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Aerospace Ansys Fluent Jobs (NOW HIRING)

Analogdevices

Mechanical Design Engineer

Chelmsford, MA · Hybrid

$79K - $107K/yr

Mechanical Design Engineer Aerospace and Defense ADI's Aerospace and Defense (ADEF) business is ... Ansys Fluent. Steady-state and transient thermal analysis from the IC gate level to rack-sized ...

Analog Devices

Mechanical Design Engineer

Chelmsford, MA · On-site

$79K - $107K/yr

Mechanical Design Engineer Aerospace and Defense ADI's Aerospace and Defense (ADEF) business is ... Ansys Fluent. Steady-state and transient thermal analysis from the IC gate level to rack-sized ...

REPKON USA

Finite Elemental Analyst

Clearwater, FL

... ANSYS LS-Dyna, ANSYS Fluent, Siemens Simcenter, Nastran/Patran, or ABAQUS (ANSYS Preferred ... Defense or Aerospace industry experience including military design and testing standards such as ...

New

Optimal Inc.

CFD Engineer

Warren, MI · On-site

... Aerospace Engineering, Chemical Engineering, Applied Mathematics, or a related field. Strong ... Experience with Flow-3D, ANSYS Fluent, OpenFOAM, STAR-CCM+, or similar CFD software. Expertise in ...

Optimal Inc.

CFD Engineer

Warren, MI · On-site

... Aerospace Engineering, Chemical Engineering, Applied Mathematics, or a related field. Strong ... Experience with Flow-3D, ANSYS Fluent, OpenFOAM, STAR-CCM+, or similar CFD software. Expertise in ...

Optimal Inc.

CFD Engineer

Embry Hills, GA · On-site

... Aerospace Engineering, Chemical Engineering, Applied Mathematics, or a related field. Strong ... Experience with Flow-3D, ANSYS Fluent, OpenFOAM, STAR-CCM+, or similar CFD software. Expertise in ...

Holtec International

Thermal Analyst

Camden, NJ · On-site

$120K/yr

Master's degree or foreign equivalent in Mechanical Engineering, Nuclear Engineering, Aerospace ... Experience with/demonstrated knowledge of MATLAB, Python, SolidWorks, ANSYS FLUENT, Workbench, and ...

Firehawk Aerospace Inc

Ballistician

Addison, TX · On-site

Firehawk Aerospace is a leading propulsion-focused aerospace and defense company located in Addison ... ANSYS Fluent. The selected candidate will be responsible for working with design engineers to ...

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How much do aerospace ansys fluent jobs pay per hour?

As of Jun 9, 2026, the average hourly pay for aerospace ansys fluent in the United States is $27.16, according to ZipRecruiter salary data. Most workers in this role earn between $20.67 and $28.12 per hour, depending on experience, location, and employer.

What is an Aerospace Ansys Fluent engineer?

An Aerospace Ansys Fluent engineer is a professional who specializes in using Ansys Fluent, a computational fluid dynamics (CFD) software, to analyze and simulate airflow, heat transfer, and fluid mechanics in aerospace applications. They help design and optimize components such as aircraft wings, jet engines, and spacecraft by predicting how air and other fluids behave under various conditions. Their work is crucial for improving performance, safety, and efficiency in aerospace engineering projects.

What is the difference between Aerospace Ansys Fluent vs Aerospace CFD Engineer?

AspectAerospace Ansys FluentAerospace CFD Engineer
Primary FocusSimulation and analysis of fluid dynamics using Ansys Fluent softwareDesign and optimization of aerospace components through computational fluid dynamics
Required SkillsProficiency in Ansys Fluent, CFD principles, aerospace engineeringCFD software skills, aerospace design, engineering analysis
Work EnvironmentEngineering firms, aerospace companies, simulation labsDesign teams, R&D departments, aerospace manufacturing
CertificationsEngineering degree, CFD training, Ansys certificationsEngineering degree, CFD experience, aerospace certifications

While both roles involve CFD and aerospace engineering, Aerospace Ansys Fluent specialists focus on using the Ansys Fluent software for fluid dynamics simulations, whereas Aerospace CFD Engineers apply CFD techniques broadly to design and optimize aerospace components. The roles often overlap but differ in software specialization and application scope.

