Chemistry of Ozone in the Stratosphere. Levels of stratospheric ozone have been dropping NASA - .
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Transcript of Chemistry of Ozone in the Stratosphere. Levels of stratospheric ozone have been dropping NASA - .
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Chemistry of Ozone
in the Stratosphere
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Levels of stratospheric ozone have been dropping
NASA - http://toms.gsfc.nasa.gov
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Decreasing Levels of stratospheric ozone is harmful
There has been an increase in the number of cases of skin cancer and cataracts
Evidence of damage to plant and marine life
Note: tropospheric ozone is harmful, stratospheric ozone is beneficial.
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Increase in yearly ultraviolet radiation: The % increase from 1980 to 1997 in UV radiation (causing the skin to turn red) is calculated using observed total ozone values from the TOMS satellite instruments and assuming clear sky conditions. Environment in the European Union at the turn of the century, European Environment Agency, Chapter 3.2. Ozone-depleting substances
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Structure of Ozone, O3
O
O
O
O
O
O O
O
O
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Where is ozone found in the atmosphere ?
NASA Goddard Space Flight Center
Note, higher concentration in stratosphere, compared with troposphere
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Chemical Kinetics and Photochemical Data for Use in Stratospheric Modeling - JPL Publication97-4
Solar Flux
Role of Ozone in the Stratosphere
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Solar Flux
Chemical Kinetics and Photochemical Data for Use in Stratospheric Modeling - JPL Publication97-4
Role of Ozone in the Stratosphere
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Absorption Spectrum of Ozone
Role of Ozone in the Stratosphere
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“The Ozone Depletion Phenomenon”, Beyond Discovery, National Academy of Sciences
Role of Ozone in the Stratosphere
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UV A (~400 to 350 nm) not absorbed by earth’s atmosphere
UV B (~ 350 to 270 nm) partially absorbed by earth’s atmosphere
UV C (~270 to 150 nm) completely absorbed by earth’s atmosphere
Role of Ozone in the Stratosphere
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Chapman mechanism - Sidney Champman, 1930
How is ozone formed in the stratosphere?
O2 + h(< 242 nm) -> O + O k1 ~ 5 x 10-11 s-1
2[O + O2 + M-> O3 + M] k2 ~ 5.6 x 10-34 cm6 mol-2 s-
1
O3 + h -> O + O2 k3 ~ 9.5 x 10-4 s-1
O + O3 -> 2 O2 k4 ~ 1 x 10-15 cm3 mol-1 s-1
Note: k1 and k3 depend on intensity of light; above values are for mid day
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“Ozone: What is it and why do we care about it?”, NASA Facts, Goddard Space Flight Center
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This mechanism, which describes how sunlight converts the various forms of oxygen from one to another, explains why the highest contents of ozone occur in the layer between 15 and 50 km - the ozone layer
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Kinetics of Chapman Mechanism
Rate of formation of O and O3
d[O]/dt = 2k1[O2] -k2[O][O2][M] + k3[O3] - k4[O][O3]d[O3]/dt = k2[O][O2][M] - k3[O3]-k4[O][O3]
Steady-State Approximation
d[O]/dt = d[O3]/dt= 0
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Kinetics of Chapman MechanismCan re-write [O3] as:
[O3]=
k2[O2][M]/k4
k3 /(k4[O])+1
Since the rate constants and concentration of species are known, can shown that:
k3
k4[O]>>1
[O3]≈
k2[O2][M][O]k3
Hence,
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[O3] depends on rate of reaction 2 and the intensity of light
Kinetics of Chapman Mechanism
[O3]≈
k2[O2][M][O]k3
Reaction 2 is slow (termolecular); makes ozone “vulnerable” to ozone-depleting reactions
2[O + O2 + M-> O3 + M] k2
O3 + h -> O + O2 k3
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Later measurements showed appreciable deviations from Chapman's theory.
Calculations of ozone concentration based on the Chapman mechanism were considerably higher than observed ones.
Must be other chemical reactions contributing to the reduction of the ozone content.
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Competing Reactions
Marcel Nicolet: HOx cycle
H, OH and HO2 species formed by reaction of excited O atoms with H-containing atmospheric species like H2O and CH4
O3 + h ( < 310 nm)-> O + O2
O + H2O -> OH + OH
O + CH4 -> CH3 + OH
H2O + h -> H + OH
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Reactions of HOx species with O3
OH + O3 -> HO2 + O2
HO2 + O -> OH + O2
Net Reaction
O + O3 -> 2O2
“Ozone Depletion”
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Paul Crutzen: NOx Cycle
Competing Reactions
NOx species are produced during the reaction of O atoms with N2O (produced in the soil by bacteria)
O + N2O -> 2 NO
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Reactions of NOx species with O3
NO + O3 -> NO2 + O2
NO2 + O -> NO + O2
Net Reaction
O + O3 -> 2O2“Ozone Depletion”
Paul Crutzen, ~ 1970
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The first “man-made” threat to the ozone layer was noted by Harold Johnston (1971): supersonic aircrafts
These aircraft would be capable of releasing nitrogen oxides right in the middle of the ozone layer at altitudes of 20 km.
This was also the start of intensive research into the chemistry of the atmosphere.
