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1 1 (February 24, 2023)

handle is hein.crs/goveksg0001 and id is 1 raw text is: Congressional Research Service nforming th legislative I i bae sin co 1914 Aviation, Air Pollution, and Climate Change Some Members of Congress have expressed interest in addressing air pollution emissions, greenhouse gas (GHG) emissions, and the climate change effects from domestic and international aviation. Recent legislative proposals would provide for sustainable fuel mandates, incentives for airport efficiency improvements, and GHG emission targets, among other requirements. Emissions from Arcraft The U.S. Environmental Protection Agency (EPA) estimates that transportation-including passenger cars and light trucks, heavy-duty trucks, buses, trains, ships, and aircraft-accounted for 37% of carbon dioxide (CO2, the principal GHG) emissions in 2021. While CO2 emissions from passenger cars and light trucks exceed those from aircraft in the United States, CO2 emissions from aviation are currently experiencing a faster rate of growth. All aircraft, including military, commercial, and privately chartered, accounted for 11% of the U.S. transportation sector's CO2 emissions and 4% of all U.S. CO2 emissions in 2021. Commercial aircraft, including those operated by passenger and all-cargo airlines, accounted for 7% of transportation sector and 3% of all emissions. These estimates include emissions from U.S. domestic flights and emissions from international flights departing the United States, referred to as international bunkering. In the United States, aggregate CO2 emissions from aircraft have fluctuated due to changes in technology, the economy, travel frequency, and military activity, among other reasons. However, since the global financial crisis in 2009, aggregate CO2 emissions from all aircraft types have grown steadily, increasing by almost 22% between 2009 and 2019. This increase makes aircraft one of the faster-growing sources of CO2 emissions in the U.S. transportation sector over the past decade. This trend was affected, at least temporarily, by reduced air travel in 2020 and 2021 due to Coronavirus Disease 2019 (COVID-19). The effects of aircraft emissions on the atmosphere are complex, reflecting differing altitudes, geography, time horizons, and environmental conditions. Research has shown that in addition to CO2 emissions, other factors increase the climate change impacts of aviation. These factors include the contribution of aircraft emissions to ozone production; the formation of water condensation trails and cirrus clouds; the emission of various gases and particles, including water vapor, nitrous oxides, sulfates, and particulates from jet fuel combustion; and the high altitude location of the bulk of these emissions. In examining the warming and cooling influences of these factors, the United Nations' Intergovernmental Panel on Climate Change estimated aviation's total climate change Updated February 24, 2023 impact could be from two to four times that of its past CO2 emissions alone. Aside from GHG emissions, aircraft engines emit a number of criteria-or common-pollutants, including nitrogen oxides, carbon monoxide, oxides of sulfur, unburned or partially combusted hydrocarbons (also known as volatile organic compounds [VOCs]), particulates, and other trace compounds. A subset of the VOCs and particulates are considered hazardous air pollutants. E mission Red uction Strategkes In an effort to reduce emissions from the aviation sector, the U.S. government, other nations, and international organizations have worked together with the aviation industry toward improving technologies, increasing the efficient use of aircraft and airport infrastructure, adopting appropriate economic incentives, and setting standards. Aircraft Erniss-n Standards: Domestic Process In the United States, in accordance with Clean Air Act (CAA) Section 231 (42 U.S.C. §7571), EPA sets emission levels for specified pollutants, as promulgated in 40 C.F.R. Part 87, Control of Air Pollution from Aircraft and Aircraft Engines. EPA sets standards for Federal Aviation Administration (FAA)-certified aircraft according to the amount of thrust generated by their engines. Aircraft emission standards currently exist for fuel venting, and engine hydrocarbons, carbon monoxide, and nitrogen oxides. In 2021, EPA promulgated standards for CO2 emissions from aircraft engines. In 2022, EPA finalized standards for particulate emissions from certain classes of engines used by civil subsonic jet aircraft (87 Federal Register 72312, November 23, 2022), and proposed an endangerment finding for lead pollution from gasoline- powered, piston-engine aircraft (87 Federal Register 62753, October 17, 2022). The standard-setting language under CAA Section 231 is similar to the statutory language for other mobile sources in the CAA (e.g., cars, trucks, buses). However, compared to other mobile sources, EPA must meet additional requirements in setting emission standards for aircraft and aircraft engines: (1) the EPA Administrator must consult with the Administrator of the FAA and the Secretary of the U.S. Department of Transportation (DOT) in developing emission standards; (2) the EPA Administrator cannot change standards if doing so would significantly increase noise and adversely affect safety; and (3) the President may disapprove any such standards if the DOT Secretary finds that they would create a hazard to aircraft safety. CAA Section 232 requires the FAA to enforce the standards at the time an engine is certified for emissions under 14 C.F.R. Part 34, Fuel Venting and Exhaust Emission

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