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Aerospace Cfd Jobs (NOW HIRING)

AEROSPACE ENGINEER III

Hollywood, MD · On-site

$113K - $147K/yr

Proficiency in engineering software tools, such as CAD, FEA, and CFD. * Strong understanding of autopilots and methods for flight tuning. * Strong understanding of aerospace materials, structures ...

Staff Aerothermal CFD Engineer

Vista, CA · On-site

$161K - $221K/yr

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 ...

... aerospace, automotive, and industrial equipment. Advances in AI and machine learning are ... This role contributes to integrating these technologies into established CFD workflows in a ...

... Aerospace Engineering, Computer Science, or a related field • Experience in product management ... CFD (industry experience or advanced degree) • Experience with Navier-Stokes algorithms, RANS ...

New

Aerospace Analysis Engineer - CFD (Senior and Principal levels considered) The Aerospace Analysis Engineer - Computational Fluid Dynamics (CFD) is a key contributor who develops and executes high ...

Senior CFD Engineer

Austin, TX

$99K - $135K/yr

You'll own the CFD workflow end-to-end and turn simulations into clear trade studies and ... B.S. in Mechanical, Aerospace, or a related engineering field (M.S./PhD a plus) * Strong ...

Senior CFD Engineer

Austin, TX · On-site

$99K - $135K/yr

You'll own the CFD workflow end-to-end and turn simulations into clear trade studies and ... B.S. in Mechanical, Aerospace, or a related engineering field (M.S./PhD a plus) * Strong ...

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Aerospace Cfd information

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$11K

$93K

$132K

How much do aerospace cfd jobs pay per year?

As of Jul 14, 2026, the average yearly pay for aerospace cfd 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 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 engineering or a related field. Proficiency in CFD software such as ANSYS Fluent, OpenFOAM, or STAR-CCM+ and familiarity with programming languages like Python or MATLAB are commonly required. Analytical thinking, problem-solving, and effective communication are crucial soft skills for interpreting simulation results and collaborating with multidisciplinary teams. Mastering these skills ensures accurate simulations, effective design optimization, and successful project outcomes in the aerospace industry.

What are Aerospace CFD engineers?

Aerospace CFD (Computational Fluid Dynamics) engineers are professionals who use advanced computer simulations to analyze and predict how air and other fluids flow around aircraft, spacecraft, or related components. They apply mathematical models and numerical techniques to solve complex fluid dynamics problems, optimizing designs for performance, efficiency, and safety. These engineers play a vital role in the aerospace industry by reducing the need for expensive physical prototypes and wind tunnel tests, thus accelerating the development process. Their work supports innovations in aerodynamics, propulsion, and thermal management for a variety of aerospace applications.

What are some common challenges faced by Aerospace CFD engineers when working on simulation projects, and how can they be addressed?

Aerospace CFD engineers often encounter challenges such as handling complex geometries, ensuring simulation accuracy, and managing high computational costs. Accurately modeling turbulence and boundary layers is critical and can require advanced meshing techniques and validation against experimental data. Collaborating closely with design and test teams helps to refine models and interpret results effectively. Utilizing high-performance computing resources and staying updated with the latest CFD software developments can help address these challenges and improve simulation efficiency.

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

AspectAerospace CFDAerospace Aerodynamics Engineer
Required CredentialsBachelor's or Master's in Aerospace Engineering, CFD certificationsBachelor's or Master's in Aerospace Engineering, specialized in aerodynamics
Work EnvironmentSimulation labs, software development, research teamsDesign teams, wind tunnels, computational analysis
Industry UsageUsed across aerospace companies for fluid flow analysisApplied in aircraft and spacecraft design for aerodynamic performance

While both roles focus on fluid dynamics in aerospace, Aerospace CFD specialists primarily develop and run simulations to analyze airflow, whereas Aerospace Aerodynamics Engineers apply aerodynamic principles to design and optimize aircraft and spacecraft. CFD is a tool used within the broader scope of aerodynamics engineering, making the roles complementary but distinct in focus.

More about Aerospace Cfd jobs
What cities are hiring for Aerospace Cfd jobs? Cities with the most Aerospace Cfd job openings:
What states have the most Aerospace Cfd jobs? States with the most job openings for Aerospace Cfd jobs include:
Infographic showing various Aerospace Cfd job openings in the United States as of July 2026, with employment types broken down into 92% Full Time, 3% Part Time, 3% Contract, and 2% Nights. Highlights an 94% Physical, 2% Hybrid, and 4% Remote job distribution, with an average salary of $93,015 per year, or $44.7 per hour.
3D CFD Engineer- Engine Combustion (Converge, Ansa, Star-CCM+)

3D CFD Engineer- Engine Combustion (Converge, Ansa, Star-CCM+)

Detroit Engineered Products

Auburn Hills, MI • On-site

Other

This job post has expired today. Applications are no longer accepted.


Job description

Job Description:
Position Overview:
The Senior Simulation Engineer will provide technical guidance to design teams and serve as an integral member of the propulsion development organization. This role is responsible for utilizing commercial and internal simulation tools to analyze propulsion components and systems, ensuring all functional objectives are met.
Key Responsibilities:
  • Analyze combustion system designs and concepts to achieve functional requirements through advanced simulation.
  • Build and exercise analytical models for internal combustion engines using commercial 3D CFD software tools such as Converge.
  • Provide component-level and system-level design recommendations to Design Responsible Engineers based on interpretation of analysis results.
  • Retrieve and modify CAD models of propulsion system components to support CFD model development.
  • Enhance current standard analysis practices and tools to improve prediction fidelity and execution speed, collaborating with method development teams.
  • Participate in product design and development teams, regularly presenting analysis results to engineering peers, Chief Engineers, and propulsion system management.
  • Document analysis objectives, results, conclusions, and assumptions using a standard report template.
  • Work cooperatively with test engineers to enhance laboratory procedures, supporting the development of first-time capable analysis techniques and reduction of physical testing.
  • Stay abreast of emerging technologies and competitive product developments.

Basic Qualifications:
  • Master of Science degree in Mechanical Engineering, Chemical Engineering, Aerospace/Aeronautical Engineering, or Applied Physics.
  • Minimum 5 years of experience in CFD simulations on propulsion systems, with a focus on combustion system development.
  • Proficiency with engineering analysis tools for propulsion systems modeling and simulation (e.g., Converge, Ansa, Star-CCM+).
  • Excellent verbal and written communication skills.
  • Demonstrated technical problem-solving ability.

Preferred Qualifications:
  • Ph.D. in Mechanical Engineering, Chemical Engineering, Aerospace/Aeronautical Engineering, or Applied Physics.
  • Strong overall knowledge of propulsion system technologies and corresponding energy transformation systems.
  • Specialized experience in combustion system and combustion system simulations.
  • Proficiency in programming with commercial software (e.g., MATLAB Simulink, Visual Basic, Visual C++).
  • Demonstrated record of applied knowledge leading to design or process improvements.