Electric Flight in Extreme and Uncertain Urban Environments

Mingkai Wang; Saulo O.D. Luiz; Shuguang Zhang; Antonio M.N. Lima

doi:10.3390/su151612590

Electric Flight in Extreme and Uncertain Urban Environments

Mingkai Wang, Saulo O.D. Luiz, Shuguang Zhang, Antonio M.N. Lima

Research output: Contribution to journal › Article › peer-review

Abstract

In a typical application scenario for electric aircraft, the emerging urban air mobility is faced with uncertain environmental conditions. To investigate the potential influence of uncertainties, this paper first develops comprehensive models of aircraft rigid body motion and electric propulsive performance. The urban environment model is built with emphasis on wind speed and the heat island effect. Thereafter, a flight guidance law augmented with nonlinear dynamic inversion is proposed to facilitate the performance evaluation of electric aircraft. Multiple simulations at various dates, times, and with different battery aging statuses are conducted. The results show that the battery aging effect and ambient temperature change are the most important factors that influence the aircraft performance. Suggestions to enhance the performance are given based on simulations.

Original language	English
Article number	12590
Journal	Sustainability (Switzerland)
Volume	15
Issue number	16
DOIs	https://doi.org/10.3390/su151612590
State	Published - Aug 2023
Externally published	Yes

Keywords

aircraft performance
electric aircraft
flight guidance law
urban air mobility

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.3390/su151612590

Cite this

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title = "Electric Flight in Extreme and Uncertain Urban Environments",

abstract = "In a typical application scenario for electric aircraft, the emerging urban air mobility is faced with uncertain environmental conditions. To investigate the potential influence of uncertainties, this paper first develops comprehensive models of aircraft rigid body motion and electric propulsive performance. The urban environment model is built with emphasis on wind speed and the heat island effect. Thereafter, a flight guidance law augmented with nonlinear dynamic inversion is proposed to facilitate the performance evaluation of electric aircraft. Multiple simulations at various dates, times, and with different battery aging statuses are conducted. The results show that the battery aging effect and ambient temperature change are the most important factors that influence the aircraft performance. Suggestions to enhance the performance are given based on simulations.",

keywords = "aircraft performance, electric aircraft, flight guidance law, urban air mobility",

author = "Mingkai Wang and Luiz, {Saulo O.D.} and Shuguang Zhang and Lima, {Antonio M.N.}",

note = "Publisher Copyright: {\textcopyright} 2023 by the authors.",

year = "2023",

month = aug,

doi = "10.3390/su151612590",

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volume = "15",

journal = "Sustainability (Switzerland)",

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T1 - Electric Flight in Extreme and Uncertain Urban Environments

AU - Wang, Mingkai

AU - Luiz, Saulo O.D.

AU - Zhang, Shuguang

AU - Lima, Antonio M.N.

PY - 2023/8

Y1 - 2023/8

N2 - In a typical application scenario for electric aircraft, the emerging urban air mobility is faced with uncertain environmental conditions. To investigate the potential influence of uncertainties, this paper first develops comprehensive models of aircraft rigid body motion and electric propulsive performance. The urban environment model is built with emphasis on wind speed and the heat island effect. Thereafter, a flight guidance law augmented with nonlinear dynamic inversion is proposed to facilitate the performance evaluation of electric aircraft. Multiple simulations at various dates, times, and with different battery aging statuses are conducted. The results show that the battery aging effect and ambient temperature change are the most important factors that influence the aircraft performance. Suggestions to enhance the performance are given based on simulations.

AB - In a typical application scenario for electric aircraft, the emerging urban air mobility is faced with uncertain environmental conditions. To investigate the potential influence of uncertainties, this paper first develops comprehensive models of aircraft rigid body motion and electric propulsive performance. The urban environment model is built with emphasis on wind speed and the heat island effect. Thereafter, a flight guidance law augmented with nonlinear dynamic inversion is proposed to facilitate the performance evaluation of electric aircraft. Multiple simulations at various dates, times, and with different battery aging statuses are conducted. The results show that the battery aging effect and ambient temperature change are the most important factors that influence the aircraft performance. Suggestions to enhance the performance are given based on simulations.

KW - aircraft performance

KW - electric aircraft

KW - flight guidance law

KW - urban air mobility

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DO - 10.3390/su151612590

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VL - 15

JO - Sustainability (Switzerland)

JF - Sustainability (Switzerland)

IS - 16

M1 - 12590

ER -

Electric Flight in Extreme and Uncertain Urban Environments

Abstract

Keywords

UN SDGs

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