Empower Innovation with CFD Simulation

Computational Fluid Dynamics Services

We believe that every breakthrough starts with a great idea and the courage to innovate. With our CFD expertise, we distill complex fluid dynamics into clear, actionable insights that fuel your creativity and performance—so you can outpace the competition.

Computation Fluid Dynamics

Our CFD Simulation Expertise at a Glance

Our CFD services are here to make your engineering vision reality. Whether you are creating conceptual studies of new design, detailed product development, optimization, troubleshooting or redesign.

Can Your Design Thrive Under Real-World Conditions?

Without thorough CFD simulations, you risk missing hidden flow challenges that affect overall efficiency.

Are Your Designs Ready for High-Speed Performance?

We use advanced CFD tools to simulate aerodynamic behavior, including airflow, drag, and heat dissipation, to ensure aerospace structures are fit for purpose.

CFD Analysis for Aerospace and Defense

Can Your Product Perform Under Real-World Conditions?

Whether electronics or heavy machinery, our CFD analysis services detect inefficiencies, improve energy usage, and ensure durability—reducing costly physical prototyping.

Computational fluid dynamics for product development

Is Your System Ready for Marine Harsh Environment?

Using CFD simulation services, we model wave impacts, turbulence, and fluid-structure interactions to optimize your marine systems ready for harsh environments.

Computational fluid structure for marine structures

Can Your Product Perform Under Real-World Conditions?

Through CFD, we assess fluid flow, thermal performance, and cooling in industrial equipment to ensure your manufacturing processes are optimized for longevity.

Computational fluid dynamics for smart manufacturing

Key Clients

Case Study & Insights

Read our case studies to see how we identify inefficiencies, streamline processes, and boost operational performance.

Frequently Asked Questions

What is CFD and why is it important?
Computational Fluid Dynamics (CFD) is a simulation method to analyze the various physics of fluid dynamics. For example, if you’re designing an electronic enclosure, CFD can show how air circulates around components, pinpoint potential hotspots, and prevent overheating.

By identifying these issues virtually, you can optimize performance, reduce costly redesigns, and bring a more reliable product to market.

What software and platforms do you use for CFD analysis?

Our CFD experts use platforms like ANSYS fluent and CFX to model fluid-flow phenomena.

Do your simulations adapt to various industry regulations?

Simulations can detect issues like airflow blockages, heat buildup, or weak structures early on, but physical testing still plays a vital role in final validation. During our engineering discovery process, we often run both CFD and Finite Element Analysis (FEA) to catch design flaws before committing to manufacturing. Once virtual tests confirm feasibility, a single well-informed prototype typically suffices, rather than multiple trial-and-error builds.

How can CFD identify specific design flaws, such as hotspots, pressure drops or flow separations?

By mapping fluid flow and temperature gradients, CFD reveals areas of high pressure, recirculation, or overheating. This visualization helps you address potential flaws—like poor ventilation or tight flow passages—long before production ramps up.

How do you work with my engineering team to implement design changes from the CFD results?

We share detailed simulation outputs and recommend targeted changes to geometry or materials. Your team can then integrate these adjustments into the design, or we can iterate your design in house. 

Do you offer ongoing support?

We’re flexible. Some clients only need a single study to verify a concept. Others prefer a deeper partnership, where we refine designs across multiple iterations. In either case, our goal is to optimize your product as efficiently as possible.

How can CFD help in power electronics packaging?

Packaging refers to how components like capacitors, inductors, and heat sinks are arranged. Poor layout can lead to overheating, reduced efficiency, and component failure.

With CFD, we model airflow, temperature distribution, and enclosure constraints to optimize cooling strategies, minimize rework, and extend device lifespan.

Do your CFD simulations adapt to various industry regulations?

Absolutely. As a complete engineering and design firm, we diligently ensure that all designs, prototypes and deliverables comply or exceed industry regulations. Over the years, we have met the following standards/certifications:

Marine Classifications & Offshore Standards

  • ABS (American Bureau of Shipping)
  • DNV (Det Norske Veritas)
  • Lloyd’s Register

Safety & Automation Standards

  • CSA Z434 – Industrial Robot Safety
  • CSA Z432 – Machine Safeguarding
  • IEC 61508 – Functional Safety of Electrical/Electronic Systems
  • ISO 13849 – Safety of Machinery

Structural & Mechanical Standards

  • ISO, ASME, and API – Offshore and Marine Structures
  • ASME B31.3 – Process Piping
  • API 2A-WSD – Offshore Platform Design

Military & Defense Standards (MIL-SPECs)

  • MIL-STD-810 – Environmental Engineering Considerations for Military Equipment
  • MIL-STD-882 – System Safety
  • MIL-STD-461 – Electromagnetic Interference (EMI) Control
  • MIL-STD-1472 – Human Factors Engineering
  • MIL-S-901D – Shock Testing for Shipboard Equipment
  • MIL-DTL-31000 – Technical Data Packages
  • MIL-STD-167-1A - Mechanical Vibrations

If you are uncertain which regulations may apply to your project, please reach out to our team today.