‘Greener’ civil aviation using air-to-air refuelling – relating aircraft design efficiency and tanker offload efficiency

R. K. Nangia

doi:10.1017/S0001924000001858

Extract

The aircraft industry, as a whole, is striving to limit its impact on the environment. Improved engine design and operation may offer a reduction in emissions of a few percent. More efficient air traffic control (ATC) may offer a limited reduction in overall fuel burn. Improvements in aerodynamic design and materials available (e.g. on A350XWB, B787) might achieve a few percent increases in efficiencies. The use of alternative fuels is some way off. The ACARE objectives present a stiff challenge.

Our recent studies have shown that air-to-air-refuelling (AAR), well established in military circles, introduced to civil aircraft operations would provide fuel savings of the order of 30% – 40%. AAR will allow smaller (3,000nm range), more efficient (greener) aircraft, operating from shorter runways, to fulfil long-range route requirements. In addition, the ‘safety-net’ afforded by the availability of AAR will enable a host of hitherto borderline technologies to be accepted and utilised in future aircraft designs. Laminar flow will provide fuel savings and increased efficiency in its own right provided it is enabled within a civil AAR environment. Similarly, supersonic transport becomes an acceptable economic option.

References

1. Nangia, R.K.. Operations and aircraft design towards ‘Greener’ civil aviation using air-to-air refuelling, Aeronaut J, November 2006, 110, (1114), pp 705–721 Google Scholar

2. Nangia, R.K.. Efficiency parameters for modern commercial aircraft, Aeronaut J, August 2006, 110, (1110), pp 495–510.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Nangia, Raj 2007. Commercial Aircraft Efficiency Considersations and Meeting Environmental Challenges Using AAR and CFF.

Nangia, Raj Zeune, Cale and Blake, William 2009. Operating Efficiency of Military Jet Transports.

Nangia, Raj Zeune, Cale and Blake, William 2010. Operating Efficiency of Military Transports (Jets and Turbo-Props) and Comparisons with Civil Aircraft.

Kent, Thomas and Richards, Arthur 2012. A Geometric Approach to Optimal Routing for Commercial Formation Flight.

Kent, Thomas E. and Richards, Arthur G. 2013. On Optimal Routing For Commercial Formation Flight.

Langhans, Stephan Linke, Florian Nolte, Peter and Gollnick, Volker 2013. System Analysis for an Intermediate Stop Operations Concept on Long Range Routes. Journal of Aircraft, Vol. 50, Issue. 1, p. 29.

Bhandari, Ujjar Thomas, Peter R. and Richardson, Thomas S. 2013. Bow Wave Effect in Probe and Drogue Aerial Refuelling.

Perez, Ruben E. and Jansen, Peter W. 2014. Design Optimization and Staging Assignment for Long-Range Aircraft Operations.

Kent, Thomas E. and Richards, Arthur G. 2015. Analytic Approach to Optimal Routing for Commercial Formation Flight. Journal of Guidance, Control, and Dynamics, Vol. 38, Issue. 10, p. 1872.

Perez, Ruben E. Jansen, Peter W. and Jimenez, Hernando 2017. Coupled Aircraft Design and Staging Assignment for Long–Range Operations. Journal of Aerospace Operations, Vol. 4, Issue. 4, p. 223.

2017. Performance of the Jet Transport Airplane: Analysis Methods, Flight Operations and Regulations. p. 457.

Nangia, R K 2018. Highly Efficient Civil Aviation, Now via Operations - AAR and Challenges. Vol. 1, Issue. ,

Hoseini, Sayed Amir Hassan, Jahan Bokani, Ayub and Kanhere, Salil S. 2020. Trajectory Optimization of Flying Energy Sources using Q-Learning to Recharge Hotspot UAVs. p. 683.

Gonzalez, Juan Mugica Sanchez, Naroa Coretti Llop, Pablo Garrido Martinez Pastor, Luis Alonso and Larson, Kent 2021. Dynamic V2V power-sharing for collaborative fleets of autonomous vehicles. p. 408.

Hoseini, Sayed Amir Hassan, Jahan Bokani, Ayub and Kanhere, Salil S. 2021. In Situ MIMO-WPT Recharging of UAVs Using Intelligent Flying Energy Sources. Drones, Vol. 5, Issue. 3, p. 89.

Kent, Thomas E. and Richards, Arthur G. 2021. Potential of Formation Flight for Commercial Aviation: Three Case Studies. Journal of Aircraft, Vol. 58, Issue. 2, p. 320.

Parry, Jonathon and Hubbard, Sarah 2023. Review of Sensor Technology to Support Automated Air-to-Air Refueling of a Probe Configured Uncrewed Aircraft. Sensors, Vol. 23, Issue. 2, p. 995.

Choate, Jeffrey Worth, Derek Nykl, Scott Taylor, Clark Borghetti, Brett and Schubert Kabban, Christine 2024. An analysis of precision: occlusion and perspective geometry’s role in 6D pose estimation. Neural Computing and Applications, Vol. 36, Issue. 3, p. 1261.

Article contents

‘Greener’ civil aviation using air-to-air refuelling – relating aircraft design efficiency and tanker offload efficiency

Extract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

‘Greener’ civil aviation using air-to-air refuelling – relating aircraft design efficiency and tanker offload efficiency

Extract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests