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Probabilistic Risk Assessment Engineer Jobs in Oregon

Provide weather analysis to support wildfire risk assessments including development or refinement ... Thorough understanding of various probabilistic and ensemble forecasting methodologies, with ...

... assessment for Concora Credit, the General Purpose credit business. This role will manage the ... Advanced degree in Statistics, Econometrics, Mathematics, Engineering, Financial Engineering ...

... assessment for Concora Credit, the General Purpose credit business. This role will manage the ... Advanced degree in Statistics, Econometrics, Mathematics, Engineering, Financial Engineering ...

... assessment for Concora Credit, the General Purpose credit business. This role will manage the ... Advanced degree in Statistics, Econometrics, Mathematics, Engineering, Financial Engineering ...

... assessment for Concora Credit, the General Purpose credit business. This role will manage the ... Advanced degree in Statistics, Econometrics, Mathematics, Engineering, Financial Engineering ...

... risk assessment. Leads team that identifies, develops, and partners to execute high-level Risk ... Demonstrated knowledge of Risk Control/Risk Engineering, insurance operations, legal, and ...

... engineering customized solutions, and delivering measurable results that protect their people ... Lead comprehensive risk assessments and audits across wood products manufacturing, construction ...

OR ยท On-site

We are seeking a highly skilled and results-oriented AI Security Engineer to support the ... Conducts structured Threat Modeling & Risk Assessment exercises for generative AI, RAG, and agent ...

We are looking for a detail-oriented Color Developer with a strong foundation in textile knowledge ... risk assessment skills. * Excellent detail orientation, reporting skills, and problem-solving ...

Cyber Security Engineer

OR ยท On-site +1

This role will support cybersecurity engineering, risk management, and security modernization ... Develop and maintain SSPs, POA&Ms, SOPs, risk assessments, control narratives, security diagrams ...

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Probabilistic Risk Assessment Engineer information

What are the key skills and qualifications needed to thrive as a Probabilistic Risk Assessment Engineer, and why are they important?

To thrive as a Probabilistic Risk Assessment Engineer, you need a solid background in mathematics, statistics, and engineering principles, generally supported by a degree in engineering or a related field. Familiarity with specialized software such as SAPHIRE, RiskSpectrum, or CAFTA, as well as industry-specific standards and certifications like ASME or NRC guidelines, is typically required. Strong analytical thinking, attention to detail, and effective communication skills are essential for interpreting complex data and presenting findings to diverse stakeholders. These skills and qualifications are crucial for accurately assessing risks, ensuring regulatory compliance, and supporting the safety and reliability of critical systems.

What is a Probabilistic Risk Assessment Engineer?

A Probabilistic Risk Assessment (PRA) Engineer is a professional who evaluates the likelihood and potential consequences of risks in complex systems, often in industries such as nuclear power, aerospace, or chemical processing. They use quantitative methods and statistical models to analyze possible failure scenarios and their impacts, helping organizations make informed decisions about safety and reliability. PRA Engineers play a crucial role in identifying vulnerabilities, recommending risk mitigation strategies, and ensuring compliance with regulatory standards. Their work helps minimize the chances of catastrophic failures and improves overall system safety.

How does a Probabilistic Risk Assessment Engineer typically collaborate with other engineering and safety teams during a project?

Probabilistic Risk Assessment Engineers frequently work in multidisciplinary teams, collaborating closely with safety engineers, systems engineers, and project managers to analyze and mitigate potential risks. They provide quantitative risk assessments that inform design decisions, operational procedures, and regulatory compliance efforts. Regular meetings and data-sharing sessions are common, ensuring that risk insights are integrated throughout the project lifecycle. This collaborative environment enables effective communication of complex risk scenarios and fosters a culture of safety and continuous improvement.

What is the difference between Probabilistic Risk Assessment Engineer vs Fault Tree Analyst?

