Presentation is loading. Please wait.

Presentation is loading. Please wait.

CHAPTER 10: STRATOSPHERIC CHEMISTRY. THE MANY FACES OF ATMOSPHERIC OZONE Troposphere Stratosphere: 90% of total In stratosphere: UV shield In middle/upper.

Published byVernon Norton Modified over 9 years ago

Similar presentations

Presentation on theme: "CHAPTER 10: STRATOSPHERIC CHEMISTRY. THE MANY FACES OF ATMOSPHERIC OZONE Troposphere Stratosphere: 90% of total In stratosphere: UV shield In middle/upper."— Presentation transcript:

1 CHAPTER 10: STRATOSPHERIC CHEMISTRY

2 THE MANY FACES OF ATMOSPHERIC OZONE Troposphere Stratosphere: 90% of total In stratosphere: UV shield In middle/upper troposphere: greenhouse gas In lower/middle troposphere: precursor of OH, main atmospheric oxidant In surface air: toxic to humans and vegetation

3 STRATOSPHERIC OZONE HAS BEEN MEASURED FROM SPACE SINCE 1979 Method: UV solar backscatter Scattering by Earth surface and atmosphere   Ozone layer Ozone absorption spectrum   Last Saturdays’s ozone layer… Notice the Antarctic ozone hole

4 CHAPMAN MECHANISM FOR STRATOSPHERIC OZONE (1930) O O 3 O2O2 slow fast Odd oxygen family [O x ] = [O 3 ] + [O] R2 R3 R4 R1

5 STEADY-STATE ANALYSIS OF CHAPMAN MECHANISM Lifetime of O atoms: …is sufficiently short to assume steady state for O: …so the budget of O 3 is controlled by the budget of O x. Lifetime of O x : Steady state for O x :  Ox

6 SOLAR SPECTRUM AND ABSORPTION X-SECTIONS O 2 +hv O 3 +hv

7 PHOTOLYSIS RATE CONSTANTS: VERTICAL DEPENDENCE quantum yield absorption X-section photon flux

8 CHAPMAN MECHANISM vs. OBSERVATION -3 shape determined by j 1 n O2 Chapman mechanism reproduces shape, but is too high by factor 2-3  missing sink!

9 CATALYTIC CYCLES FOR OZONE LOSS: Chapman got it almost right… CATALYTIC CYCLES FOR OZONE LOSS: General Idea O 3 + X  XO + O 2 O + XO  X + O 2 Net: O 3 + O  2 O 2 X is a catalyst The catalyst is neither created nor destroyed…but the rate for the catalytic cycle [odd-O removal in this case] depends on catalyst concentrations

10 WATER VAPOR IN STRATOSPHERE Source: transport from troposphere, oxidation of methane (CH 4 )   

11 HO x -CATALYZED OZONE LOSS HO x  H + OH + HO 2 hydrogen oxide radical family Initiation: Propagation: Termination: OH HO 2 H2OH2O slow fast HO x radical family

12 NITROUS OXIDE IN THE STRATOSPHERE   

13 Initiation N 2 O + O( 1 D)  2NO O 3 loss rate: NO x -CATALYZED OZONE LOSS (NO x  NO + NO 2 ) Day Night NO y  NO x + reservoirs (HNO 3, N 2 O 5,..) Also emitted Termination Recycling NO 2 + OH + M  HNO 3 + M HNO 3 + h  NO 2 + OH NO 2 + O 3  NO 3 + O 2 HNO 3 + OH  NO 3 + H 2 O NO 3 + NO 2 + M  N 2 O 5 + M NO 3 + h  NO 2 + O N 2 O 5 + H 2 O  2HNO 3 N 2 O 5 + h  NO 2 + NO 3 Propagation NO + O 3  NO 2 + O 2 NO + O 3  NO 2 + O 2 NO 2 + h  NO + O NO 2 + O  NO + O 2 O + O 2 + M  O 3 + M Null cycle Net O 3 + O  2O 2

14 ATMOSPHERIC CYCLING OF NO x AND NO y

15 Gas-phase chemistry only Source of Ox Approximate closure! STRATOSPHERIC OZONE BUDGET FOR MIDLATITUDES CONSTRAINED FROM 1980s SPACE SHUTTLE OBSERVATIONS Paul Crutzen shared 1995 Nobel Prize for his work on the NOx catalyzed destruction of ozone

16 STRATOSPHERIC DISTRIBUTION OF CFC-12

17 Initiation: Cl radical generation from non-radical precursors (e.g., CFC-12) CF 2 Cl 2 + h  CF 2 Cl + Cl Propagation: Cl + O 3  ClO + O 2 ClO + O   Cl + O 2 Net: O 3 + O  2O 2 O 3 loss rate: ClO x -CATALYZED OZONE LOSS (ClO x  Cl + ClO) Cl y  ClO x + reservoirs (HCl, ClNO 3 ) Termination:Recycling: Cl + CH 4  HCl + CH 3 HCl + OH  Cl + H 2 O ClO + NO 2 + M  ClNO 3 + MClNO 3 + hv  Cl + NO 3 http://www.atmos.washington.edu/2004Q4/211/09_OzoneDep.swf

18 ATMOSPHERIC CYCLING OF ClO x AND Cl y Molina and Rowland shared 1995 Nobel Prize for their work on the ClOx catalyzed destruction of ozone

Download ppt "CHAPTER 10: STRATOSPHERIC CHEMISTRY. THE MANY FACES OF ATMOSPHERIC OZONE Troposphere Stratosphere: 90% of total In stratosphere: UV shield In middle/upper."

