1 / 39

Atmospheric Aerosols

Atmospheric Aerosols. Background retrieved from http://images.sciencedaily.com/2009/08/090801095810-large.jpg. Yatit Thakker Jake Yap ENV 6130 – Aerosol Mechanics April 12, 2012. Outline. Classification of Atmospheric Aerosols Sources Size Distributions Growth/Removal Mechanisms

dextra
Download Presentation

Atmospheric Aerosols

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Atmospheric Aerosols Background retrieved from http://images.sciencedaily.com/2009/08/090801095810-large.jpg Yatit Thakker Jake Yap ENV 6130 – Aerosol Mechanics April 12, 2012

  2. Outline • Classification of Atmospheric Aerosols • Sources • Size Distributions • Growth/Removal Mechanisms • Nucleation, Accumulation, Coarse • Chemical Composition • Health Effects • Global Effects • Visibility

  3. Why do we care? • Atmospheric aerosols (AA’s) affect global temperatures, health, pollution, and even the weather! • What is the most important atmospheric aerosol that you encounter every day? • What are some other reasons?

  4. How can we describe atmospheric aerosols? • Natural or anthropogenic • Solid or liquid • Primary or secondary • Primary aerosols enter directly into the atmosphere. • Secondary aerosols are produced in the atmosphere (ex: chemical reactions, condensation).

  5. Atmospheric Aerosol Sources Do you think there are always more natural aerosols than anthropogenic? Why or why not? http://aerosol.ees.ufl.edu

  6. Growth Mechanisms • Condensation • Coagulation • Nucleation and fusing with water aerosols

  7. Removal Mechanisms • Settling • Impaction (against leaves, buildings, trees) • Washout – removal by larger particles or rain and snow.

  8. Where are these aerosols found? http://frobinett.edublogs.org/files/2011/02/layers-of-the-atmosphere-29q693x.jpg

  9. Layers of the Earth • Troposphere (first 11 km)– Contains majority of aerosol mass (ex: soil, sea salt, power plant ash). First km contains ~80% of direct emissions. • Stratosphere (11 – 50 km) – very low moisture, very low particle concentration. • What is the primary mechanism of aerosol formation in the stratosphere?

  10. Troposphere - What is clean air? • Difficult question to answer, but defined as having an ambient aerosol concentration of 700#/cm3 or less, according to the textbook. • How would ambient aerosol concentration vary with height in the troposphere?

  11. Stratosphere • Contains the Ozone Layer in the lower stratosphere • Altitudes of 18-20 km is known as the Junge Layer, where Sulfuric Acid particles form and accumulate. • SO3+H2O  H2SO4 • Implications?

  12. Urban Aerosols

  13. Nuclei mode • Short lifespans (rapid coagulation) • High # concentration near source • dp < 0.1 µm (very small) • Sources: combustion, gas to particle conversion • Acts as the nucleus for condensation. • http://aerosol.ees.ufl.edu/atmos_aerosol/section04-1.html

  14. Accumulation Mode • Coagulate more slowly • 0.1 μm < particle size < 2.5 μm • Longest lifespan • Originate from combustion, smog, and nuclei coagulation. • Account for visibility effects of atmospheric aerosols. • http://aerosol.ees.ufl.edu/atmos_aerosol/section04-2.html

  15. Coarse Particles • Originate from windblown dust, large salt particles, and agriculture/surface mining particles. • dp> 2.5 µm • Lifetime of only few hours b/c of size • http://aerosol.ees.ufl.edu/atmos_aerosol/section04-3.html

  16. Brief Overview http://aerosol.ees.ufl.edu/atmos_aerosol/section05.html

  17. Alternate Characterizations Source: http://www.ess.uci.edu/~cmclinden/link/xx/node22.html

  18. What it means • Sulphates – Account for the submicron haze. Great spatial and temporal variability. • Marine Aerosols – composed primarily of sea salt and ocean water picked up by winds. • Cumulus Clouds – formed by condensation of water droplets through convection currents. • Cirrus Clouds – composed of ice crystals and supercooled water droplets.

  19. Visual Dynamic Interactions

  20. Chemical Composition in the Atmosphere • Fine Particles vs. Coarse Particles • Fine Particles: acidic and made up of sulfates, ammonium compounds, hydrocarbons, elemental carbon (soot), toxic metals, and water in the atmosphere • Coarse Particles: basic and contain most of the crustal materials and their oxides, such as silicon, iron, calcium, and aluminum, as well as large sea salt particles and vegetation debris

  21. Chemical Composition TABLE 3. Average composition of fine and coarse particles in µg/m3 at an urban and a rural site

  22. Health Effects • What are some possible health effects from atmospheric aerosols? • Examples: Smog • London Smog Disaster • Estimated 4000 people died due to exacerbated respiratory illnesses. • Gainesville Smog Disaster – Jan 29, 2012.

  23. Gainesville Smog Disaster

  24. PM related health diseases

  25. What can PM do for you?

  26. More on PM • Long term exposure is much more deadly. • Why do you think the EPA uses PM2.5 as a base standard for measuring health effects of atmospheric aerosols?

  27. Global Effects-Ozone Depletion • Why is Ozone important to us?

  28. Aerosol Effects on Ozone • Under cold Temp., nitric acid and water vapor condense to form polar stratospheric clouds • Surface of cloud particles act as a catalyst for conversion of Cl compounds to atomic Cl

  29. Ozone Depletion-Process Aerosols Cl (1) Cl Compounds (2) Cl + O3 → O2 + ClO (3) ClO +hν → O + Cl • Under which season does the ozone hole grow larger? • How can this process be enhanced? Cl is recycled and process repeats

  30. Enhancement • Addition of atomic Chlorine into atmosphere • CFC’s • Sources: A/C cooling units, refrigerators, hair spray • Volcanic eruptions • Increases stratospheric aerosols for additional catalysis

  31. Global Cooling • Scattering of incoming solar radiation • Natural aerosol property • Increased cloud reflectivity • High # concentration of cloud droplets • Known as “whitehouse effect”-all within the troposphere • http://aerosol.ees.ufl.edu/atmos_aerosol/section08.html

  32. Global Warming • Aerosols can absorb the radiation from the sun and thus trap the heat • Ex: Carbon Black

  33. Example of Global Cooling • Mt. Pinatubo Eruption of 1991 • Location: Philippines • Emitted 14-20 Tg of SO2

  34. Warming or cooling? • Global warming has heated the Earth by +1.25 W/m2. • The Earth’s volcanoes have a major cooling effect (-2.7 W/m2) • (Hinds-numbers from book) • Why isn’t the earth colder?!

  35. Light Extinction in the Atmosphere • Remember Bouguer’s Law! • For Monodisperse Aerosol • To which phase of the atmosphere is this measurement method most applicable?

  36. Cairo, Egypt

  37. Visual Range • The visual range is how far an object can be seen when viewed against the horizon during Daylight. • How could Atmospheric Aerosols have led to the extinction of dinosaurs?

  38. Reflection

More Related