Validation of endurance estimates for battery powered UAVs

L. W. Traub

doi:10.1017/S0001924000008757

Abstract

An experimental investigation is presented to validate endurance estimates for a battery powered flight vehicle. In this study a radio controlled model aircraft was ‘flown’ inside a wind tunnel. Various Lithium Ion batteries were used to power the model. Battery electrical characteristics were recorded during each run to assess battery discharge behaviour. Theoretical estimates based upon battery characteristics yielded endurance estimates within 3% of that measured experimentally. The discharge characteristics of the batteries were found to be the largest source of uncertainty for endurance estimates.

References

1. Retana, E.R. and Rodrigue-Cortes, H. Basic small fixed wing aircraft sizing optimizing endurance, 4th Annual ICEEE conference, 2007, Mexico City, Mexico, pp 322 – 325. Google Scholar

2. Lawrence, D.A. and Mohseni, K. Efficiency analysis for long-duration electric MAVs, AIAA Paper 2005 – 7090, 2005.Google Scholar

3. Traub, L.W. Range and endurance estimates for an electrically powered aircraft, JAircr, March-April, 2011, 48, pp 703 – 707.Google Scholar

4. Barlow, J., Rae, W. and Pope, A. Low Speed Wind Tunnel Testing, Wiley-Interscience, 3rd ed, 1999.Google Scholar

5. Su, Y., Liahng, H. and Wu, J. Multilevel Peukert equations based residual capacity estimation method for lead-acid batteries, IEEE, 2008, pp 101 – 105. Google Scholar

7. Gur, O. and Rosen, A. Optimizing electric propulsion systems for unmanned aerial vehicles, J Aircr, July-August 2009, 46, pp 1340 – 1353.Google Scholar

8. Andrea, D. Battery Management Systems for Large Lithium Ion Battery Packs, Artech House, 1st ed, 2010.Google Scholar

Crossref Citations

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

Abdilla, Analiza Richards, Arthur and Burrow, Stephen 2015. Power and endurance modelling of battery-powered rotorcraft. p. 675.

Gatti, Mauro Giulietti, Fabrizio and Turci, Matteo 2015. Maximum endurance for battery-powered rotary-wing aircraft. Aerospace Science and Technology, Vol. 45, Issue. , p. 174.

Traub, Lance 2016. Calculation of Constant Power Lithium Battery Discharge Curves. Batteries, Vol. 2, Issue. 2, p. 17.

Traub, Lance W. 2016. Optimal Battery Weight Fraction for Maximum Aircraft Range and Endurance. Journal of Aircraft, Vol. 53, Issue. 4, p. 1177.

Avanzini, Giulio de Angelis, Emanuele L. and Giulietti, Fabrizio 2016. Optimal performance and sizing of a battery-powered aircraft. Aerospace Science and Technology, Vol. 59, Issue. , p. 132.

Donateo, Teresa Ficarella, Antonio Spedicato, Luigi Arista, Alessandro and Ferraro, Marco 2017. A new approach to calculating endurance in electric flight and comparing fuel cells and batteries. Applied Energy, Vol. 187, Issue. , p. 807.

Donateo, Teresa and Spedicato, Luigi 2017. Fuel economy of hybrid electric flight. Applied Energy, Vol. 206, Issue. , p. 723.

Gong, Andrew Maunder, Hugh and Verstraete, Dries 2017. Development of an in-flight thrust measurement system for UAVs.

McCrink, Matthew and Gregory, James W. 2017. Range and Endurance Estimation for Low-Re Electric UAS.

Gu, Haowei Cai, Xiaoyu Zhou, Jinni Li, Zexiang Shen, Shaojie and Zhang, Fu 2018. A Coordinate Descent Method for Multidisciplinary Design Optimization of Electric-Powered Winged UAVs. p. 1189.

Hamilton, Thomas and German, Brian J. 2019. Optimal Airspeeds for Scheduled Electric Aircraft Operations. Journal of Aircraft, Vol. 56, Issue. 2, p. 545.

Gu, Haowei Lyu, Ximin Li, Zexiang and Zhang, Fu 2020. Coordinate Descent Optimization for Winged-UAV Design. Journal of Intelligent & Robotic Systems, Vol. 97, Issue. 1, p. 109.

Mariga, L. Silva Tiburcio, I. Martins, C.A. Almeida Prado, A.N. and Nascimento, C. 2020. Measuring battery discharge characteristics for accurate UAV endurance estimation. The Aeronautical Journal, Vol. 124, Issue. 1277, p. 1099.

Donateo, Teresa and Ficarella, Antonio 2020. A Modeling Approach for the Effect of Battery Aging on the Performance of a Hybrid Electric Rotorcraft for Urban Air-Mobility. Aerospace, Vol. 7, Issue. 5, p. 56.

Settele, Ferdinand Holzapfel, Florian and Knoll, Alexander 2020. The Impact of Peukert-Effect on Optimal Control of a Battery-Electrically Driven Airplane. Aerospace, Vol. 7, Issue. 2, p. 13.

Boyd, Cameron Westcott, Oliver Ferraro, Mario Erbil, Mehmet A. and Entwistle, Robert 2021. CASCADE Open Aircraft Project: University of Southampton VTOL Drone Development.

Feng, X. Sun, Y. Chang, M. and Bai, J. 2021. Endurance improvement by battery dumping strategy considering Peukert effect for electric-powered disposable UAVs. The Aeronautical Journal, Vol. 125, Issue. 1283, p. 42.

de Angelis, Emanuele L. Giulietti, Fabrizio Rossetti, Gianluca and Bellani, Gabriele 2021. Performance analysis and optimal sizing of electric multirotors. Aerospace Science and Technology, Vol. 118, Issue. , p. 107057.

Sachs, Gottfried Grüter, Benedikt and Hong, Haichao 2022. Flight Performance Advantages of Electric Aircraft.

Pourrahmani, Hossein Bernier, Claire Marie Isabelle and Van herle, Jan 2022. The Application of Fuel-Cell and Battery Technologies in Unmanned Aerial Vehicles (UAVs): A Dynamic Study. Batteries, Vol. 8, Issue. 7, p. 73.

Download full list

Article contents

Validation of endurance estimates for battery powered UAVs

Abstract

Access options

References

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

Article contents

Validation of endurance estimates for battery powered UAVs

Abstract

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