assessments, and how can they be addressed?

Nuclear PRA (Probabilistic Risk Assessment) Engineers often encounter challenges such as managing large volumes of complex plant data, integrating new regulatory requirements, and communicating technical findings to non-technical stakeholders. Addressing these challenges typically involves using advanced data management tools, staying updated with industry standards (like those from the NRC or ASME), and developing clear reporting and presentation skills. Collaboration with multidisciplinary teams—including operations, safety analysis, and regulatory affairs—is essential for ensuring comprehensive assessments and successful project outcomes.

Can you make $500,000 as a Nuclear Engineer?

Earning $500,000 as a Nuclear Engineer is possible but uncommon; such high salaries typically require extensive experience, advanced certifications, management roles, or working in specialized industries like nuclear power plant management or consulting. Most nuclear engineers earn between $80,000 and $150,000 annually, depending on location, education, and experience. Reaching a $500,000 salary usually involves senior positions or additional responsibilities beyond entry-level roles.

What engineers make $500,000?

Senior nuclear power engineers, especially those with extensive experience, advanced certifications, and leadership roles in the energy industry, can earn salaries around or exceeding $500,000 annually. High compensation often reflects specialized skills, management responsibilities, and working in high-demand or high-cost regions.
Infographic showing various Nuclear Pra Engineer job openings in the United States as of June 2026, with employment types broken down into 1% Locum Tenens, 77% Full Time, 6% Part Time, 15% Contract, and 1% Nights. Highlights an 87% Physical, 5% Hybrid, and 8% Remote job distribution, with an average salary of $135,726 per year, or $65.3 per hour.

PRA Engineer

Aalo Atomics

Austin, TX • On-site

Full-time

Posted 28 days ago

Job description

About Aalo Atomics
Aalo Atomics is pioneering a new era in clean energy with factory-fabricated microreactors designed to deliver affordable, scalable, and reliable nuclear power. Our mission is to make nuclear energy globally accessible, starting with the Aalo-1, a 10 MWe reactor leveraging cutting-edge safety, modularity, and efficiency. Based in Austin, TX, we're rapidly growing as we work to deploy the world's first fleet of advanced microreactors. Join us and help revolutionize energy for a sustainable future.
About the role
Aalo Atomics is seeking a highly motivated and experienced Probabilistic Risk Assessment (PRA) Engineer to join our dynamic team focused on the design, licensing, and deployment of cutting-edge nuclear reactor technologies. In this critical role, you will be instrumental in developing and applying PRA models to inform reactor design, support licensing applications, and ensure the highest standards of safety and reliability for our advanced reactor projects. Your work will directly contribute to establishing a robust safety case and maintaining continuous compliance with regulatory requirements.
What you'll do
  • PRA Model Development & Application:
    • Develop, update, and maintain comprehensive PRA models for our advanced reactor designs, addressing all relevant initiating events, plant operating states (POSs), and hazard groups, including internal events, internal and external floods, internal fires, seismic events, high winds, and other external hazards.
    • Systematically enumerate event sequences and assess their frequency and consequences, including contributions from common-cause failures.
    • Define PRA Safety Functions (PSFs) and identify associated Structures, Systems, and Components (SSCs) critical for preventing or mitigating radioactive material releases.
    • Apply PRA to evaluate safety characteristics and provide structured inputs for the selection and classification of Licensing Basis Events (LBEs) (Anticipated Operational Occurrences, Design Basis Events, Beyond Design Basis Events).
    • Utilize PRA to inform performance targets for SSC capability and reliability.
  • Licensing & Regulatory Support:
    • Prepare and submit PRA documentation and results to support various licensing applications, including Construction Permits (CP), Operating Licenses (OL), Combined Licenses (COL), and Design Certifications (DC).
    • Ensure PRA scope, level of detail, and quality are consistent with regulatory guidance and the specific design stage of the plant.
    • Develop methodologies for determining site characteristics, external hazard assessments, and off-site radiological dose projections.
    • Address PRA needs related to specific regulatory requirements such as 10 CFR 50.71(h).
  • Quality & Assurance:
    • Participate in PRA peer reviews and self-assessments in accordance with NRC-endorsed standards (e.g., ASME/ANS Advanced Non-LWR PRA Standard, NEI 20-09) to ensure technical adequacy and fidelity to the as-designed and as-operated plant.
    • Implement and maintain a robust PRA configuration control program to ensure the PRA model accurately reflects design evolution, plant modifications, and operational practices.
    • Identify and evaluate uncertainties and assumptions in PRA models.
  • Cross-Functional Collaboration:
    • Work closely with design engineers to define SSC safety functions for PRA modeling and to confirm consistency with planned design and operational practices.
    • Collaborate with Human Factors Engineering (HFE) teams on Human Reliability Analysis (HRA) and operator actions.
    • Support the development of procedures and training programs by providing PRA insights.
Qualifications
Required
  • Education:
    • Bachelor's degree in Engineering, Science, or Mathematics from an accredited institution.
  • Experience:
    • Minimum of five (5) years of relevant experience in Probabilistic Risk Assessment (PRA) within the nuclear power industry.
    • Demonstrated experience in performing or managing at least one PRA study for a nuclear plant or design.
    • Familiarity with the ASME/ANS PRA Standard for Advanced Non-Light Water Nuclear Power Plants (ASME/ANS RA-S-1.4-2021) and its application.
    • Knowledge of U.S. nuclear regulatory guidelines and requirements pertaining to PRA (e.g., 10 CFR 50, 10 CFR 52, RGs 1.233, 1.247).
    • Experience in internal events, internal and external hazards, and plant operating states analysis.

Preferred
  • Advanced degree (M.S. or Ph.D.) in Nuclear Engineering or a related field.
  • Experience in performing PRA peer reviews or self-assessments.
  • Familiarity with Human Factors Engineering (HFE) principles and their integration with PRA.
  • Experience with risk-informed applications (e.g., risk-informed technical specifications, inservice inspections).

Core Competencies
  • Strong problem-solving and analytical skills.
  • Ability to work independently and within multi-disciplinary teams.
  • Adaptability in a fast-paced, evolving R&D environment.
  • Commitment to quality assurance (NQA-1), safety culture, and regulatory compliance.

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