How does an Aerospace Ansys Fluent engineer typically collaborate with cross-functional teams during simulation projects?

Aerospace Ansys Fluent engineers often work closely with multidisciplinary teams, including aerodynamicists, structural engineers, and manufacturing specialists. Collaboration usually involves sharing simulation results, discussing design constraints, and integrating feedback to refine computational models. Regular meetings and iterative review sessions are common to ensure the simulation outcomes align with project goals and regulatory requirements. Strong communication and documentation skills are essential for effectively conveying complex simulation data to non-specialist stakeholders.

What are the key skills and qualifications needed to thrive as an Aerospace Engineer specializing in Ansys Fluent, and why are they important?

To excel as an Aerospace Engineer specializing in Ansys Fluent, you need a solid background in fluid dynamics, thermodynamics, and aerospace engineering principles, often supported by a relevant degree. Proficiency in Ansys Fluent software, computational fluid dynamics (CFD) tools, and experience with CAD systems are typically required. Strong analytical thinking, attention to detail, and effective communication skills help you interpret simulation results and collaborate with multidisciplinary teams. These skills ensure accurate simulations, innovative solutions, and successful project outcomes in complex aerospace environments.
RESEARCH ENGINEER - SR. RESEARCH ENGINEER - Computational Combustion Engineer

RESEARCH ENGINEER - SR. RESEARCH ENGINEER - Computational Combustion Engineer

Southwest Research Institute - Fulltime

San Antonio, TX

$94K - $129K/yr

Full-time

Posted 5 days ago

Southwest Research Institute rating

8.8

Company rating: 8.8 out of 10

Based on 21 frontline employees who took The Breakroom Quiz

6th of 57 rated research

Job description

Who We Are: The Propulsion & Energy Machinery Section performs engineering R&D in the fields of gas turbine combustion, air-breathing propulsion, industrial heat and power, and liquid propulsion. Our technologies are powering a cleaner future and advancing state-of-the-art propulsion systems for air and space flight. Objectives of this Role: Support the development, analysis, and testing of power generation and propulsion systems, with a specific focus on combustion applications.

Engage in the development of advanced computational models to explore complex combustion phenomena, contributing to cutting-edge research in thermofluids, power generation, and propulsion systems. Utilize expertise in heat transfer, fluid dynamics, gas dynamics, and combustion processes to optimize designs and improve performance in power generation and propulsion systems. Leverage state-of-the-art Computational Fluid Dynamics (CFD) software, including Ansys Fluent, Converge, and OpenFOAM to simulate flow conditions and analyze combustion processes in power generation and propulsion systems.

Integrate experimental insights with simulation data to validate models and develop predictive capabilities for combustion processes in power generation and propulsion systems operating under extreme conditions. Daily and Monthly Responsibilities: Provide cross-disciplinary support to multiple projects within the field of combustion, focusing mainly on computational tasks. Conduct design, optimization, and validation of combustion processes using CFD.

Contribute to the design of combustion processes for power generation and propulsion systems. Assist in executing experimental test campaigns, including data acquisition, processing, and analysis, to support model validation. Be a problem solver that exercises creativity and independent judgement in developing approaches to address a wide range of technical challenges.

Requirements: Requires a Bachelors, Masters or a PhD in Mechanical Engineering, Aerospace Engineering, Chemical Engineering, or related engineering degree. 5 years relevant professional experience required with Bachelors degree, 3 years relevant professional experience required with Masters degree, and 1 year of related experience required with PhD. 1-5 years: Demonstrated experience in CFD simulations of thermofluids and combustion processes.

Experience with supersonic and/or hypersonic flow simulations is preferred but not required. 1-5 years: Experience in computationally-aided design of propulsion and power generation systems. Experience in designing system components is also valued.

1-5 years: Demonstrated proficiency in using CFD software such as Ansys Fluent, Converge, STAR-CCM+, or OpenFOAM for simulating and analyzing combustion processes. Experience with additional simulation tools is preferred but not required. Experimental experience with combustion processes and mechanical design is highly desirable but not mandatory.

MS or PhD degrees in engineering are preferred, but not required. Relevant degrees will also be considered. A valid/clear driver's license is required.

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