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Krish Vijayaraghavan, Prakash Karamchandani

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Title: Krish Vijayaraghavan, Prakash Karamchandani


1
Application of CMAQ-APT tothe Central California
Ozone Study
  • Krish Vijayaraghavan, Prakash Karamchandani
  • Christian Seigneur
  • AER
  • San Ramon, CA
  • 3rd Annual CMAS Models-3 ConferenceOctober
    18-20, 2004
  • Chapel Hill, NC

2
Overview
  • Limitations of 3-D grid modeling
  • CMAQ-APT Plume-in-grid (PiG) air quality model
  • State-of-the science treatment of stack plumes at
    the sub-grid scale
  • 3-D grid host model - CMAQ
  • Reactive plume model SCICHEM
  • Impact of PiG treatment on ozone and HNO3
    concentrations

3
Interface between CMAQ and SCICHEM
Domain, grid information geophysical
data meteorological data deposition velocities
Control File
Emissions, IC/BC
I/O API
I/O API
chemical concentrations
CMAQ
SCICHEM
Point source emissions
I/O API
I/O API
Standard SCICHEM output
Output
Output puff information
Dump puffs
chemical concentrations
Puff diagnostics (process analysis)
4
Improvements to CMAQ-APT
  • Optional treatment for the effects of building
    downwash on plume rise and dispersion (PRIME)
  • Incorporation of CMAQ code updates released in
    September 2003 (version 4.3)
  • Incorporation of modifications in SCICHEM version
    1601 (January 2004 release)
  • Young Boris chemistry solver

5
Application to Central California
  • Central California Ozone Study (CCOS)
  • Ozone episode July 30 to August 1, 2000
  • Study domain
  • 185 x 185 grid cells
  • Horizontal grid resolution of 4 km
  • 20 layers from surface to tropopause (surface
    layer 30 m)

6
Features of July/August 2000 CCOS episode
  • Observed peak ozone during the modeling period
    was 134 ppb at San Andreas station on August 1,
    2000
  • Prevailing winds from the coast to the Central
    Valley
  • Wildfires in the southeast (Tulare County near
    the Sierra Nevada)

7
Model Inputs
  • Meteorology driven by MM5
  • CMAQ emissions, initial and boundary conditions
    from CAMx files (ARB)
  • 3-D gridded emissions using SMOKE plume rise
    processor
  • Ten largest NOx emitting plants (with 56 stacks)
    selected for plume-in-grid (PiG) treatment

8
PiG Sources
Top 10 NOx emissions
  • Pittsburg power plant
  • (16 Mg/day NOx)
  • Riverside Cement
  • California Cement
  • Moss Landing power plant
  • Martinez refinery
  • Hanson Cement
  • Unknown
  • Portland Cement
  • IMC Chemicals
  • Contra Costa power plant

Total 101 Mg/day (4 of domain-wide NOx
emissions)
9
Simulations
  • CMAQ base simulation
  • All emissions in domain in 3-D gridded format
  • CMAQ background simulation
  • 3-D gridded emissions without PiG sources
  • CMAQ-APT simulation
  • 3-D gridded emissions other than PiG sources
  • PiG sources treated separately with SCICHEM

10
Extended San Francisco Bay Area
11
CMAQ Base Surface Ozone 3 p.m. PDT on July 30,
2000
12
(Base Background) Surface Ozone 3 p.m. PDT on
July 30, 2000
13
(APT Base) Surface Ozone 3 p.m. PDT on July
30, 2000
14
Evolution of Plume Chemistry
3
2
Long-range Plume Dispersion
Early Plume Dispersion
Mid-range Plume Dispersion
1
Reduced VOC/NOx/O3 chemistry acid formation
from OH and NO3/N2O5 chemistry
NO/NO2/O3 chemistry
Full VOC/NOx/O3 chemistry acid and O3 formation
15
CMAQ Base Surface HNO3 3 p.m. PDT on July 31,
2000
16
(Base Background) Surface HNO3 3 p.m. PDT on
July 31, 2000
17
(APT Base) Surface HNO3 3 p.m. PDT on July 31,
2000
18
Comparison of CMAQ-APT results in CCOS and NARSTO
  • CCOS
  • APT produces up to 10 ppb lower ozone than Base
  • and up to 1.5 ppb lower HNO3
  • NARSTO
  • APT produces up to 40 ppb lower ozone than Base
  • and up to 24 ppb lower HNO3
  • (Karamchandani et al., J. Geophys. Res.,107,
    4403, 2002)
  • NOx emissions from PiG sources are about 50 times
    higher in NARSTO than in CCOS

19
Conclusions
  • CMAQ-APT applied to July/August 2000 CCOS episode
  • O3 concentrations using APT show both decrements
    (up to 10 ppb) and increments (up to 6 ppb) with
    respect to the base
  • The VOC vs. NOx limited nature of the background
    environment explains the differences in O3
    production and destruction between the APT and
    base results

20
Conclusions
  • Surface HNO3 concentrations are up to 1.5 ppb
    (about 10) lower in the CCOS APT simulation and
    24 ppb lower in the NARSTO APT simulation,
    compared to the base cases
  • Effect of PiG treatment on HNO3 is important for
    PM nitrate and regional haze modeling.
  • PiG treatment for PM (CMAQ-MADRID-APT) is
    currently being tested (Karamchandani et al.,
    AWMA, October 2004)

21
Acknowledgements
  • California Energy Commission
  • California Air Resources Board
  • EPRI
  • Titan/ARAP
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