Litcius/Paper detail

Future aircraft concepts and design methods

Robert McDonald, Brian German, Timothy T. Takahashi, Cees Bil, Willem A. Anemaat, Armand J. Chaput, Roelof Vos, Nathalie Harrison

2021The Aeronautical Journal29 citationsDOI

Abstract

Abstract With an annual growth in travel demand of about 5% globally, managing the environmental impact is a challenge. In 2019, the International Civil Aviation Organisation (ICAO) issued emission reduction targets, including well-to-wake greenhouse gas (GHG) emissions reduced at least 50% from 2005 levels by 2050. This discusses several technologies from an aircraft design perspective that can contribute to achieving these targets. One thing is certain: aircraft will look different in the future. The Transonic Truss-Braced Wing and Flying V configurations are promising significant efficiency improvements over conventional configurations. Electric propulsion, in various architectures, is becoming a feasible option for general aviation and commuter aircraft. It will be a growing field of aviation with zero-emissions flight and opportunities for special missions. Lastly, this paper discusses methods and design processes that include all relevant disciplines to ensure that the aircraft is optimised as a complete system. While empirical methods are essential for initial design, Multidisciplinary Design Optimisation (MDO) incorporates models and simulations integrated in an optimisation environment to capture critical trade-offs. Concurrent design places domain experts in one site to facilitate collaboration, interaction, and joint decision-making, and to ensure all disciplines are equally considered. It is supported by a Collaborative Design Facility (CDF), an information technology facility with connected hardware and software tools for design analysis.

Topics & Concepts

Systems engineeringAviationGreenhouse gasCivil aviationEngineeringDomain (mathematical analysis)AeronauticsComputer scienceAerospace engineeringTransport engineeringEcologyMathematicsBiologyMathematical analysisAdvanced Aircraft Design and TechnologiesAir Traffic Management and OptimizationRocket and propulsion systems research