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Competing Reactions
Mario Molina, Sherwood Rowland (1974): ClOx cycleClOx species are produced from chlorofluorocarbons (CFC’s) and methyl chlorideCFC’s are artificially produced; methyl chloride is a naturally occuring chemical.
Examples of CFC’s : Freons (CFCl3, CF2Cl2)
CCl2F2 + h -> CF2Cl + Cl
CCl2F2 + O -> CF2Cl + ClO
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Reactions of ClOx species with O3
Cl + O3 -> ClO + O2
ClO + O -> Cl + O2
Net Reaction
O + O3 -> 2O2
“Ozone Depletion”
1974 - Mario Molina, Sherwood Rowland
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Paul Crutzen, Mario Molina, Sherwood Rowland
1995 Nobel Prize in Chemistry - for their work in atmospheric chemistry, particularly concerning the formation and decomposition of ozone"
http://www.nobel.se/chemistry/laureates/1995/press.html
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Consequences of Competing Reactions
Catalytic Reactions
Cl + O3 -> ClO + O2
ClO + O -> Cl + O2
- lower activation energy
Ea for Chapman mechanism = 17.1 kJ/mol
Ea for ClOx reaction = 2.1 kJ/mol
catalyst
catalyst
intermediate
intermediate
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Depleting reactions are NOT independent of each other; all occur simultaneously
Effect of competing reaction on rate of ozone formation
Consequences of Competing Reactions
NET LOSS OF OZONE
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Sources of ozone depleting molecules in the stratosphere
Naturally occuring species (H2O, N2O, CH4)
Artificial, “man-made” species
CFC’s (CCl3F,CCl2F2, etc.)
CCl4, CHCl3
HBFC (CHFBr2,CHF2Br)
CH3Br
NO from supersonic aircrafts
The artificial compounds have the most severe effect
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What is the “Ozone Hole”?
First observed in 1985 by the British Antarctic Survey - “realization” of ozone depleting reactions
Every spring, a huge “hole” in atmospheric levels of ozone is observed over the Antarctic.
NASA Goddard Space Flight Center
July - Sept 2001
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Variation of Partial Pressure of Ozone over the Antarctic for 3 months in 1997
http://www.epa.gov/ozone/science/hole/size.html
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Comparison of Ozone Levels over the Antarctic
http://www.epa.gov/ozone/science/hole/size.html
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Why does the Ozone Hole form over the Antarctic and why in spring?
The Antarctic Vortex
Polar Stratospheric Clouds
Concentrations of Active Chlorine
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The Antarctic Vortex
In the winter, the air around the S. Pole cools and circulates west creating a “vortex”
Cold air containing ozone depleting species is trapped in the vortex
Heat from outside is “shut off”, prolonging the duration of low stratospheric temperatures.
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Polar Stratospheric Clouds
Low stratospheric temperatures result in “ice clouds” called Polar Stratospheric Clouds (Crutzen, et. al)
The surface of the ice clouds serve as reaction sites for heterogeneous gas-surface reactions
ClO + NO2 + M -> ClONO2 + M (gas phase)
ClONO2 + HCl -> HNO3 + Cl2 (ice surface)
ClONO2 + H2O -> HNO3 + HOCl (ice surface)
Cl2 and HOCl are “Cl reservoirs”
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(NASA's Goddard Space Flight Center Atmospheric Chemistry and Dynamics
Branch)
Heterogenous reactions
The same reactions in the gas phase have much higher activation energies. High Ea and low temperatures result in very slow rates.
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Concentrations of Active Chlorine
The Cl2 and HOCl formed photodissociate to yield reactive Cl atoms
Cl2 + h -> Cl + Cl
HOCl + h -> Cl + OH
Cl + O3 -> ClO + O2
OZONE DEPLETION
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The Antarctic vortex traps CFC’s
The low polar temperatures results in ice particles on which gas-solid reactions can occur efficiently
The onset of spring corresponds to higher light intensities and hence photolysis of Cl containing species (Cl2, HOCl)
“Ingredients” for the formation of the Ozone Hole
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Arctic Ozone Hole
Unlike the Antarctic where it is cold every winter, the winter in the Arctic stratosphere is highly variable,NASA satellite and airborne observations show that significant Arctic ozone loss occurs only following very cold winters.
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What is being done to reduce ozone depletion?Montreal Protocol (1987) and subsequent
treaties ban world-wide usage of ozone depleting substances
Given compliance with the prohibitions, the ozone layer should gradually begin to heal. It will take at least 100 years before it has fully recovered.
http://www.nobel.se/chemistry/laureates/1995/press.html
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2001 OZONE HOLE ABOUT THE SAME SIZE AS PAST THREE YEARS -
"This is consistent with human-produced chlorine compounds that destroy ozone reaching their peak concentrations in the atmosphere, leveling off, and now beginning a very slow decline”
http://www.gsfc.nasa.gov/topstory/20011016ozonelayer.html
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References
NASA Goddard Space Flight Center (www.gsfc.nasa.gov/)
EPA (www.epa.gov)
Center for Atmospheric Science, Cambridge University
(www.atm.ch.cam.ac.uk/tour/index.html)
British Antarctic Survey http://www.antarctica.ac.uk/
Chemical Kinetics and Dynamics,Ch 15, J. Steinfeld, J. Francisco, W. Hase