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Aerospace Cfd Engineer Jobs (NOW HIRING)

Bachelor's or Master's Degree in Mechanical Engineering, Nuclear Engineering, Aerospace Engineering, or a related field. * 3+ years of experience in CFD modeling and simulation, preferably in the ...

CFD Propulsion Research Engineer Company: Altus Engineering Location: Aberdeen Proving Ground, MD ... Qualifications/Desired Skills: • Bachelor's degree in Mechanical Engineering, Aerospace ...

CFD Analyst

Winston Salem, NC · On-site

$44 - $47/wk

Up to $47/hr and time and a half for overtime hours Education & Experience - Bachelor's Degree in Mechanical or Aerospace Engineering. - 2 + years of experience in CFD. - Experience in automotive ...

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CFD Analyst

High Point, NC · On-site

$47/hr

... Aerospace Engineering. - 2+ years of experience in CFD. - Experience in automotive cooling airflow, thermal management and aerodynamics is considered a plus. - Strong background in fundamentals of ...

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Bachelor's degree in Aerospace or Mechanical Engineering, or equivalent experience * Typically, 9+ ... Experience modifying CFD solvers or coupling them for multi-physics simulations * Experience with ...

Our customers include leading innovators in Aerospace & Defense, Materials, Energy, Semiconductors ... Continuously improving engineering best practices, adapting CFD model setups and outputs to support ...

We have an exciting opportunity for a CFD Analysis Engineer to join our ESSCA contract team at NASA Marshall Space Flight Center in Huntsville, AL. If selected you will: • Generate meshes for ...

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Aerospace CFD Engineer information

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$11K

$93K

$132K

How much do aerospace cfd engineer jobs pay per year?

As of Jul 2, 2026, the average yearly pay for aerospace cfd engineer in the United States is $93,015.00, according to ZipRecruiter salary data. Most workers in this role earn between $85,500.00 and $110,000.00 per year, depending on experience, location, and employer.

What is the difference between Aerospace Cfd Engineer vs Aerospace Design Engineer?

AspectAerospace Cfd EngineerAerospace Design Engineer
Primary FocusComputational fluid dynamics simulations and analysisDesign and development of aerospace components and systems
Required SkillsCFD software, fluid mechanics, aerodynamicsCAD tools, structural analysis, design principles
Work EnvironmentResearch labs, simulation centers, aerospace companiesDesign offices, engineering teams, manufacturing facilities
Common CertificationsABET accreditation, CFD software certificationsABET accreditation, CAD certifications

While both roles are integral to aerospace engineering, an Aerospace Cfd Engineer specializes in fluid dynamics simulations to optimize aerodynamics, whereas an Aerospace Design Engineer focuses on creating and refining aerospace components and systems. Both roles often collaborate but have distinct technical focuses within the industry.

What are Aerospace CFD Engineers?

Aerospace CFD (Computational Fluid Dynamics) Engineers are professionals who use computer simulations to analyze and solve problems related to fluid flow, heat transfer, and aerodynamics in aerospace applications. They develop and run complex models to predict how air flows around aircraft, spacecraft, or related components to optimize performance and ensure safety. Their work supports the design and improvement of structures such as wings, fuselages, and propulsion systems. Aerospace CFD Engineers typically work with specialized software and collaborate with multidisciplinary teams to validate and interpret simulation results. This role requires a strong foundation in fluid dynamics, mathematics, and computer programming.

What are the key skills and qualifications needed to thrive as an Aerospace CFD Engineer, and why are they important?

To thrive as an Aerospace CFD Engineer, you need a strong background in fluid dynamics, thermodynamics, and numerical methods, typically supported by a degree in aerospace or mechanical engineering. Proficiency with CFD software such as ANSYS Fluent, OpenFOAM, and experience in programming languages like Python or MATLAB are essential, along with knowledge of high-performance computing. Strong analytical thinking, problem-solving abilities, and effective communication skills help you interpret results and collaborate with multidisciplinary teams. These skills are crucial for delivering accurate simulations, optimizing designs, and ensuring the success of complex aerospace projects.

How does an Aerospace CFD Engineer typically collaborate with other engineering teams during a project?

