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Electric cargo UAV solutions
RigiTech develops UAV solutions for the healthcare logistics market.
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Innovative multi-function components for RigiTech UAV with ANSYS CFD

Sector: AerospaceSpecialist field: Fluid mechanics

Fluid mechanics simulations help RigiTech to optimize their high-tech drones and develop innovative systems to increase reliability and range.

Summary

Task

Develop a multi-function pitot static system to measure airspeed and acts as an antenna cover. The design needs to fulfill the requirements of both systems.

Solution

The existing literature around the subject of pitot statics systems was used to design a CAD model. The latter was then tested under various conditions in Ansys Fluent. Eventually, the simulated results were compared to experimental results gathered during flight tests.

Customer benefits

RigiTech now ships their flagship drones with the novel pitot system developed thanks to CADFEM.

Project Details

Task

RigiTech develops innovative electric cargo UAV solutions for the healthcare logistics market. Traditionally, off the shelf UAV grade pitot static systems are prone to clogging due to dust and rain. In addition, their metallic build and slender shape represents a potential hazard for operators when using the UAV as an industrial logistics tool. The opportunity to merge this system into an existing antenna cover was used to develop a water resistant and easily changeable pitot static system. The new design needs to accurately measure the airspeed for different flow angle within the flight envelope, cover and protect the antenna, as well as meet the design requirements.

Comparison calibrated measurement vs custom pitot tube
To verify and calibrate the measured data of the custom pitot tube, the measurement was compared with a calibrated device.

Customer Benefit

Computational fluid dynamics greatly reduced the time to develop the pitot system by allowing various designs and parameters to be tested in little time. Further, it increases the success of the initial prototype, and less testing is required. This rapid iteration is a key part of developing novel product. Thanks to CADFEM, RigiTech achieved the following results:

  • Reductions in prototypes and flight tests
  • Determination of the flight envelope for the pitot static system
  • Validation of fuselage pitot interaction (low drag)
  • Develop multi-functional pitot static system for their Eiger drone which is now shipping to customers
Pressure distribution on fuselage and customised pitot tube
To calculate the air speed of the drone, the pressure is measured. With the help of CFD-Simulation, the measured pressure by the custom pitot tube can be simulated. Therefore, possible deviation through the wide range of the flight envelope can be determined in advanced.

Solution

The performance targets of the system were firstly defined, this includes a large angle of attack operating range, improved waterproofness and minimal size. Further, the flow disturbance should be minimized to fulfill the performance target.

Using the existing literature about this topic a design was developed. It was then tested with the fuselage at different angles of attack and yaw and addition to different protrusion lengths to understand the effects at play and compare these to the theory. Through iteration and CFD testing, an optimal design was decided on. Finally, actual flight testing was carried out to confirm the simulation results which were confirmed.

Images: © RigiTech

Engineering Services
Kevin Baur
+41 52 368 01 25
kevin.baur@cadfem.ch

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