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Use of a Radar Wind Profiler and Sodar to Characterize PM2.5 Air Pollution in Cleveland, Ohio
Clinton P. MacDonald1, Adam N. Pasch1, Robert Gilliam2, Charley A. Knoderer1, Paul T. Roberts1, and Gary Norris2
1Sonoma Technology, Inc.2U.S. Environmental Protection Agency
Presented at the National Air Quality ConferencesMarch 7-10, 2011
San Diego, CA
4070
2
About Cleveland
• Geography
• Population~430,000 Cleveland
• Emissions– Large power plants,
steel mills, marine vessels, and on-road vehicles
• Non-attainment for PM2.5
Regional scale
Cleveland
3
About EPA’s CMAPS
• Cleveland Multiple Air Pollutant Study from August 2009 to August 2010– identify particulate matter (PM) and mercury (Hg) sources
– characterize emissions
– understand the role of meteorology
– characterize the spatial and temporal variability of multi-pollutant exposures
• Two five-week intensives
• EPA Principal Investigators include Gary Norris, Matthew Landis, and Ian Gilmour
4
Complex PM2.5 Concentrations
Urban PM2.5
Upwind PM2.5
Hourly PM2.5 Concentrations
5
10
15
20
25
30
35
40
45
50
55
0 2 4 6 8 10 12 14 16 18 20 22
Hour (EST)
Co
nc
en
tra
tio
n (
ug
/m3
)
BARR
MEDINA
ST_THEODOS
5
Understand the Role of Meteorology
• Radar wind profiler (RWP)
• Radio acoustic sounding system (RASS)
• Mini-sodar
• Surface meteorology
7
Methods
• Case Studies
• Episodes* versus non-episodes:
– Diurnal PM2.5
– Large-scale meteorology
– Mixing height
– Boundary layer winds
• RWP, RASS, and mini-sodar
• WRF 4-km backward trajectories (EPA)
• Hybrid Single-Particle Lagrangian Integrated Trajectory (HYSPLIT) backward trajectories
• Representativeness of CMAPS
7
*24-hr PM2.5 concentrations > 34.4 μg/m3 at St. Theodosis or G.T. Craig
Episode Date
Maximum 24-hr Average PM2.5
Concentration (μg/m3)
8/9/2009 37
8/15/2009 54
8/16/2009 51
2/2/2010 41
2/3/2010 45
2/20/2010 39
2/21/2010 38
3/8/2010 42
3/9/2010 62
3/10/2010 39
3/11/2010 42
9
Case Study Example: August 15, 2009 (2 of 3)
9
54 μg/m3
Southerly winds aloft
Mixing height Lake boundary layer
CB
L
10
Case Study Example: August 15, 2009 (3 of 3)
10
24-hr backward trajectories ending 12:00 PM EST
Trajectory heights were 10 (black), 500 (gray), and 1,300 m agl (light gray).
54 μg/m3
24-hr backward trajectories ending 6:00 PM EST
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Case Study Example: March 08, 2010
High ventilation driven by moderate winds, but recirculation. 42 μg/m3
15
Results: Episode vs. Non-episode: Transport
Episode DateRWP/Sodar
NAM WRF ConcensusLocal Carryover of
Upwind AQI
8/9/2009 M S S/M Mod
8/15/2009 S S M S Mod
8/16/2009 M M M M Mod
2/2/2010 M S S S Mod
2/3/2010 M M S M Mod
2/20/2010 M M M M Good/Mod
2/21/2010 S S S S Mod
3/8/2010 M M M Good/Mod
3/9/2010 M S S/M Mod
3/10/2010 L L L Mod/USG
3/11/2010 L M M/L Mod
S = 24-hr transport < ~100 kmM = 24-hr transport between ~100 and 350 kmL = 24-hr transport > ~400 km
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Summary of Episodes (1 of 2)
• Moderate AQI carryover or transport on all days
• Summer episodes (3): high ventilation – High mixing heights and moderate boundary layer
winds from the southwest (2)– High mixing heights, but light winds with a lake breeze
(1)
16