Modeling Aircraft Contrails and Emission Plumes for Climate Impacts

Modeling Aircraft Contrails and Emission Plumes for Climate Impacts PDF

Author: Alexander Dean Naiman

Publisher: Stanford University

Published: 2011

Total Pages: 201

ISBN-13:

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Aircraft emissions lead to contrails and change cloud coverage in the upper troposphere/lower stratosphere, but their quantitative impact on climate is highly uncertain. As environmental policy turns toward regulating anthropogenic climate change components, it will be necessary to improve quantification of the climate impacts of aviation. Toward this end, we present two models of aircraft emissions. The first model is a large eddy simulation (LES) with three-dimensional, eddy-resolving flow physics and ice deposition/sublimation microphysics. Modeled ice properties, cloud optical depths, and contrail width growth rates are consistent with observational field studies. A series of sensitivity cases shows the effect of various parameters over twenty minutes of simulation time. The analysis focuses on properties such as contrail optical depth and cross-sectional width that are relevant to climate impacts. Vertical wind shear is found to have the strongest effect on these properties through the kinematic spreading of the contrail. In cases with no shear, optical depth is most sensitive to aircraft type and ambient humidity. One model parameter, the effective emission index of ice crystals, is also found to affect optical depth. A subset of the LES cases is run for two hours of simulation time to approach the scale of dynamical time steps modeled by global climate simulations. These cases use more realistic ice microphysics, including sedimentation, and forced ambient turbulence, both of which are processes that control contrail development at late times. The second model is a simple, low cost parameterization of aircraft plume dynamics, intended to be used as a subgrid plume model (SPM) within large scale atmospheric simulations. The SPM provides basic plume cross-section time advancement that has been used as a dilution model within a coupled global atmosphere-ocean climate simulation to study the effects of aviation on air quality and climate. Comparison to the twenty-minute and two-hour LES results demonstrates that the SPM captures important plume development characteristics under the effect of vertical shear and atmospheric turbulence.

Modeling Aircraft Contrails and Emission Plumes for Climate Impacts

Modeling Aircraft Contrails and Emission Plumes for Climate Impacts PDF

Author: Alexander Dean Naiman

Publisher:

Published: 2011

Total Pages:

ISBN-13:

DOWNLOAD EBOOK →

Aircraft emissions lead to contrails and change cloud coverage in the upper troposphere/lower stratosphere, but their quantitative impact on climate is highly uncertain. As environmental policy turns toward regulating anthropogenic climate change components, it will be necessary to improve quantification of the climate impacts of aviation. Toward this end, we present two models of aircraft emissions. The first model is a large eddy simulation (LES) with three-dimensional, eddy-resolving flow physics and ice deposition/sublimation microphysics. Modeled ice properties, cloud optical depths, and contrail width growth rates are consistent with observational field studies. A series of sensitivity cases shows the effect of various parameters over twenty minutes of simulation time. The analysis focuses on properties such as contrail optical depth and cross-sectional width that are relevant to climate impacts. Vertical wind shear is found to have the strongest effect on these properties through the kinematic spreading of the contrail. In cases with no shear, optical depth is most sensitive to aircraft type and ambient humidity. One model parameter, the effective emission index of ice crystals, is also found to affect optical depth. A subset of the LES cases is run for two hours of simulation time to approach the scale of dynamical time steps modeled by global climate simulations. These cases use more realistic ice microphysics, including sedimentation, and forced ambient turbulence, both of which are processes that control contrail development at late times. The second model is a simple, low cost parameterization of aircraft plume dynamics, intended to be used as a subgrid plume model (SPM) within large scale atmospheric simulations. The SPM provides basic plume cross-section time advancement that has been used as a dilution model within a coupled global atmosphere-ocean climate simulation to study the effects of aviation on air quality and climate. Comparison to the twenty-minute and two-hour LES results demonstrates that the SPM captures important plume development characteristics under the effect of vertical shear and atmospheric turbulence.

A Review of NASA's 'Atmospheric Effects of Stratospheric Aircraft' Project

A Review of NASA's 'Atmospheric Effects of Stratospheric Aircraft' Project PDF

Author: National Research Council

Publisher: National Academies Press

Published: 1999-10-05

Total Pages: 60

ISBN-13: 030917290X

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The NRC Panel on the Atmospheric Effects of Aviation (PAEAN) was established to provide guidance to NASA's Atmospheric Effects of Aviation Program (AEAP) by evaluating the appropriateness of the program's research plan, appraising the project-sponsored results relative to the current state of scientific knowledge, identifying key scientific uncertainties, and suggesting research activities likely to reduce those uncertainties. Over the last few years, the panel has written periodic reviews of both the subsonic aviation (Subsonic Assessment-SASS) and the supersonic aviation (Atmospheric Effects of Stratospheric Aircraft-AESA) components of AEAP, including: An Interim Review of the Subsonic Assessment Project (1997); An Interim Assessment of AEAP's Emissions Characterization and Near-Field Interactions Elements (1997); An Interim Review of the AESA Project: Science and Progress (1998); Atmospheric Effects of Aviation: A Review of NASA's Subsonic Assessment Project (1998). This report constitutes the final review of AESA and will be the last report written by this panel. The primary audience for these reports is the program managers and scientists affiliated with AEAP, although in some cases the topics discussed are of interest to a wider audience.

