Aviation system planning, particularly fleet selection and adoption, is challenged by fuel price uncertainty. Fuel price uncertainty is due fuel and energy price fluctuations and a growing awareness of the environmental externalities related to transportation activities, particularly as they relate to climate change. To assist in aviation systems planning under such fuel price uncertainty and environmental regulation, this study takes a total logistic cost approach and evaluates three representative aircraft (narrow body, regional jet, and turboprop) for operating and passenger preference costs over a range of fuel prices. Homogenous fleets of each vehicle category are compared for operating and passenger costs over a range of fuel prices a...
This thesis models an airline\u27s decisions about fleet evolution in order to maintain economic and...
This paper reviews literature on technological, market, and policy factors affecting the growth of a...
Purpose – Find optimal flight and design parameters for three objectives: minimum fuel consumption, ...
Aviation system planning is challenged by the rapid increase in fuel prices and uncertainty in air t...
Challenges in forecasting fleet development and deployment are in part due to fuel price uncertainty...
This paper presents a project that is investigating which cruise speed the next generation of short-...
Sustainable aviation fuel (SAF) and liquid hydrogen are currently being studied to replace kerosene ...
Turboprop aircraft achieve higher propulsive efficiencies at lower speeds due to their engine’s abil...
This paper proposes a feasibility study concerning a large turboprop aircraft to be used as a lower ...
The purpose of the paper is to examine product innovation enabling to achieve higher fuel efficiency...
Airlines globally are affected as the combined impact of rising fuel prices and introduction of CO2 ...
Since the Wright brothers took to the skies over 100 years ago, aviation has been powered by fossil ...
This thesis presents two studies that illustrate how cost modelling can be integrated into the vario...
Using publicly available datasets, we analyze three capacity decisions (flight frequency, aircraft s...
Substitution of conventional jet fuel with low-to zero-carbon-emitting alternative aviation fuels is...
This thesis models an airline\u27s decisions about fleet evolution in order to maintain economic and...
This paper reviews literature on technological, market, and policy factors affecting the growth of a...
Purpose – Find optimal flight and design parameters for three objectives: minimum fuel consumption, ...
Aviation system planning is challenged by the rapid increase in fuel prices and uncertainty in air t...
Challenges in forecasting fleet development and deployment are in part due to fuel price uncertainty...
This paper presents a project that is investigating which cruise speed the next generation of short-...
Sustainable aviation fuel (SAF) and liquid hydrogen are currently being studied to replace kerosene ...
Turboprop aircraft achieve higher propulsive efficiencies at lower speeds due to their engine’s abil...
This paper proposes a feasibility study concerning a large turboprop aircraft to be used as a lower ...
The purpose of the paper is to examine product innovation enabling to achieve higher fuel efficiency...
Airlines globally are affected as the combined impact of rising fuel prices and introduction of CO2 ...
Since the Wright brothers took to the skies over 100 years ago, aviation has been powered by fossil ...
This thesis presents two studies that illustrate how cost modelling can be integrated into the vario...
Using publicly available datasets, we analyze three capacity decisions (flight frequency, aircraft s...
Substitution of conventional jet fuel with low-to zero-carbon-emitting alternative aviation fuels is...
This thesis models an airline\u27s decisions about fleet evolution in order to maintain economic and...
This paper reviews literature on technological, market, and policy factors affecting the growth of a...
Purpose – Find optimal flight and design parameters for three objectives: minimum fuel consumption, ...