Presentation is loading. Please wait.

Presentation is loading. Please wait.

VIII. Aerosols Size distribution Formation and Processing Composition Aerosol phase chemistry.

Published byEdward Mosley Modified over 9 years ago

Similar presentations

Presentation on theme: "VIII. Aerosols Size distribution Formation and Processing Composition Aerosol phase chemistry."— Presentation transcript:

1 VIII. Aerosols Size distribution Formation and Processing Composition Aerosol phase chemistry

2 Importance of aerosols human health air quality, airborne pathogen transport climate change direct/indirect effects aerosol optical properties, aerosol/cloud interactions geochemical cycles metals, nutrients, organics acidification (sulfur, nitrogen)

3 Terminology Aerosol – a dispersion of solid and liquid particles suspended in gas (air). note: “aerosol” is defined as the dispersion of both particles and gas, but in common practice it is used to refer to the particles only! Primary aerosol – atmospheric particles that are emitted or injected directly into the atmosphere. Secondary aerosol – atmospheric particles that are created by in situ aggregation or nucleation from gas phase molecules (gas to particle conversion). Either type may be natural or anthropogenic or both How much aerosol is there? typically ~10’s of ug/m 3 (air density ~1kg/m 3 )

4 Global Particle Production (Table 2.19 from Seinfeld and Pandis)

5 Aerosol Size Distributions Number distribution  n n (D p )=dN/dD p Surface area distribution  n s (D p )= dS/dD p S=  D p 2 Volume distribution  n v (D p )=dV/dD p V=(  /6)*D p 3

6 Log-normal distributions Aitken mode Accumulation mode Coarse mode Number distribution  n n (log D p )=dN/d log D p Surface area distribution  n s (log D p )= dS/d log D p Volume distribution  n v (log D p )=dV/d log D p

7 Aitken mode – 0.01-0.1  m Accumulation mode – 0.1-1  m Coarse mode - >1  m and sometimes, the elusive nucleation mode <0.01 um The Aerosol Modes

8 A process oriented view of aerosol size distribution

9 hygroscopic aerosols grow/shrink with RH (with hysteresis!) aerosol size strongly affects light scattering cross-section deliquescence efflorescence Humidity and aerosol size...

10 Removal mechanisms... gravitational settling 10  m particle  1000 cm hr -1 1  m particle  10 cm hr -1 coarse particles

11 fine particles You can estimate the distance a particle will diffuse in a given time from the equation: where D is the diffusion coefficient Diffusion/Coagulation

12 Why is there an “accumulation” mode? impaction, settling diffusion, coagulation

13 So lifetimes are …. Aitken nuclei – hours to days (diffusion/coagulation) Accumulation mode – weeks Coarse mode – hours to days (deposition) Ultrafine – minutes to hours

14 Secondary organic aerosol formation VOC oxidized to less-volatile OC Partitioning to aerosol phase depends on vapor pressure –High equilibrium vapor pressure  high tendency to stay in gas phase –Low equilibrium vapor pressure  partitions to aerosol phase – non-volatiles Large organics (C> 6) tend form aerosols while organics C<6 do not. Oligomerization on/in acid aerosol

15 Aqueous Aerosol Thermodynamic partitioning (A g  A aq ) –liquid water content (L=g of H 2 O/m 3 of air) L=0.1-0.3 in clouds L=0.02-0.5 in fogs –Henry’s law constant (H) H A =[A] (M)/  A (atm)

16 H O2 =1.3x10 -3 M/atm H O3 =1.1x10 -2 M/atm H NH3 =62 M/atm H H2O2 =7x10 4 M/atm H H2CO =2.5 M/atm Exercise: Calculate the concentration of ozone in pure water in equilibrium with 10 ppbv ozone, assume ideal gas. A few Henry’s law constants…

17 Formaldehyde…

18 Acids…

19 Because K eq2 /H + >>1 nearly all nitric acid will exist as nitrate.

20 The chemical perspective... a chemical size distribution 1. chemical size distributions resemble mass, not number 2. sulfate and organics dominate the accumulation mode, but there’s a surprising amount of seasalt 3. there are a lot of unidentified organics 4. the coarse mode has the expected mechanically generated aerosols, but also nitrate and sometimes sulfate Mass (C. Leck)

21 Dust (mineral aerosols)  diameter size: 2-300 µm  main material: sand, silt, clay  includes essential trace metals such as Fe  consists of insoluble and soluble fractions Mineral Dust

22 “brown carbon”: sugars alcohols aromatics di/tri acids ketoacids hydroxyacids soot – “elemental carbon” formed in flames little spectral dependence carbon-only Organic aerosols - burning

23 Seasalt aerosols... seasalt production via bubble bursting... film drops (many, small, organics) jet drops (fewer, larger) wind  bubbles  spray whitecap coverage W α U 3+

24 The sulfur story (in brief)... emissions: fossil fuel SO 2, volcanic SO 2, oceanic DMS DMS oxidation... gas phase... complex! (mod. from Yin et al., 1990)

25 SO 2 oxidation in the gas phase is simple... but most SO 2 oxidation occurs in the aqueous phase...

26 heterogeneous oxidation of SO 2 in-cloud oxidation –weakly buffered, pH ~4 –oxidation by H 2 O 2 seasalt aerosols –strongly buffered by carbonate system –rapid oxidation by O 3 –slower oxidation by H 2 O 2 (also OH, halogen radicals...) –growth of existing particles, inhibits nucleation of new particles (Chameides and Stelson, 1992)

Download ppt "VIII. Aerosols Size distribution Formation and Processing Composition Aerosol phase chemistry."

