WIND TUNNEL
Aerodynamic tool for research, education and Fun
Design and manufacture of fluid dynamics equipment, both custom and ready-made.
Those are the tools that help bring bold ideas to life by making it easier to explore and understand how air moves.
custom design
high quality
We provide tailored CFD analysis and aerodynamic calculations designed specifically for your unique requirements. Every project gets the personalized attention it deserves.
We take special care with every detail—from precision geometry to aerospace-grade honeycomb construction and state-of-the-art data acquisition systems. Professional results demand professional tools.
versatile
Available in multiple sizes with various specifications and accessories to seamlessly integrate with your laboratory setup. Whether you're working in a university research facility or a startup garage, we'll configure the right solution for your space and needs.
The Aviation Revolution is Here
Right now, creative minds everywhere are working on the next big breakthrough in flight. Companies are developing next-generation aircraft, eVTOLs, and conventional takeoff and landing vehicles. Engineers are perfecting delivery drones and cargo drones that could transform how we move goods around the world. We're living through a golden age of aviation, with new possibilities opening up every day.
​But here's the challenge: while digital tools have leaped forward, experimental aerodynamics and validation tools are still stuck decades in the past. There's a huge gap between what we can simulate on screen and what we can actually test in the real world.
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A massive wave of innovation is coming, and we're ready for it. We're here to provide the wind tunnels that can keep pace with this momentum—giving innovators the experimental tools they need to turn their bold digital designs into real-world breakthroughs.
Precise Results
Expert Team
Our team brings serious academic credentials to every project. With PhDs and Post-PhDs in aerodynamics and aeronautics, plus years of experience as professors in the field, we understand both the theory and the practical challenges of creating optimal airflow.
Knowledge
Why does this matter? Because the quality of your data depends entirely on the quality of the airflow. Minor turbulence or flow irregularities that might seem insignificant can throw off your entire experiment. Our academic background means we know exactly what to look for and how to eliminate these issues before they affect your results.
Precision
When you're testing the next breakthrough in aviation. You need airflow that's been thoughtfully designed and validated by people who've spent their careers understanding how air moves—and how to make it move exactly the way your research demands.
Custom engineering
With our team's academic background, we bring decades of experience in curated scientific procedures and methodologies. We know how to structure test sequences, identify the right parameters to measure, and design experiments that give you clear answers to your specific questions.
sizes, aplications,
Model: M01-25-140M
30 Hp, 46 m/s (100 mi/h) and a test section optimized for aircraft testing 0,6 x 0,4 m x 1,5 m length
This image, shows a real word application, where a research project optimized the aerodynamics of a metro train. the wind tunnel was used to validate the CFD simulations., link to the news
This is a drone where we tested how the wings were shaped and twisted to make sure it could fly at steep angles while the pilot could still control it properly.
The green image shows a special testing technique using china clay—a thick, paint-like mixture that dries quickly. When we spread it on the wing, the airflow creates patterns that show us exactly how the air is moving over the surface. You can actually see the swirling air (called vortices) and where the airflow stays smooth and attached to the wing.
CFD simulation
Full size testing
Wind Tunnel Testing
Operations at SKRG airport
We also used the wind tunnel to validate CFD simulations of a patent-pending jet blast deflector. After that, we built the full-size design and tested it with an Airbus A330F. Two firefighting trucks sprayed water to simulate jet blast, and we used several instruments to measure wind speed, aerodynamic forces, structural loads, and deformation.
Model: M-03-3
3 Hp, 30 m/s (100 mi/h) and a test section optimized for fluid mechanics 0,3 x 0,3m.
Savonius VAWT test bench, with dynamometer, RPM. static/dynamic torque sensors
F-16 with smoke generator, aerodynamic shape and wing with endplates
Contact us
1801 s treasure Dr. Suite 128 North Bay Village Fl USA