THE AIR UP THERE Particulate Matter in Melbourne, Fl

1. THE AIR UP THEREParticulate Matter in Melbourne, Fl Department of Marine and Environmental Systems Florida Institute of Technology Melbourne, Florida 32901 July 17, 2002

2. Melbourne Air Quality • What is particulate matter? • How was the data collected • Particulate matter trends • How is Melbourne’s air quality? • Visibility • How does meteorology affect particulate matter? • The effect of fires on air quality • Conclusions

3. Background • Small particles suspended in the atmosphere • Categories- TSP, PM10, and PM2.5 • Sources- combustion, industrial processes, construction sites, dust from mining, agriculture, passing cars • Combustion processes account for almost 50% of particulate matter

4. Health Effects Cancer Asthma Emphysema Reduced visibility Most relevant effects with an annual mean of 50μg/m3 or 24 hr average of 150 μg/m3 there is exacerbation of respiratory mean disease symptoms; excess deaths; visibility Why should we study this?

5. Measuring TSP and PM10

6. Measuring TSP and PM10 : Mettler Toledo #110595 Air Filter Chamber : Mettler Toledo AB104 high-resolution balance

7. Measuring TSP and PM10 • Measured every 3 days for 24 hours • Machines set to begin at the same time • Filters weighed before and after exposure to get particulate weight Sierra Aanderson Model 1200 PM10 sampler GMW L-2000 high-volume sampler

8. Measuring Flow PM10 High-Volume GMW G 2000-2 Rotometer Dweyer Corp. Flex Tube 24-D Water Manometer

9. Results from January 20, 2002-June 13, 2002

10. TSP vs. PM10

11. PM10 vs. EPA Standard • PM10 24hr average standard - 150μg/m3 • PM10 annual mean standard- 50 μg/m3 • Melbourne’s average PM10 for testing period (January 20, 2002- June 13, 2002) was 15 μg/m3

12. PM10 and Standards Melbourne PM10- 15μ g/m3 24hr Standard- 150 μ g/m3 Annual standard 50 μ g/m3

13. Visibility • Lv = 1000 Lv= visual length (km) ρTSP Typical visual ranges of 10 km are predicted by equation (100μg/m3) *Lv < 10km is considered haze For Melbourne1000/42 μg/m3= 24km

15. Fires • February 11th- fire in Port St. John • Fire covered over 50 acres • Data on February 13th • TSP reading of 42μg/m3 • PM10 reading of 30 μg/m3 • PM2.5 reading of 21 μg/m3 • *Highest concentrations during testing period

16. Fires • Port. St. John to Melbourne • 38 miles • Melbourne SSE of Port St. John • Wind from northwest • Feb. 11- 360˚, Feb. 12- 270˚, Feb. 13- 350˚ • Average wind direction over 3 days = 327 • Light winds • Feb. 11- 6.2mph, Feb.12- 4.7mph, Feb. 13- 8.1mph • Average wind speed over 3 days= 6.3mph

17. Fires • A clean filter and TSP filter from February 10, 2002 (18μg/m3) compared to TSP filter from February 13, 2002 (42μg/m3)

18. Conclusions • TSP, PM10, and PM2.5 follow the same trends (linear relationship) • Melbourne has low particulate matter concentrations compared to “polluted cities” • Precipitation acts as a scavenger for particulate matter • Fires, together with the correct wind direction, result in higher concentrations of particulate matter