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Cfd Graduate Jobs (NOW HIRING)

$14.50 - $18.75/hr

In a graduate engineering program pursuing Biomedical, Biomechanical, Mechanical, or Computational Engineering * Medical Device Design and Prototyping * Computational Fluid Dynamics (CFD) and Fluid ...

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Aerothermal Engineer II

Long Beach, CA · On-site

$103K - $155K/yr

Proficiency in Python and industry-standard CFD tools like FUN3D and Star-CCM+, including use of HPC clusters Nice to Haves, but Not Required: * Graduate degree in engineering or related field * 5+ ...

Proficiency in Python and industry-standard CFD tools like FUN3D and Star-CCM+, including use of HPC clusters Nice to Haves, but Not Required: * Graduate degree in engineering or related field * 5+ ...

Advanced computational modeling (e.g., CFD)preferred * Computer programming languages (e.g., Dynamo ... Our graduate experience offers you: * Purpose-driven work: Join an employee-owned team tackling ...

... CFD) simulations. More information on Prof. Liselle Joseph and the PHASE research group can be ... graduate or undergraduate students Overtime Status Exempt: Not eligible for overtime Appointment ...

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Cfd Graduate information

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$11K

$93K

$132K

How much do cfd graduate jobs pay per year?

As of Jul 3, 2026, the average yearly pay for cfd graduate 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 a CFD Graduate, and why are they important?

To thrive as a CFD Graduate, you need a solid background in fluid dynamics, numerical methods, and a relevant engineering or science degree. Familiarity with CFD software such as ANSYS Fluent, OpenFOAM, or COMSOL, and proficiency in programming languages like Python or MATLAB, are typically required. Strong problem-solving abilities, attention to detail, and effective teamwork and communication skills are crucial soft skills for success. These skills and qualifications are essential for accurately simulating and analyzing fluid flows, contributing valuable insights to engineering projects, and collaborating within multidisciplinary teams.

What is the difference between Cfd Graduate vs Cfd Analyst?

AspectCfd GraduateCfd Analyst
Required CredentialsDegree in engineering, physics, or related field; basic knowledge of CFD softwareSimilar degree; additional certifications or experience preferred
Work EnvironmentEntry-level, training-focused, collaborative teamsMore independent, project-driven, client-facing
Employer & Industry UsageEngineering firms, research institutions, manufacturingConsulting firms, aerospace, automotive, energy sectors
Search & Comparison IntentUnderstanding entry-level roles, career pathJob responsibilities, experience requirements

The main difference between a Cfd Graduate and a Cfd Analyst lies in experience and responsibilities. A Cfd Graduate is an entry-level position focused on training and learning, while a Cfd Analyst is a more experienced role involving independent project work and client interaction. Both roles require similar educational backgrounds, but the analyst position typically demands additional experience and expertise.

What are CFD Graduates?

CFD Graduates are recent university graduates who specialize in Computational Fluid Dynamics (CFD), which involves using numerical analysis and algorithms to solve and analyze problems that involve fluid flows. They typically have backgrounds in fields such as mechanical engineering, aerospace engineering, or applied mathematics. CFD Graduates often work on simulations and modeling for industries like automotive, aerospace, energy, and environmental engineering. They use specialized software to predict how fluids behave under various conditions, contributing to product design, safety, and efficiency improvements.

What are some typical challenges faced by CFD Graduates in their first year, and how can they overcome them?

CFD Graduates often encounter steep learning curves when transitioning from academic theory to practical, real-world simulations. Common challenges include mastering complex simulation software, interpreting large datasets, and understanding the nuances of industry-specific workflows. To overcome these, it's helpful to proactively seek mentorship from experienced colleagues, participate in internal training sessions, and regularly review project feedback. Collaborating closely with multidisciplinary teams also accelerates learning and helps bridge gaps between theoretical knowledge and practical application.
More about Cfd Graduate jobs
What are the most commonly searched types of Cfd Graduate jobs? The most popular types of Cfd Graduate jobs are:
Infographic showing various Cfd Graduate job openings in the United States as of June 2026, with employment types broken down into 33% Full Time, and 67% Contract. Highlights an 93% Physical, 3% Hybrid, and 4% Remote job distribution, with an average salary of $93,015 per year, or $44.7 per hour.

Advanced Visualization Engineering Intern

Imh

On-site, Remote

$14.50 - $18.75/hr

Part-time

Posted yesterday


Job description

Job Description:

The Advanced Visualization Engineering Internship provides hands-on experience supporting Intermountain Health's IMPACT Center, a specialized engineering team focused on patient-specific care, advanced visualization, medical device development, digital healthcare innovation, and additive manufacturing technologies. Interns contribute directly to clinical and operational initiatives involving 3D printing, biomedical engineering, digital workflow transformation, medical imaging, patient-specific modeling, and emerging healthcare technologies.
This position is designed to provide meaningful real-world experience while supporting production, operational, research, and implementation activities across multiple clinical specialties. Preference will be given to Master's and PhD students pursuing Biomedical Engineering, Biomechanical Engineering, Mechanical Engineering, Computational Engineering, or closely related engineering disciplines with research or practical experience in computational modeling, fluid mechanics, cardiovascular modeling, medical devices, additive manufacturing, advanced visualization, or patient-specific healthcare technologies.