Similar presentations

Atmospheric chemistry

Atmospheric chemistry
From rate law to reaction mechanism Products of a reaction can never be produced faster than the rate of the slowest elementary reaction - rate determining.

From rate law to reaction mechanism Products of a reaction can never be produced faster than the rate of the slowest elementary reaction - rate determining.
STRATOSPHERIC OZONE DISTRIBUTION Marion Marchand CNRS-UPMC-IPSL.

STRATOSPHERIC OZONE DISTRIBUTION Marion Marchand CNRS-UPMC-IPSL.
Alan Robock Department of Environmental Sciences Rutgers University, New Brunswick, New Jersey USA

Alan Robock Department of Environmental Sciences Rutgers University, New Brunswick, New Jersey USA
Ozone Depletion Stratospheric ozone and its importance J(Hans) van Leeuwen – The hole story.

Ozone Depletion Stratospheric ozone and its importance J(Hans) van Leeuwen – The hole story.
OZONE Stratospheric Tropospheric Summary Basics Issues ©2003, Perry Samson, University of Michigan The good, the bad & the ugly.

OZONE Stratospheric Tropospheric Summary Basics Issues ©2003, Perry Samson, University of Michigan The good, the bad & the ugly.
Atmospheric chemistry Day 2 Stratospheric chemistry.

Atmospheric chemistry Day 2 Stratospheric chemistry.
METO 621 CHEM Lesson 2. The Stratosphere We will now consider the chemistry of the troposphere and stratosphere. There are two reasons why we can separate.

METO 621 CHEM Lesson 2. The Stratosphere We will now consider the chemistry of the troposphere and stratosphere. There are two reasons why we can separate.
METO 637 LESSON 7. Catalytic Cycles Bates and Nicolet suggested the following set of reactions: OH + O 3 → HO 2 + O 2 HO 2 + O → OH + O 2 net reaction.

METO 637 LESSON 7. Catalytic Cycles Bates and Nicolet suggested the following set of reactions: OH + O 3 → HO 2 + O 2 HO 2 + O → OH + O 2 net reaction.
Copyright © 2010 R. R. Dickerson & Z.Q. Li 1 AOSC 620 Ozone in the Stratosphere R. Dickerson Note material on layers in general will be covered in AOSC.

Copyright © 2010 R. R. Dickerson & Z.Q. Li 1 AOSC 620 Ozone in the Stratosphere R. Dickerson Note material on layers in general will be covered in AOSC.
METO 621 Lesson 21. The Stratosphere We will now consider the chemistry of the troposphere and stratosphere. There are two reasons why we can separate.

METO 621 Lesson 21. The Stratosphere We will now consider the chemistry of the troposphere and stratosphere. There are two reasons why we can separate.
The Atmosphere: Oxidizing Medium In Global Biogeochemical Cycles EARTH SURFACE Emission Reduced gas Oxidized gas/ aerosol Oxidation Uptake Reduction.

The Atmosphere: Oxidizing Medium In Global Biogeochemical Cycles EARTH SURFACE Emission Reduced gas Oxidized gas/ aerosol Oxidation Uptake Reduction.
Stratospheric Chemistry EPS 133 28 March – 04 April 2011 Polar Stratospheric Clouds.

Stratospheric Chemistry EPS March – 04 April 2011 Polar Stratospheric Clouds.
METO 621 Lesson 24. The Troposphere In the Stratosphere we had high energy photons so that oxygen atoms and ozone dominated the chemistry. In the troposphere.

METO 621 Lesson 24. The Troposphere In the Stratosphere we had high energy photons so that oxygen atoms and ozone dominated the chemistry. In the troposphere.
Next Two Weeks—Stratospheric Chemistry Mid-latitude Ozone Chemistry (and depletion) Polar Ozone Destruction (the Ozone Hole) READING: Chapter 10 of text.

Next Two Weeks—Stratospheric Chemistry Mid-latitude Ozone Chemistry (and depletion) Polar Ozone Destruction (the Ozone Hole) READING: Chapter 10 of text.
METO 637 Lesson 14. Photochemical chain initiation In the troposphere several species are present that absorb solar ultraviolet radiation and can initiate.

METO 637 Lesson 14. Photochemical chain initiation In the troposphere several species are present that absorb solar ultraviolet radiation and can initiate.
METO 621 Lesson 22. Summary of Homogeneous Chemistry.

METO 621 Lesson 22. Summary of Homogeneous Chemistry.
METO 637 Lesson 9. Man’s impact on the Stratosphere The concern over a loss of stratospheric ozone is that this will lead to an increase in ultraviolet.

METO 637 Lesson 9. Man’s impact on the Stratosphere The concern over a loss of stratospheric ozone is that this will lead to an increase in ultraviolet.
Chemistry of Ozone in the Stratosphere. Levels of stratospheric ozone have been dropping NASA -

Chemistry of Ozone in the Stratosphere. Levels of stratospheric ozone have been dropping NASA -
SETTING THE STAGE FOR: BIOSPHERE, CHEMISTRY, CLIMATE INTERACTIONS.

SETTING THE STAGE FOR: BIOSPHERE, CHEMISTRY, CLIMATE INTERACTIONS.

Similar presentations

Ads by Google