ALBERT — All Library Books, journals and Electronic Records Telegrafenberg

1

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Physical processes in polar stratospheric ice clouds (1989)

Toon, Owen B. ; Ferry, G. ; Jordan, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: The formulation and evolution of polar stratospheric ice clouds are simulated using a one-dimensional model of cloud microphysics. It is found that the optical thickness and particle size of ice clouds depend on the cooling rate of the air in which the cloud formed. It is necessary that there be an energy barrier to ice nucleation upon the preexisting aerosols in order to account for the cooling rate dependence of the cloud properties.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Geophysical Research (ISSN 0148-0227); 94; 11359-11

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2

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Preliminary assessment of the potential impact of solid-fueled rocket engines in the stratosphere (1975)

Borucki, W. J. ; Poppoff, I. G. ; Turco, R. P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: Free chlorine atoms produced from HCl deposited by solid-fueled rocket engines react to destroy odd oxygen in the stratosphere. Using a one-dimensional photochemical model, we have computed the reduction of ozone likely to be caused by long-term operation of such vehicles powered by large solid-fueled rocket engines. It is likely that ozone reduction will not be greater than a few tenths of a per cent, although the value is dependent upon ambient NO(x) concentrations.

Keywords: ENVIRONMENT POLLUTION

Type: Journal of the Atmospheric Sciences; 32; Mar. 197

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3

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The stratospheric sulfate aerosol layer - Processes, models, observations, and simulations (1980)

Turco, R. P. ; Toon, O. B. ; Whitten, R. C.

In: Other Sources

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Publication Date: 2011-08-17

Description: After briefly reviewing the observational data on the stratospheric sulfate aerosol layer, the chemical and physical processes that are likely to fix the properties of the layer are discussed. We present appropriate continuity equations for aerosol particles, and show how to solve the equations on a digital computer. Simulations of the unperturbed aerosol layer by various published models are discussed and the sensitivity of layer characteristics to variations in several aerosol model parameters is studied. We discuss model applications to anthropogenic pollution problems and demonstrate that moderate levels of aerospace activity (supersonic transport and Space Shuttle operations) will probably have only a negligible effect on global climate. Finally, we evaluate the possible climatic effect of a ten-fold increase in the atmospheric abundance of carbonyl sulfide.

Keywords: ENVIRONMENT POLLUTION

Type: Pure and Applied Geophysics; 118; 1-2,; 1980

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4

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Stratospheric aerosol modification by supersonic transport and space shuttle operations - Climate implications (1980)

Hamill, P. ; Turco, R. P. ; Toon, O. B. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: The potential effects on stratospheric aerosols of supersonic transport emissions of sulfur dioxide gas and submicron soot granules, and space shuttle rocket emissions of aluminum oxide particulates are estimated. An interactive particle-gas model of the stratospheric aerosol layer is used to calculate changes due to exhaust emissions, and an accurate radiation transport model is employed to compute the effect of aerosol changes on the earth's average surface temperature. It is concluded that the release of large numbers of small particles (soot or aluminum oxide) into the stratosphere should not lead to a corresponding significant increase in the concentration of large, optically active aerosols, but that the increase in large particles is severely limited by the total mass of sulfate available to make large particles in situ, and by the rapid loss of small seed particles via coagulation. We find that a fleet of several hundred advanced supersonic aircraft operating daily at 20 km, or the launch of one space shuttle rocket per week, could produce roughly a 20% increase in the large-particle concentration of the stratosphere. We find, in addition, that aerosol increases of this magnitude would reduce the global surface temperature by less than 0.01 K.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of Applied Meteorology; 19; Jan. 198

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5

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Importance of heterogeneous processes to tropospheric chemistry - Studies with a one-dimensional model (1982)

Hamill, P. ; Keesee, R. G. ; Whitten, R. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: A one-dimensional, time-dependent model of tropospheric air composition is developed which incorporates several heterogeneous physical and chemical processes. The model includes the interaction of gases, aerosols, and hydrometeors through the physical mechanisms of nucleation, condensation, evaporation, coagulation, coalescence, and deliquescence. Precipitation, sedimentation, and dry deposition act to remove material from the atmosphere, while chemical transformations occur both in the vapor and the condensed phases. The model also incorporates the sources and vertical diffusion of gases and particles, as well as changes in the solar intensity caused by light-scattering from aerosols and clouds. Preliminary simulations made using this model indicate that rainout and washout processes strongly influence the distributions of tropospheric gases and aerosols under certain conditions.

Keywords: ENVIRONMENT POLLUTION

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6

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Heterogeneous physicochemistry of the winter polar stratosphere (1988)

Turco, R. P. ; Toon, O. B.