This position is on-site and is not eligible for hybrid or remote work.

Schedule: The position offers some flexibility up to 40 hours per week, with an expected commitment of 30-40 hours during standard business hours (8:00 AM - 5:00 PM). Occasional support outside standard hours, including holidays or weekends, may be required to support operational needs, production deadlines, or time-sensitive clinical requests.

*Preferred skills include:

  • 3D Printing, additive manufacturing, and CAD applied to anatomical simulation and modeling for patient specialized applications
  • In a graduate engineering program pursuing Biomedical, Biomechanical, Mechanical, or Computational Engineering
  • Medical Device Design and Prototyping
  • Computational Fluid Dynamics (CFD) and Fluid Mechanics research or practical experience

The Advanced Visualization Engineering Intern supports the IMPACT Center's clinical, operational, and innovation activities through participation in biomedical engineering, patient-specific care, advanced visualization, additive manufacturing, and digital healthcare initiatives. Interns work closely with engineers, clinicians, and operational stakeholders to support production workflows, research activities, quality processes, and implementation of new technologies.

Responsibilities may include support of advanced visualization and patient specific surgical planning, medical device development, digital impressions, 3D printing, post-processing, equipment maintenance, quality documentation, workflow optimization, and technology validation activities. Interns may also participate in research, development, and evaluation of emerging technologies, including computational modeling, biomechanics, fluid dynamics, advanced visualization, and patient-specific engineering applications.

Strong preference for candidates with research or practical experience in Computational Fluid Dynamics (CFD), fluid mechanics, cardiovascular modeling, biomedical analysis, additive manufacturing, engineering simulation, medical device development, or advanced design methodologies are encouraged to apply.

Job Essentials
  • Supports operational, production, and implementation projects across the Advanced Visualization Engineering program.
  • Assists with 3D printing, additive manufacturing, post-processing, equipment maintenance, quality documentation, and workflow execution activities.

  • Participates in eligible portions of the engineering initiatives under guidance.

  • Supports data collection, technical documentation, process improvement, validation, and quality management activities. Assists with evaluation and implementation of new technologies, workflows, and service offerings.

  • Participates in assigned projects related to biomedical engineering, computational modeling, additive manufacturing, CFD, or advanced visualization technologies.

  • Demonstrates accountability for assigned tasks, project deliverables, and timeline commitments.

  • Maintains accurate records, documentation, and operational procedures in accordance with department standards.

  • Actively participates in team knowledge-sharing activities.

Preferred Qualifications
  • Currently pursuing a Master's or PhD degree in Biomedical Engineering, Biomechanical Engineering, Mechanical Engineering, Computational Engineering, or a closely related engineering discipline
  • Research or practical experience in Computational Fluid Dynamics (CFD), fluid mechanics, cardiovascular modeling, or engineering fluids simulation
  • Experience with CAD software, 3D design, additive manufacturing, or rapid prototyping required
  • Experience with ANSYS, SimVascular, Materialise or similar engineering software preferred
  • Experience with medical device development, product design, validation, or quality systems preferred
  • Strong analytical, communication, and problem-solving skills
  • Interest in applying engineering principles to patient-specific care, medical devices, advanced visualization, healthcare innovation, and clinical technology development
Standing, Walking, Lifting

Location:

Vine Street Office Building

Work City:

Murray

Work State:

Utah

Scheduled Weekly Hours:

40

The hourly range for this position is listed below. Actual hourly rate dependent upon experience.

$7.25 - $999.99

We care about your well-being - mind, body, and spirit - which is why we provide our caregivers a generous benefits package that covers a wide range of programs to foster a sustainable culture of wellness that encompasses living healthy, happy, secure, connected, and engaged.

Learn more about our comprehensive benefits package here.

Intermountain Health is an equal opportunity employer. Qualified applicants will receive consideration for employment without regard to race, color, religion, age, sex, sexual orientation, gender identity, national origin, disability or protected veteran status.

At Intermountain Health, we usethe artificial intelligence ("AI") platform, HiredScore to improve your job application experience.HiredScore helps match your skills and experiences to the best jobs for you. WhileHiredScore assists in reviewing applications, all final decisions are made byIntermountain personnel to ensure fairness. We protect your privacy and follow strict data protection rules. Your information is safe and used only for recruitment. Thank you for considering a career with us and experiencing our AI-enhanced recruitment process.

All positions subject to close without notice.