Aviation and the Global Atmospheric Environment

Aviation and the Global Atmospheric Environment PDF

Author:

Publisher:

Published: 2004

Total Pages: 24

ISBN-13:

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"Based essentially on the Special Report on Aviation and Global Atmosphere, this booklet summarises the authoritative assessments of the effects of aviation emissions on the environment."--Forward.

Aircraft Design for Reduced Climate Impact

Aircraft Design for Reduced Climate Impact PDF

Author: Emily Dallara

Publisher: Stanford University

Published: 2011

Total Pages: 174

ISBN-13:

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Aircraft affect global climate through emissions of greenhouse gases and their precursors and by altering cirrus cloudiness. Changes in operations and design of future aircraft may be necessary to meet goals for limiting climate change. One method for reducing climate impacts involves designing aircraft to fly at altitudes where the impacts of NOx emissions are less severe and persistent contrail formation is less likely. By considering these altitude effects and additionally applying climate mitigation technologies, impacts can be reduced by 45-70% with simultaneous savings in total operating costs. Uncertainty is assessed, demonstrating that relative climate impact savings can be expected despite large scientific uncertainties. Strategies for improving climate performance of existing aircraft are also explored, revealing potential climate impact savings of 20-40%, traded for a 2% increase in total operating costs and reduced maximum range.

Aircraft Design for Reduced Climate Impact

Aircraft Design for Reduced Climate Impact PDF

Author: Emily Dallara

Publisher: Stanford University

Published: 2011

Total Pages: 174

ISBN-13:

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Aircraft affect global climate through emissions of greenhouse gases and their precursors and by altering cirrus cloudiness. Changes in operations and design of future aircraft may be necessary to meet goals for limiting climate change. One method for reducing climate impacts involves designing aircraft to fly at altitudes where the impacts of NOx emissions are less severe and persistent contrail formation is less likely. By considering these altitude effects and additionally applying climate mitigation technologies, impacts can be reduced by 45-70% with simultaneous savings in total operating costs. Uncertainty is assessed, demonstrating that relative climate impact savings can be expected despite large scientific uncertainties. Strategies for improving climate performance of existing aircraft are also explored, revealing potential climate impact savings of 20-40%, traded for a 2% increase in total operating costs and reduced maximum range.

Human-Environment Interactions

Human-Environment Interactions PDF

Author: Mark R. Welford

Publisher: Springer Nature

Published: 2020-10-06

Total Pages: 251

ISBN-13: 3030560325

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This textbook explores the growing area of human-environment interaction. We live in the Anthropocene, an era dominated by humans, but also by the positive yet destructive environmental feedbacks that are poised to completely reset the relationships between nature and society. Modern and historic political, social, and cultural processes and physical landscape responses determine the intensity of these impacts. Yet different cultural groups, political and economic entities view, react to, and impact these human-environmental processes in spatially distinct and divergent ways. Providing an accessible, up-to-date, approach to human-environment interactions with balanced coverage of both social and natural science approaches to core environmental issues, this textbook is an integrative, multi-disciplinary offering that discusses environmental issues and processes within the context of human societies. The book begins by addressing the three most pressing issues of our time: climate change, threshold exceedance, and the 6th mass extinction. From there the authors identify within chapters on resources, population, agriculture and urbanization what precipitated and continues to sustain these three issues. They end with a chapter outlining some practical solutions to our human-environment crises. The book will be a valuable resource for interdisciplinary environment related courses bridging the gap between the social and natural sciences, human geographies and physical geographies.

Aviation and the Global Atmosphere

Aviation and the Global Atmosphere PDF

Author: Joyce E. Penner

Publisher: Cambridge University Press

Published: 1999-06-28

Total Pages: 392

ISBN-13: 9780521663007

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This Intergovernmental Panel on Climate Change Special Report is the most comprehensive assessment available on the effects of aviation on the global atmosphere. The report considers all the gases and particles emitted by aircraft that modify the chemical properties of the atmosphere, leading to changes in radiative properties and climate change, and modification of the ozone layer, leading to changes in ultraviolet radiation reaching the Earth. This volume provides accurate, unbiased, policy-relevant information and is designed to serve the aviation industry and the expert and policymaking communities.

Green Aviation

Green Aviation PDF

Author: Ramesh Agarwal

Publisher: John Wiley & Sons

Published: 2016-10-17

Total Pages: 528

ISBN-13: 1118866355

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Green Aviation is the first authoritative overview of both engineering and operational measures to mitigate the environmental impact of aviation. It addresses the current status of measures to reduce the environmental impact of air travel. The chapters cover such items as: Engineering and technology-related subjects (aerodynamics, engines, fuels, structures, etc.), Operations (air traffic management and infrastructure) Policy and regulatory aspects regarding atmospheric and noise pollution. With contributions from leading experts, this volume is intended to be a valuable addition, and useful resource, for aerospace manufacturers and suppliers, governmental and industrial aerospace research establishments, airline and aviation industries, university engineering and science departments, and industry analysts, consultants, and researchers.

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