Preliminary Study of Emissions Regulation Effects on Future Commercial Aircraft Designs

Romli, Fairuz Izzuddin; Kamaruddin, Mohd Syahidie

doi:10.7763/ijesd.2013.v4.332

Cited by 2 publications

(2 citation statements)

References 6 publications

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“…The sensitivity analysis was carried out using carpet plots. Lift to drag ratio for a body is defined as lift generated by a body moving through air divided by aerodynamic drag [10]. For a powered aircraft, it is generally specified for a straight and level flight.…”

Section: Sensitivity Analysis Using Carpet Plots 51 Variation Of Lift...mentioning

confidence: 99%

“…This ratio is determined using computational fluid dynamics, computer simulations or experimentally using a wind tunnel. Historical data [10] was used to project lift to drag ratio values for upcoming decades which is shown in a plot (figure 3) between lift to drag ratio and years. The futuristic Boeing truss-braced wing [11] for X-66 experimental aircraft is expected to have long, thin wings stabilised by trusses, thus improving lift to drag ratio.…”

Section: Sensitivity Analysis Using Carpet Plots 51 Variation Of Lift...mentioning

confidence: 99%

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A Sensitivity Analysis on the Range Equation of Hybrid-electric aircraft

Batra,

Raute,

Camilleri

2024

J. Phys.: Conf. Ser.

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This paper carries out a sensitivity analysis on the recently proposed hybrid-electric range equation [1]. The proposed hybrid-electric range equation is based on an efficiency-based definition of the degree of hybridization and the efficiencies of respective drivetrains on the range estimation of the hybrid-electric aircraft. The ATR 72 turbo-prop aircraft is chosen as the case study for the sensitivity analysis. The sensitivity analysis done in this paper shows the effects of parameters such as lift to drag ratio, efficiencies, energy densities, payload weight, etc. on the aircraft range. It was observed that variation in aircraft range due to each parameter was distinct and unique. The analysis also depicted the implications of the changes in the above-mentioned parameters from an aircraft designer’s viewpoint. The changes were carried out using the predictions for the year 2050. The sensitivity analysis performed in this work successfully narrowed down the parameters that had the maximum impact on the aircraft range.

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Section: Sensitivity Analysis Using Carpet Plots 51 Variation Of Lift...mentioning

confidence: 99%

Section: Sensitivity Analysis Using Carpet Plots 51 Variation Of Lift...mentioning

confidence: 99%

A Sensitivity Analysis on the Range Equation of Hybrid-electric aircraft

Batra,

Raute,

Camilleri

2024

J. Phys.: Conf. Ser.

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Potential and Limitations of Battery-Powered All-Electric Regional Flights—A Norwegian Case Study

Baerheim

Lamb

Nøland

et al. 2023

IEEE Trans. Transp. Electrific.

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The purpose of this study is to look at both the potential and the limitations of first-generation electric aviation technology while emphasizing Norway's geographical opportunities and unique regional network. Electric flight distances up to 400 km would cover around 77 % of all flights within Norway. Currently, there is limited research into the suitability of battery-powered all-electric aviation in such scenarios, where Norway is an ideal case study location. In this work, the key factors, including battery technologies, propulsion systems, aircraft designs, and important aspects of the flight profile, are investigated to determine the suitability of specific routes in terms of the required power, energy, and battery size. A case study of five different flight distances in Norway (77 −392 km) and two different aircraft bodies (one retrofitted with an electric powertrain and one completely designed around the electric drivetrain) are presented. While the completely redesigned aircraft is observed to fulfill the power requirements of the routes, the results suggest that modest energy density improvements in batteries would facilitate retrofitting pre-existing aircraft. Finally, the study shows that it will be feasible to operate small (9 −39 passenger) electric aircraft on short-haul flights in Norway through either new aircraft designs or retrofitting shortly.

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Preliminary Study of Emissions Regulation Effects on Future Commercial Aircraft Designs

Cited by 2 publications

References 6 publications

A Sensitivity Analysis on the Range Equation of Hybrid-electric aircraft

A Sensitivity Analysis on the Range Equation of Hybrid-electric aircraft

Potential and Limitations of Battery-Powered All-Electric Regional Flights—A Norwegian Case Study

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