A. D. Naiman scite author profile

Abstract. The global commercial aircraft fleet in 2006 flew 31.26 million flights, burned 188.20 million metric tons of fuel, and covered 38.68 billion kilometers. This activity emitted substantial amounts of fossil-fuel combustion products within the upper troposphere and lower stratosphere that affect atmospheric composition and climate. The emissions products, such as carbon monoxide, carbon dioxide, oxides of nitrogen, sulfur compounds, and particulate matter, are not emitted uniformly over the Earth, so understanding the temporal and spatial distributions is important for modeling aviation's climate impacts.

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Analysis of emission data from global commercial aviation: 2004 and 2006

Wilkerson¹,

Jacobson²,

Malwitz³

et al. 2010

Preprint

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Abstract. The global commercial aircraft fleet in 2006 flew more than 31 million flights, burned nearly 190 million metric tons of fuel, and covered 38 billion kilometers. This activity emitted substantial amounts of fossil-fuel combustion products within the upper troposphere and lower stratosphere that affect atmospheric composition and climate. The emissions products, such as carbon monoxide, carbon dioxide, oxides of nitrogen, sulfur compounds, and particulate matter, are not emitted uniformly over the Earth, so understanding the temporal and spatial distributions is an important component for modeling aviation climate impacts. Here, we analyze global commercial aircraft emission data for 2004 and 2006. Data, provided by the Volpe National Transportation Systems Center, were computed using the Federal Aviation Administration's Aviation Environmental Design Tool. For both years, analysis of flight data shows 93 percent of fuel was burned in the Northern Hemisphere, 69 percent between 30 N and 60 N latitudes; 77 (75) percent was burned above 7 km in 2004 (2006). This activity led to 177 (162) Tg of carbon from CO2 globally in 2004 (2006), with half being emitted over three dominant regions: United States, Europe, East Asia. The difference between 2004 and 2006 is a result of fewer flights in 2006 and the methodology used to compute fuel burn and emissions from those flights. We also show that despite receiving only a few percent of global emissions, the Arctic receives a concentration of emissions of the same order of magnitude as the global average. The following is a summary of this data which illustrates the global and regional aviation emissions footprints for 2004 and 2006, and provides temporal and spatial distribution statistics of several emissions constituents. Finally, we show that 87 (85) percent of all flights in 2004 (2006) are short-haul missions, yet those flights are responsible for only 38 (39) percent of total emissions.

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The effects of aircraft on climate and pollution. Part I: Numerical methods for treating the subgrid evolution of discrete size- and composition-resolved contrails from all commercial flights worldwide

Jacobson

Wilkerson

Naiman

et al. 2011

Journal of Computational Physics

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A. D. Naiman

Analysis of emission data from global commercial aviation: 2004 and 2006

Analysis of emission data from global commercial aviation: 2004 and 2006

The effects of aircraft on climate and pollution. Part I: Numerical methods for treating the subgrid evolution of discrete size- and composition-resolved contrails from all commercial flights worldwide

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