Litcius/Paper detail

Design of a Tiltwing Concept Vehicle for Urban Air Mobility

Siena Whiteside, Beau Pollard, Kevin Antcliff, Nikolas S. Zawodny, Xiaofan Fei, Christopher J. Silva, Glenn L Medina

2021NASA Technical Reports Server (NASA)12 citations

Abstract

NASA is establishing a fleet of conceptual air vehicle designs to support research and development for Urban Air Mobility (UAM). This fleet of vehicles will enable examination of the sensitivity of UAM vehicle designs to technology assumptions, identify key research and development needs for UAM aircraft, and provide the UAM community with reference vehicles that are publicly available and based upon known assumptions. To date, four six-passenger reference vehicles have been established: a quadrotor, a side-by-side, a lift-plus-cruise, and a quiet single main rotor helicopter; this paper adds a tiltwing vehicle to the fleet. This paper details the design process that was followed in order to establish the tiltwing vehicle in the fleet, including early conceptual design decisions, sizing and configuration trades, structural analyses, proprotor design and aeroacoustic predictions, and aerodynamic analyses. The resulting tiltwing vehicle uses a turboelectric propulsion system to power six proprotors positioned on a tilting main wing and two tilting proprotors positioned on the horizontal tail. This paper also compares the resulting tiltwing vehicle with the other six-passenger reference vehicles, including an updated lift-plus-cruise vehicle, and then proposes future studies. The fleet of UAM reference vehicles will continue to evolve; subsequent versions of the reference vehicles will be based upon the results of future trade studies and technology developments.

Topics & Concepts

CruisePropulsionConceptual designSizingAerodynamicsEngineeringAutomotive engineeringLift (data mining)AirplaneAeronauticsAerospace engineeringComputer scienceMechanical engineeringArtVisual artsData miningAdvanced Aircraft Design and TechnologiesComputational Fluid Dynamics and AerodynamicsAerodynamics and Fluid Dynamics Research