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Computational Fluid Dynamics Engineer Jobs (NOW HIRING)

$14.50 - $18.75/hr

Computational Fluid Dynamics (CFD) and Fluid Mechanics research or practical experience The Advanced Visualization Engineering Intern supports the IMPACT Center's clinical, operational, and ...

Setup, run, and analyze complex 2D and 3D Computational Fluid Dynamics (CFD) models for various ... Work closely with design and test engineers to provide actionable insights derived from simulation ...

Own the development and validation of Computational Fluid Dynamics (CFD) and system-level thermal ... Proven experience as a Thermofluids Engineer (or similar analytical role) focusing on the ...

Mechanical Engineer

Wharton, NJ · On-site

$107K - $195K/yr

Setup, run, and analyze complex 2D and 3D Computational Fluid Dynamics (CFD) models for various ... Work closely with design and test engineers to provide actionable insights derived from simulation ...

Own the development and validation of Computational Fluid Dynamics (CFD) and system-level thermal ... Proven experience as a Thermofluids Engineer (or similar analytical role) focusing on the ...

Own the development and validation of Computational Fluid Dynamics (CFD) and system-level thermal ... Proven experience as a Thermofluids Engineer (or similar analytical role) focusing on the ...

CFD Engineer - Multiphase Flow (PhD Preferred) Job Summary We are seeking a CFD Engineer with ... Strong background in computational fluid dynamics, fluid mechanics, and numerical methods.

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Computational Fluid Dynamics Engineer information

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$11K

$93K

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How much do computational fluid dynamics engineer jobs pay per year?

As of Jul 8, 2026, the average yearly pay for computational fluid dynamics 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.

How does a Computational Fluid Dynamics Engineer typically collaborate with other engineering teams during a project?

Computational Fluid Dynamics (CFD) Engineers often work closely with multidisciplinary teams, such as mechanical, aerospace, and thermal engineers, to integrate simulation results into the overall design process. They regularly participate in design reviews, share simulation findings, and suggest design modifications based on fluid flow analyses. Effective communication is key, as CFD Engineers must translate complex simulation data into actionable insights for colleagues who may not have a CFD background. This collaborative environment fosters innovation and ensures that designs meet both performance and safety requirements.

What are Computational Fluid Dynamics Engineers?

Computational Fluid Dynamics (CFD) Engineers are specialists who use computer simulations and mathematical models to analyze and solve problems involving fluid flows, such as air, water, or gases. They apply principles of fluid mechanics, thermodynamics, and numerical methods to design and optimize products or processes in industries like aerospace, automotive, and energy. CFD Engineers use specialized software to create virtual models, run simulations, and interpret results to improve performance, efficiency, and safety. Their expertise helps reduce the need for physical prototypes, saving time and development costs.

What is the difference between Computational Fluid Dynamics Engineer vs Mechanical Engineer?

AspectComputational Fluid Dynamics EngineerMechanical Engineer
Required CredentialsBachelor's or Master's in Mechanical, Aerospace, or related fields; CFD certificationsBachelor's or Master's in Mechanical Engineering; Professional Engineer (PE) license optional
Work EnvironmentResearch labs, aerospace, automotive, energy sectors, primarily using simulation softwareManufacturing, design, testing, often involving CAD and physical prototyping
Industry UsageSpecialized in fluid flow analysis, heat transfer, and simulation tasksBroader engineering tasks including design, analysis, and manufacturing

While both roles require a strong engineering background, Computational Fluid Dynamics Engineers focus specifically on fluid flow simulations and analysis using specialized software, whereas Mechanical Engineers have a broader scope including design, manufacturing, and system integration. CFD Engineers often work within industries like aerospace, automotive, and energy, emphasizing simulation expertise.

What are the key skills and qualifications needed to thrive as a Computational Fluid Dynamics (CFD) Engineer, and why are they important?

To excel as a Computational Fluid Dynamics Engineer, you need a solid background in fluid mechanics, thermodynamics, and numerical methods, typically supported by a degree in mechanical, aerospace, or related engineering fields. Proficiency with CFD software such as ANSYS Fluent, OpenFOAM, and experience with programming languages like Python or C++ is highly valued, along with relevant certifications. Strong analytical thinking, problem-solving skills, and the ability to communicate complex concepts clearly set outstanding candidates apart. These skills and qualifications are essential for designing accurate simulations, interpreting data, and providing actionable engineering solutions in diverse industries.
More about Computational Fluid Dynamics Engineer jobs
What cities are hiring for Computational Fluid Dynamics Engineer jobs? Cities with the most Computational Fluid Dynamics Engineer job openings:
What states have the most Computational Fluid Dynamics Engineer jobs? States with the most job openings for Computational Fluid Dynamics Engineer jobs include:
Infographic showing various Computational Fluid Dynamics Engineer job openings in the United States as of July 2026, with employment types broken down into 2% Internship, 71% Full Time, 25% Part Time, 1% Temporary, and 1% Contract. Highlights an 70% Physical, 1% Hybrid, and 29% Remote job distribution, with an average salary of $93,015 per year, or $44.7 per hour.