Aerospace CFD Engineers frequently work alongside structural, propulsion, and systems engineers to ensure aerodynamic designs meet performance and safety requirements. They collaborate by sharing simulation results, participating in design reviews, and integrating feedback from various disciplines. Effective communication and teamwork are crucial, as CFD findings often influence design decisions and require coordination for testing and validation. This collaborative environment fosters a well-rounded approach to solving complex aerospace challenges.
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What states have the most Aerospace Cfd Engineer jobs? States with the most job openings for Aerospace Cfd Engineer jobs include:

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Posted 15 days ago


Job description

About Valar Atomics

At Valar Atomics, we're redefining what's possible in energy. Our mission is to make clean, high-temperature nuclear power scalable-unlocking abundant energy for industry, hydrogen, and next-generation manufacturing. We are a team of builders, engineers, and operators who believe nuclear energy should be fast to deploy, factory-made, and built for the real world. Our first pilot plant in Orangeville, Utah will demonstrate how advanced nuclear systems and fuel fabrication can power the future. Joining Valar Atomics means becoming part of a company where autonomy, ownership, and impact exist at every level.

The Role

At Valar Atomics, we are seeking a Computational Fluid Dynamics (CFD) Analyst to lead advanced fluid flow and thermal simulation efforts for next-generation nuclear systems. In this role, you will develop high-fidelity CFD models that support reactor design optimization, system performance evaluation, and safety analysis. You will work closely with engineering teams to solve complex thermal-fluid challenges, validate analytical methods, and help advance innovative nuclear technologies from concept through deployment.

Key Responsibilities 

  • Develop and validate CFD models for nuclear reactor systems, including thermal-hydraulic and fluid dynamics simulations using tools such as ANSYS Fluent (Preferred).
  • Perform geometry pre-processing, mesh generation, turbulence modeling, and multiphase flow analysis to ensure accurate representation of complex physical phenomena.
  • Integrate CFD results with experimental data and system-level models to improve predictive accuracy and reliability.
  • Leverage AWS or other cloud platforms for large-scale simulations and computationally intensive analyses.
  • Collaborate with cross-functional teams to define CFD requirements and incorporate insights into design and testing processes.
  • Prepare and present technical reports and visualizations to stakeholders, clearly communicating simulation results and recommendations.

You Will Be Successful in This Role If

  • Apply strong technical expertise in fluid dynamics, heat transfer, and simulation methods to solve complex engineering problems.
  • Develop accurate, high-quality CFD models that provide actionable insights for design improvements and performance optimization.
  • Collaborate effectively with mechanical, nuclear, and systems engineers to integrate simulation results into real-world hardware development.
  • Communicate complex findings clearly through concise reports, visualizations, and technical recommendations.
  • Demonstrate curiosity and ownership by exploring innovative modeling approaches, validating assumptions, and continuously improving analysis methods.

Basic Qualifications 

  • Bachelor's or Master's Degree in Mechanical Engineering, Nuclear Engineering, Aerospace Engineering, or a related field.
  • 3+ years of experience in CFD modeling and simulation, preferably in the energy or nuclear sector.
  • Proficiency in ANSYS Fluent (Preferred) or similar CFD tools.
  • Solid understanding of heat transfer, fluid mechanics, and numerical methods.
  • Experience in performing thermal-fluid analysis, turbulence modeling, and simulation optimization.
  • Ability to work independently and as part of a multidisciplinary team.

Preferred Skills and Experience 

  • Experience with cloud-based simulation workflows (e.g., AWS).
  • Familiarity with model-based systems engineering (MBSE) principles.
  • Knowledge of nuclear industry safety protocols and regulatory requirements
  • Previous experience in the nuclear industry and familiarity with High Temperature Gas Cooled Reactors (HTGRs).
  • Experience with multi-physics simulations (for example conjugate heat transfer, radiation, or fluid-structure interaction) is advantageous.

What We Offer  

  • Competitive base salary 
  • Equity ownership in a rapidly growing advanced energy company 
  • Comprehensive medical benefits 
  • Free daily lunch and dinner provided onsite 
  • High-impact startup environment with significant ownership and autonomy 
  • Opportunities for rapid career growth and internal advancement 
  • Direct collaboration with experienced operators, engineers, and industry leaders 
  • The opportunity to help build and scale transformative energy technology from the ground up

Equal Employment Opportunity Statement

Valar Atomics is an equal opportunity employer. We consider all qualified applicants without regard to race, color, religion, sex, gender identity, sexual orientation, national origin, age, disability, veteran status, or any other protected status under applicable law.

We are committed to providing a workplace free of discrimination and harassment and will provide reasonable accommodation as required by law.

Applicants must be legally authorized to work in the United States as a U.S. citizen or lawful permanent resident (green card holder).