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Biomedical Engineering Cfd Jobs (NOW HIRING)

Pilgrim

Mechanical Engineer

Redwood City, CA · On-site

S. in Mechanical Engineering (preferred) or related discipline (e.g., Materials, Biomedical ... Background in thermal management, airflow optimization, or CFD analysis. * Experience with DFM/DFA ...

Boom Supersonic

Build Engineer

Centennial, CO · On-site

$133K - $170K/yr

You probably have: * A degree in Mechanical, Aerospace, or Manufacturing Engineering - or ... You are equally comfortable talking to the machinist making your part as the CFD or FEA analyst who ...

Velo3D

Staff Mechanical Engineer

Fremont, CA · On-site

$175K - $200K/yr

... CNC, or Biomedical Manufacturing Equipment Design Engineering experience) * Experience in GD&T and quality detail drawing documentation. * Thermal Analysis, FEA, CFD, and simulation software.

Velo3D

Senior Mechanical Engineer

Fremont, CA

$145K - $170K/yr

... CNC, or Biomedical Manufacturing Equipment Design Engineering experience) * Experience in GD&T and quality detail drawing documentation. * Thermal Analysis, FEA, CFD, and simulation software.

Velo3D

Senior Mechanical Engineer

Fremont, CA · On-site

$145K - $170K/yr

... CNC, or Biomedical Manufacturing Equipment Design Engineering experience) * Experience in GD&T and quality detail drawing documentation. * Thermal Analysis, FEA, CFD, and simulation software.

Velo3D

Senior Mechanical Engineer

Fremont, CA

$145K - $170K/yr

... CNC, or Biomedical Manufacturing Equipment Design Engineering experience) * Experience in GD&T and quality detail drawing documentation. * Thermal Analysis, FEA, CFD, and simulation software.

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Biomedical Engineering Cfd information

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$41K

$94.8K

$140K

How much do biomedical engineering cfd jobs pay per year?

As of Jun 7, 2026, the average yearly pay for biomedical engineering cfd in the United States is $94,807.00, according to ZipRecruiter salary data. Most workers in this role earn between $74,500.00 and $116,000.00 per year, depending on experience, location, and employer.

What are some typical challenges biomedical engineers face when applying CFD techniques to medical device development?

Biomedical engineers using Computational Fluid Dynamics (CFD) in medical device development often encounter challenges such as accurately modeling complex biological flows, integrating patient-specific anatomical data, and validating simulations against experimental or clinical results. Collaborating effectively with clinicians and regulatory teams is crucial to ensure simulations are both scientifically robust and compliant with industry standards. Additionally, staying current with advancements in CFD software and best practices helps address evolving challenges in this rapidly growing field.

What is Biomedical Engineering CFD?

Biomedical Engineering CFD stands for Computational Fluid Dynamics in Biomedical Engineering. It refers to the use of computer simulations to analyze and model the behavior of fluids, such as blood or air, within biological systems or medical devices. This technology helps engineers and researchers understand complex fluid interactions in the body, optimize medical device designs, and predict how treatments will perform in real-life scenarios. CFD is crucial in areas like cardiovascular research, respiratory systems, and the development of implants or prosthetics.

What is the difference between Biomedical Engineering CFD vs Biomedical Engineering?

AspectBiomedical Engineering CFDBiomedical Engineering
Required credentialsBachelor's or Master's in Biomedical Engineering or related field; CFD certificationsBachelor's or Master's in Biomedical Engineering; some roles may require specialized certifications
Work environmentResearch labs, simulation centers, medical device companiesHospitals, research institutions, medical device firms
Employer and industry usageUsed in fluid dynamics modeling of blood flow, device designBroader industry including medical device development, healthcare

Biomedical Engineering CFD focuses on computational fluid dynamics simulations related to blood flow and medical devices, while Biomedical Engineering covers a wider range of healthcare technology, device design, and clinical applications. Both roles often share similar credentials and work environments but differ in their specific focus areas.

What are the key skills and qualifications needed to thrive as a Biomedical Engineering CFD specialist, and why are they important?

To thrive as a Biomedical Engineering CFD (Computational Fluid Dynamics) specialist, you need a solid background in biomedical engineering, fluid mechanics, and numerical modeling, typically supported by a relevant engineering degree. Expertise in CFD software such as ANSYS Fluent or COMSOL Multiphysics, alongside familiarity with programming languages like MATLAB or Python, is essential. Strong analytical thinking, problem-solving abilities, and effective communication skills set top performers apart in this role. These skills are crucial for accurately simulating biological flows, interpreting complex data, and collaborating with multidisciplinary teams to drive innovation in biomedical device design and research.
Infographic showing various Biomedical Engineering Cfd job openings in the United States as of May 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $94,807 per year, or $45.6 per hour.
Mechanical Engineer

Mechanical Engineer

Vantage Point Recruiting

Biddeford, ME

Full-time

Posted 22 days ago

Job description

SENIOR MECHANICAL ENGINEER to work from their South Maine office/production facility. The position reports to the Director of Engineering and Production and will focus on developing new designs and processes for advanced optics assemblies and systems for the biomedical market. The ideal candidate will be self-motivated with a passion for learning and staying current in their field, and will be excited to grow and shape the role in an innovative environment.

Permanent Location: So Maine

US Citizen or Green Card holds Only

  • Drive the conceptualization and detailed design of complex optomechanical systems using 3D CAD.
  • Perform advanced engineering analyses (FEA, CFD) and tolerance analysis (GD&T) to optimize designs for performance and manufacturability.
  • Serve as a key technical point of contact for customers, translating complex requirements into robust engineering specifications.
  • Manage the full prototyping lifecycle, from vendor management to hands-on assembly, integration, and alignment.
  • Lead root cause analysis to solve complex challenges related to system performance, assembly, and manufacturability.
  • Develop and execute comprehensive verification and validation (V&V) test plans to ensure product reliability and performance.
  • Generate detailed technical reports and ensure all design activities and documentation comply with ISO 13485 standards.
  • Provide critical engineering support during the design transfer to manufacturing, applying DFM/DFA principles.
  • Select and qualify advanced materials and manufacturing processes suitable for medical device applications.
  • Mentor junior engineers and provide technical guidance to cross-functional project teams.

Education: Bachelor's degree in Mechanical Engineering (Master's degree preferred).

Experience: experience in mechanical design and development, preferably in optics, photonics, or a related industry.

Skills and Abilities:

  • Requires a Bachelor's degree in Mechanical Engineering (or a related field) and product development experience, with medical device industry.
  • Expert-level proficiency in 3D CAD (SolidWorks preferred), with extensive experience in complex assemblies and advanced modeling techniques.
  • Deep expertise in core mechanical design principles (stress analysis, heat transfer, vibration) and mastery of GD&T (ASME Y14.5) for tolerance analysis.
  • Strong background in various manufacturing processes and experience using advanced engineering simulation tools to validate and optimize designs.
  • Proven experience with ISO 13485, FDA design control regulations, and risk management standards (ISO 14971) within a Quality Management System.
  • Demonstrated ability to lead major design efforts from initial concept through to successful product launch in a highly regulated environment.