In: CASI

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Publication Date: 2013-08-31

Description: Present chemical theories of the Antarctic ozone hole assume that heterogeneous reactions involving polar stratospheric clouds (PSCs) are the precursor of springtime ozone depletions. However, none of the theories quantify the rates of proposed heterogeneous processed, and none utilize the extensive data base on PSC's. Thus, all of the theories must be considered incomplete until the heterogeneous mechanisms are properly defined. A unified treatment developed of the cloud related processes, both physical and chemical, and the importance of these processes using observation data is calibrated. The rates are compared competitive heterogeneous processes to place reasonable limits on critical mechanisms such as the denitrification and dechlorination of the polar winter stratosphere. Among the subjects addressed here are the physical/chemical properties of PSC's including their relevant microphysical, optical and compositional characteristics, mass transfer rates of gaseous constituents to cloud particles, adsorption, accommodation and sticking coefficients on cloud particles, time constants for condensation, absorption and other microphysical processes, effects of solubility and vapor pressure on cloud composition, the statistics of cloud processing of chemically active condensible species, rate limiting steps in heterogeneous chemical reactions, and the nonlinear dependence of ozone loss on physical and chemical parameters.

Keywords: ENVIRONMENT POLLUTION

Type: NASA, Goddard Space Flight Center, Polar Ozone Workshop. Abstracts; p 85-89

Format: application/pdf

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Overview

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A one-dimensional model describing aerosol formation and evolution in the stratosphere. I - Physical processes and mathematical analogs. II - Sensitivity studies and comparison with observations (1979)

Hamill, P. ; Toon, O. B. ; Kiang, C. S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: A new time-dependent one-dimensional model of the stratospheric sulfate aerosol layer is developed. The model treats atmospheric photochemistry and aerosol physics in detail and includes the interaction between gases and particles explicitly. It is shown that the numerical algorithms used in the model are quite precise. Sensitivity studies and comparison with observations are made. The simulated aerosol physics generates a particle layer with most of the observed properties. The sensitivity of the calculated properties to changes in a large number of aeronomic aerosol parameters is discussed in some detail. The sensitivity analysis reveals areas where the aerosol model is most uncertain. New observations are suggested that might help resolve important questions about the origin of the stratospheric aerosol layer.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: Journal of the Atmospheric Sciences; 36; Apr. 197

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8

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SSTs, nitrogen fertiliser and stratospheric ozone (1978)

Whitten, R. C. ; Turco, R. P. ; Poppoff, I. G. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: A recently revised model of the stratosphere is used to show that a substantial enhancement in the ozone layer could accompany worldwide SST fleet operations and that water vapor may be an important factor in SST assessments. Revised rate coefficients for various ozone-destroying reactions are employed in calculations which indicate a slight increase in the total content of stratospheric ozone for modest-sized fleets of SSTs flying below about 25 km. It is found that water-vapor chemical reactions can negate in large part the NOx-induced ozone gains computed below 25 km and that increased use of nitrogen fertilizer might also enhance the ozone layer.

Keywords: ENVIRONMENT POLLUTION

Type: Nature; 276; Dec

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9

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Possible ozone depletions following nuclear explosions (1975)

Borucki, W. J. ; Whitten, R. C. ; Turco, R. P.

In: Other Sources

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Publication Date: 2011-08-16

Description: The degree of depletion of the ozone layer ensuing after delivery of strategic nuclear warheads (5000 and 10,000 Mton) due to production of nitrogen oxides is theoretically assessed. Strong depletions are calculated for 16-km and 26-km altitudes, peaking 1-2 months after detonation and lasting for three years, while a significant depletion at 36 km would peak after one year. Assuming the explosions occur between 30 and 70 deg N, these effects should be much more pronounced in this region than over the Northern Hemisphere as a whole. It is concluded that Hampson's concern on this matter (1974) is well-founded.-

Keywords: ENVIRONMENT POLLUTION

Type: Nature; 257; Sept. 4

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10

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Nitrogen fertiliser and stratospheric ozone - Latitudinal effects (1980)

Whitten, R. C. ; Riegel, C. A. ; Capone, L. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-17

Description: Substantial increases in atmospheric N2O resulting from the increased use of nitrogen fertilizers might cause large (to 10%) decreases in the stratospheric ozone content. Such ozone decreases would be caused by catalytic reaction cycles involving odd-nitrogen that is formed by N2O decomposition in the upper stratosphere. Turco et al. (1978), using a background chlorine level of 2 ppbv, have shown that if the measured values of specified reactions are used a 50% increase in N2O would lead to a 2.7% increase in the stratospheric column density, although the ozone content above 30 km would be reduced by more than 5%; they also estimated (unpublished data) that the change in the ozone column density caused by doubling the N2O abundance would be very close to zero (within about 0.1%). The present paper extends these calculations of N2O/ozone effects to two dimensions, thereby identifying the latitude dependence expected for such ozone perturbations. The effects of changes in stratospheric chlorine levels on predicted ozone changes are also discussed.

Keywords: ENVIRONMENT POLLUTION

Type: Nature; 283; Jan. 10

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