Similar presentations

Water in the Atmosphere

Water in the Atmosphere
Introduction to Climate and Environmental Physics HS 2014 Lecture IV Christoph Raible, Markus Leuenberger, Fortunat Joos and Thomas Stocker.

Introduction to Climate and Environmental Physics HS 2014 Lecture IV Christoph Raible, Markus Leuenberger, Fortunat Joos and Thomas Stocker.
Earth Science 17.1A Atmosphere Characteristics

Earth Science 17.1A Atmosphere Characteristics
Presentation Slides for Chapter 13 of Fundamentals of Atmospheric Modeling 2 nd Edition Mark Z. Jacobson Department of Civil & Environmental Engineering.

Presentation Slides for Chapter 13 of Fundamentals of Atmospheric Modeling 2 nd Edition Mark Z. Jacobson Department of Civil & Environmental Engineering.
2. Formation of Cloud droplets

2. Formation of Cloud droplets
Proposed Aerosol Treatment for CAM4 Steve Ghan, Richard Easter, Xiaohong Liu, Rahul Zaveri Pacific Northwest National Laboratory precursor emissions coagulation.

Proposed Aerosol Treatment for CAM4 Steve Ghan, Richard Easter, Xiaohong Liu, Rahul Zaveri Pacific Northwest National Laboratory precursor emissions coagulation.
Incorporation of the Model of Aerosol Dynamics, Reaction, Ionization and Dissolution (MADRID) into CMAQ Yang Zhang, Betty K. Pun, Krish Vijayaraghavan,

Incorporation of the Model of Aerosol Dynamics, Reaction, Ionization and Dissolution (MADRID) into CMAQ Yang Zhang, Betty K. Pun, Krish Vijayaraghavan,
Aerosols By Elizabeth Dahl (2005) Edited by Ted Dibble (2008)

Aerosols By Elizabeth Dahl (2005) Edited by Ted Dibble (2008)
1. MEASURES OF ATMOSPHERIC COMPOSITION

1. MEASURES OF ATMOSPHERIC COMPOSITION
Some Impacts of Atmospheric Aerosols Direct and Indirect Effects on Climate directly scattering solar radiation altering number and size distribution of.

Some Impacts of Atmospheric Aerosols Direct and Indirect Effects on Climate directly scattering solar radiation altering number and size distribution of.
Interfacial transport So far, we have considered size and motion of particles In above, did not consider formation of particles or transport of matter.

Interfacial transport So far, we have considered size and motion of particles In above, did not consider formation of particles or transport of matter.
Lesson17. Heterogeneous and cloud processes Wide range of physical and chemical of substrate surfaces for heterogeneous reactions to take place. Clouds.

Lesson17. Heterogeneous and cloud processes Wide range of physical and chemical of substrate surfaces for heterogeneous reactions to take place. Clouds.
Ultrafine Particles and Climate Change Peter J. Adams HDGC Seminar November 5, 2003.

Ultrafine Particles and Climate Change Peter J. Adams HDGC Seminar November 5, 2003.
What are aerosols ? Aerosol is a collection of particles suspended in the air, they range in size from 0.01 microns to several tens of microns.

What are aerosols ? Aerosol is a collection of particles suspended in the air, they range in size from 0.01 microns to several tens of microns.
Chem. 250 – 10/7 Lecture Updated 10/30 Instructor: Roy Dixon My Website for Course:

Chem. 250 – 10/7 Lecture Updated 10/30 Instructor: Roy Dixon My Website for Course:
Lecture 15 natural sulfur, acid rain Rainout We mentioned a few of things that may rainout: 1.CH 3 OOH (CH 4 oxidation, low NO x ) 2.H 2 O 2 (CO oxidation,

Lecture 15 natural sulfur, acid rain Rainout We mentioned a few of things that may rainout: 1.CH 3 OOH (CH 4 oxidation, low NO x ) 2.H 2 O 2 (CO oxidation,
Nucleation: Formation of Stable Condensed Phase Homogeneous – Homomolecular H 2 O (g)  H 2 O (l) Homogeneous – Heteromolecular nH 2 O (g) + mH 2 SO 4(g)

Nucleation: Formation of Stable Condensed Phase Homogeneous – Homomolecular H 2 O (g)  H 2 O (l) Homogeneous – Heteromolecular nH 2 O (g) + mH 2 SO 4(g)
METO 637 Lesson 16.

METO 637 Lesson 16.
Illumination Independent Aerosol Optical Properties n Extinction Scattering Absorption n Volume scattering function (phase) n Transmittance.

Illumination Independent Aerosol Optical Properties n Extinction Scattering Absorption n Volume scattering function (phase) n Transmittance.
Aerosols and climate Rob Wood, Atmospheric Sciences.

Aerosols and climate Rob Wood, Atmospheric Sciences.

Similar presentations

Ads by Google