The taxi-out phase of a flight accounts for a significant fraction of total fuel burn for aircraft. In addition, surface fuel burn is also a major contributor to CO 2 emissions in the vicinity of airports. It is therefore desirable to have accurate estimates of fuel consumption on the ground. This paper builds a model for estimation of on-ground fuel consumption of an aircraft, given its surface trajectory. Flight Data Recorder archives are used for this purpose. The taxi-out fuel burn is modeled as a linear function of several factors including the taxi-out time, number of stops, number of turns, and number of acceleration events. The statistical significance of each potential factor is investigated. The parameters of the model are estima...
This paper is one of a series addressing the need for simple, yet accurate, methods for the estimati...
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....
A procedure for estimating fuel burned based on actual flight track data, and drag and fuel-flow mod...
Accurate fuel burn estimation models are required to assess potential reductions in CO2 emissions st...
Flight Operations Quality Assurance (FOQA)-derived data was used to develop parsimonious model(s) fo...
Aircraft fuel burn modeling is useful for a range of systems analysis activities. Models such as the...
PDFResearch PaperDOT-VNTSC-FAA-11-10Turboprop aircraftTurboprop enginesFuel consumptionMathematical ...
Flight Operations Quality Assurance (FOQA)-derived data was used to develop parsimonious model(s) fo...
PDFJournal ArticleFuel consumptionPassenger aircraftTerminal operationsAircraft fuelsStructural equa...
In order to uncover the best kept secret in today’s commercial aviation, this project deals with the...
The air traffic system in the United States is currently undergoing a complete overhaul known as "Ne...
In this paper we propose a mathematical model for the fuel consumption analysis during aircraft crui...
Fuel consumption is one of the major considerations for both the impact of aviation in the environme...
Fuel is a major cost expense for air carriers. A typical airline spends 10% of its operating budget ...
This paper is one of a series addressing the need for simple, yet accurate, methods for the estimati...
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....
A procedure for estimating fuel burned based on actual flight track data, and drag and fuel-flow mod...
Accurate fuel burn estimation models are required to assess potential reductions in CO2 emissions st...
Flight Operations Quality Assurance (FOQA)-derived data was used to develop parsimonious model(s) fo...
Aircraft fuel burn modeling is useful for a range of systems analysis activities. Models such as the...
PDFResearch PaperDOT-VNTSC-FAA-11-10Turboprop aircraftTurboprop enginesFuel consumptionMathematical ...
Flight Operations Quality Assurance (FOQA)-derived data was used to develop parsimonious model(s) fo...
PDFJournal ArticleFuel consumptionPassenger aircraftTerminal operationsAircraft fuelsStructural equa...
In order to uncover the best kept secret in today’s commercial aviation, this project deals with the...
The air traffic system in the United States is currently undergoing a complete overhaul known as "Ne...
In this paper we propose a mathematical model for the fuel consumption analysis during aircraft crui...
Fuel consumption is one of the major considerations for both the impact of aviation in the environme...
Fuel is a major cost expense for air carriers. A typical airline spends 10% of its operating budget ...
This paper is one of a series addressing the need for simple, yet accurate, methods for the estimati...
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....
Aircraft taxiing on the surface contribute significantly to the fuel burn and emissions at airports....