AspectProbabilistic Risk Assessment EngineerFault Tree Analyst
CredentialsEngineering degree, certifications in risk analysis or reliabilityEngineering or technical background, certifications in fault tree analysis
Work EnvironmentIndustry settings like energy, aerospace, nuclear; risk modelingSafety analysis teams, engineering departments; fault tree development
Employer & Industry UsageUsed by utilities, aerospace, nuclear plants for risk assessmentUsed in safety engineering, accident prevention, reliability studies

Both roles focus on safety and risk analysis but differ in scope. Probabilistic Risk Assessment Engineers develop comprehensive models to quantify risks, while Fault Tree Analysts focus specifically on fault tree development to identify failure pathways. The roles often collaborate but serve distinct functions within safety and reliability teams.

What are popular job titles related to Probabilistic Risk Assessment Engineer jobs in Oregon? For Probabilistic Risk Assessment Engineer jobs in Oregon, the most frequently searched job titles are:
What job categories do people searching Probabilistic Risk Assessment Engineer jobs in Oregon look for? The top searched job categories for Probabilistic Risk Assessment Engineer jobs in Oregon are:
What cities in Oregon are hiring for Probabilistic Risk Assessment Engineer jobs? Cities in Oregon with the most Probabilistic Risk Assessment Engineer job openings:
Internship (Fuels Engineering)

Internship (Fuels Engineering)

NuScale Power, LLC

Corvallis, OR โ€ข On-site, Remote

$30/hr

Internship

This job post hasย expired today.ย Applications are no longer accepted.


Job description

At NuScale, diversity enhances our entrepreneurial, technological and philanthropic spirit. We strive to build an inclusive culture that celebrates individuality, which fuels our innovation and connects us closer to the global mission we serve: to provide a clean energy future for all humankind. NuScale is an equal opportunity employer and does not discriminate against otherwise qualified applicants on the basis of race, color, creed, religion, ancestry, age, sex, marital status, national origin, disability or handicap, or veteran status.

Pay for interns still completing an undergraduate degree will be paid an hourly wage of $25.00 per hour while those currently enrolled in a graduate program will receive an hourly wage of $30.00 per hour.

ELIGIBILITY: To be eligible, students must be enrolled in an accredited technical degree program or pursuing an advanced degree. Due to timeliness and our necessary compliance with obtaining government approved authorizations, consideration is limited to those students currently eligible to work in the United States per 10 CFR Part 810 rules, and we are unable to consider students authorized to work on F-1 or M-1 Visas.

POSITION SUMMARY:  The majority of our technical internships are ongoing throughout the academic year, with schedules that align with individual class schedules to ensure education remains a priority.  Interns will have the ability to increase to 40 hours/week during the summer.  Since we employ interns from all over the country, work may be fully remote, or we can accommodate those from local colleges and universities who prefer to work in either our Corvallis, OR or Houston, TX office locations.  The successful candidate will be currently enrolled in an accredited engineering program and will work in close collaboration with NuScale engineers to complete a range of general engineering efforts. These efforts may include preparation of engineering deliverables to support areas such as: Manufacturing & Procurement Engineering, Systems Engineering, Nuclear Analysis & Thermal-Hydraulics, Refueling & Remote Handling, Civil/Structural Engineering, Radiological Engineering, NSSS System Analysis, NSSS Component Engineering, NSSS Piping & Integration, and Research & Development (R&D). This position requires self-motivated students skilled at working and learning through remote platforms (e.g., video, phone, email).

EXAMPLE ESSENTIAL DUTIES AND RESPONSIBILITIES:

