Design of a Manned eVTOL Aircraft using Cycloidal Rotors

SM-2026-VLADA-5194

1/27/2026

Authors
Abstract
Content

This paper discusses the design of a 2000-lb manned eVTOL aircraft propelled by a novel cycloidal rotor propulsion system. To systematically evaluate the performance of the proposed configuration, a coupled trim model was developed to quantitatively evaluate the performance of the configuration across a range of forward flight speeds. The trim framework integrates an efficient physics-guided neural-network-based aerodynamic model for cycloidal rotor performance with a vehicle-level dynamic response model. This framework is used to conduct a systematic parametric study to identify key cycloidal rotor and airframe design parameters. The selected configuration is verified using high-fidelity CFD simulations, and a detailed structural design, powertrain design, and CAD model of the aircraft is developed. In addition to CFD validation, the proposed cycloidal rotor underwent structural optimization to confirm the validity of such a concept at this scale. The results demonstrate that the cycloidal rotors provide a viable propulsion alternative for eVTOL aircraft with strong potential to overcome limitations of existing configurations.

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Pages
18
Citation
Fardin, N., Halder, A., Brown, C., and Benedict, M., "Design of a Manned eVTOL Aircraft using Cycloidal Rotors," Vertical Lift Aircraft Design and Aeromechanics Specialists Conference, San Jose, California, Jan 2026, San Jose, California, January 27, 2026, .
Additional Details
Publisher
Published
Jan 27
Product Code
SM-2026-VLADA-5194
Content Type
Technical Paper
Language
English