Hydrodynamics / Fluid Dynamics Engineer - PEM Hydrogen Fuel Cell Syste

ARCK Energy Inc

San Jose, CA • On-site

$110K - $150K/yr

Full-time

Medical, Dental, Vision, Retirement, PTO

Posted 21 days ago


Job description

Job Posting: Hydrodynamics / Fluid Dynamics Engineer – PEM Hydrogen Fuel Cell Systems

Position Title: Hydrodynamics / Fluid Dynamics Engineer
Focus Area: Proton Exchange Membrane Fuel Cells / Low-Temperature Hydrogen Fuel Cell Systems
Experience Level: Minimum 3 years required; 5 years preferred
Education: Master’s degree or PhD preferred in Mechanical Engineering, Chemical Engineering, Aerospace Engineering, Fluid Mechanics, or a closely related field

About the Role

We are seeking a highly capable Hydrodynamics / Fluid Dynamics Engineer with strong expertise in the design, development, and operation of balance of plant systems for proton exchange membrane fuel cells (PEMFC).

The ideal candidate will have hands-on experience with fuel cell gas delivery BoP systems, including hydrogen gas distribution, air distribution with humidity control, and fuel cell cooling systems. This role requires a strong foundation in fluid dynamics, thermodynamics, heat and mass transfer, and practical system-level engineering for scalable hydrogen fuel cell platforms.

The selected candidate will support the design and optimization of fluid, gas, humidity, and thermal management systems for advanced low-temperature hydrogen fuel cell applications, including systems requiring the concurrent operation of multiple fuel cell stacks.

Key Responsibilities

Design, develop, and optimize balance of plant systems for PEM hydrogen fuel cell applications. Support the design of hydrogen gas distribution systems, air delivery systems, humidification systems, cooling loops, piping, manifolds, pumps, valves, compressors, sensors, and related BoP components. Apply fluid dynamics and hydrodynamics principles to control and optimize air flow rate, air pressure, hydrogen delivery, water management, and absolute humidity supplied to the fuel cell.

Perform fluid flow analysis, pressure drop calculations, thermal-fluid evaluations, and system-level performance optimization.

Support scaling of gas delivery and air management systems for higher power levels, including architectures requiring the simultaneous operation of multiple fuel cell stacks. Evaluate and improve fuel cell cooling systems, humidification strategies, reactant delivery, and thermal management performance. Work closely with engineering, product development, testing, and manufacturing teams to ensure designs are practical, reliable, safe, and scalable. Support prototype development, testing, validation, troubleshooting, and design iterations. Contribute to technical documentation, design reviews, engineering specifications, and system architecture decisions.

Required Qualifications

Minimum 3 years of professional experience in fuel cell balance of plant systems, fluid dynamics, hydrodynamics, or thermal-fluid system design.

Experience with PEM fuel cells, low-temperature hydrogen fuel cell systems, or related electrochemical energy systems.

Hands-on experience with fuel cell gas delivery BoP systems, including hydrogen gas distribution, air distribution, humidity control, and cooling systems.

Strong knowledge of fluid dynamics, including laminar and turbulent flow, pressure management, flow control, and humid air behavior. Ability to control and optimize air flow rate, air pressure, and absolute humidity in fuel cell reactant delivery systems. Understanding of thermodynamics, heat and mass transfer, transport phenomena, and system-level thermal-fluid design. Ability to translate theoretical fluid mechanics knowledge into practical engineering design for real-world fuel cell systems.

Graduate degree preferred in Mechanical Engineering, Chemical Engineering, Aerospace Engineering, Fluid Mechanics, or a related discipline.

Preferred Qualifications

Experience scaling fuel cell gas systems for higher power applications and multi-stack PEMFC operation.

Knowledge of PEMFC bipolar plate design and its relationship to reactant distribution, water management, pressure drop, and system performance. CFD or fluid simulation experience. Experience with pumps, valves, sensors, compressors, humidifiers, heat exchangers, cooling loops, and hydrogen system components.

Familiarity with CAD, system modeling, engineering analysis tools, and test validation methods. Knowledge of hydrogen safety practices and system design standards. Strong problem-solving ability and effective cross-functional communication skills Master’s degree or PhD with studies focused on fluid mechanics, including laminar and turbulent flow of humid air. Experience with thermodynamics, heat and mass transfer, electrochemistry, transport phenomena, and porous media flow.

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Preferred Candidate Profile

We are especially interested in candidates who:

Have completed graduate studies in Mechanical Engineering, Chemical Engineering, Fluid Mechanics, or a related technical field.

Have approximately 3–5 years of hands-on industry experience in hydrogen fuel cell systems, clean energy systems, or advanced electrochemical platforms.

Have designed, improved, or operated balance of plant systems for PEM fuel cells.

Understand the practical challenges of PEMFC systems, including hydrogen delivery, air and humidity management, cooling, water management, pressure control, and system efficiency.

Can support the development of scalable fuel cell systems for next-generation clean energy applications.

Why Join Us

This is an opportunity to work on advanced hydrogen fuel cell technology with real-world clean energy applications. The selected candidate will play a key role in designing, improving, and scaling critical fuel cell system architecture, including the balance of plant systems that enable reliable and efficient PEM fuel cell operation.

How to Apply

Interested candidates should submit their resume along with a brief summary of their experience in fluid dynamics, hydrodynamics, PEM fuel cell systems, balance of plant design, hydrogen gas delivery, air humidification, and thermal management systems.

Company Description

We are an innovative clean energy technology company focused on developing advanced hydrogen fuel cell systems for real-world industrial and commercial applications. Our work centers on next-generation low-temperature hydrogen fuel cell platforms, with an emphasis on performance, reliability, system efficiency, and scalable product design.