  1. Assist engineers in performing engineering studies, reports, drawings, calculations, and design documents in areas including probabilistic risk assessment, core design and reactor physics, core or system thermal-hydraulics, and fuel thermal-mechanical analysis and methods
  2. Evaluate, select, and apply standard engineering techniques, processes, and criteria in preparation of engineering deliverables
  3. Conduct analysis to support development of various Engineering methodologies and software
  4. Assist with the development of licensing reports as required for different regulatory processes
  5. Support supplier qualification, technical evaluations, and procurement documentation
  6. Assist in system requirements development and traceability
  7. Support interface control and configuration management activities
  8. Support design and analysis of refueling systems and fuel handling equipment
  9. Assist with seismic, structural, and anchorage analyses
  10. Perform finite element modeling and structural load assessments
  11. Support radiation protection analysis, dose modeling, source term development, radiological consequence analysis
  12. Support design and qualification of reactor pressure vessel internals and major components
  13. Evaluate system interactions and operational transients
  14. Assist with piping layout design and stress analysis
  15. Support pipe support and seismic qualification activities
  16. Support advanced reactor technology innovation initiatives
  17. Contribute to design improvements and performance optimization studies
  18. Use open, honest communications when managing work activities, ensuring clarity of task assigned and resulting high quality workmanship and an attention to detail
  19. Contribute to detailed instructions in the area of probabilistic risk assessment, nuclear analysis, and/or system thermal hydraulic analyses as lessons are learned and best practices are gained
  20. Effectively communicate with other technical and non-technical disciplines
  21. Perform other duties as assigned.

CORE COMPETENCIES: To perform the job successfully, the individual should demonstrate competencies in performing the essential functions of this position by performing satisfactorily in each of these competencies. 

  • Problem solving: Identifies and resolves problems in a timely manner, gathers and reviews information appropriately. Uses own judgment and acts independently; seeks input from other team members as appropriate for complex or sensitive situations.
  • Oral/written communication: Listens carefully and speaks clearly and professionally in all situations. Edits work for accuracy and clarity, is able to create, read and interpret complex written information. Ability to develop strong interpersonal networks within the organization.
  • Collaboration: Works well with other team members and is able to adapt to working with members across the NuScale organization.
  • Planning/organizing: Prioritizes and plans work activities, organizes personal and project timelines and deadlines, tracks project timelines and deadlines, and uses time efficiently.
  • Adaptability: Adapts to changes in the work environment, manages competing demands and is able to deal with frequent interruptions, changes, delays, or unexpected events.
  • Dependability: Consistently on time and at work, responds to management expectations and solicits feedback to improve performance.
  • Team Building: Capable of developing strong interpersonal networks and trust within the organization.
  • Safety Culture: Adheres to the NuScale Safety culture and is expected to model safe behavior and influence peers to meet high standards.
  • Quality Assurance: Commits to the understanding and implementation of quality assurance regulations, standards and guidelines of 10 CFR 50 Appendix B, 10 CFR 21, and NQA-1.

MINIMUM SKILLS, QUALIFICATIONS, AND ABILITIES:

  • Education: Currently enrolled in an accredited undergraduate or graduate engineering, or related degree program.
  • Experience: A minimum of two years advanced experience using MS Word, Excel, Adobe PDF. Ability to understand engineering concepts, principles, theories. Strong technical writing skills. Good communication, computer, presentation, and interpersonal skills. Exceptional organization skills and ability to manage complex projects with multiple work phases.
  • Preferred skills and/or experience include:
    • Technical writing and attention to detail
    • Critical reasoning and self-motivation to work hard and perform on the job
    • Time management, planning, organization
    • Positive attitude and enthusiasm about connecting with others to advance the NuScale technology
  • Industry Requirements: Eligible to work under Department of Energy 10 CFR Part 810.

PHYSICAL DEMANDS: The physical demands described here are representative of those that must be met by an employee to successfully perform the essential functions of this job. Reasonable accommodations may be made to enable individuals with disabilities to perform the essential functions.

  • Ability to understand and communicate clearly using a phone, personal interaction, and computers.
  • Ability to learn new job functions and comprehend and understand new concepts quickly and apply them accurately in a rapidly evolving environment.
  • The employee frequently is required; to sit and stand; walk; bend, use hands to operate office equipment; and reach with hands and arms. 
  • Ability to travel nationally and locally using common forms of transportation. 

Disclaimer: Employee(s) must perform the essential duties and responsibilities with or without reasonable accommodation efficiently and accurately without causing significant safety threat to self or others. The above statements are intended to describe the general nature and level of work being performed by employee(s) assigned to this classification.  They are not intended to be construed as an exhaustive list of all responsibilities, duties and/or skills required of all employees in this classification.