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Presentation by: Dan Goldberg Co-authors: Tim Vinciguerra, Linda Hembeck, Sam Carpenter, Tim Canty, Ross Salawitch & Russ Dickerson 13 th Annual CMAS Conference.

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Presentation on theme: "Presentation by: Dan Goldberg Co-authors: Tim Vinciguerra, Linda Hembeck, Sam Carpenter, Tim Canty, Ross Salawitch & Russ Dickerson 13 th Annual CMAS Conference."— Presentation transcript:

1 Presentation by: Dan Goldberg Co-authors: Tim Vinciguerra, Linda Hembeck, Sam Carpenter, Tim Canty, Ross Salawitch & Russ Dickerson 13 th Annual CMAS Conference Tuesday October 28, 2014 Evaluating the Cross State Transport of Ozone using CAMx & DISCOVER-AQ Maryland Observations

2 Motivation for this study… 1 The state of Maryland owes a State Implementation Plan (SIP) in June 2015 to show future attainment of the Ozone NAAQS. We are trying to verify that the regional air quality models are getting an accurate prediction of ozone for the right reasons in order to define the most effective attainment strategies.

3 Motivation for this study… The Ozone Design Values in Maryland have dropped dramatically in the past 3 years due to a combination of emissions reductions AND favorable meteorology nonattainment (> 0.075 ppm) nonattainment (> 0.085 ppm) Marginal Moderate 2 EPA CASTNET Sites Maryland Ambient Air Quality Monitoring Network

4 Comparison to Observations of Surface Ozone There is excellent model agreement in predicting surface ozone when using the standard, “off-the-shelf” version of CAMx 3

5 Comparison to Observations of Surface Ozone 4 July 2 – Under prediction due to 4 th of July travel & transport aloft July 21 – Over prediction due to bay breeze (He et al. 2014) There is excellent model agreement in predicting surface ozone when using the standard, “off-the-shelf” version of CAMx

6 Comparison to Observations of Surface Ozone Is the model getting ozone right for the right reasons? 5 Let’s take a look at the precursors to ozone: NO 2, VOCs, etc. There is excellent model agreement in predicting surface ozone when using the standard, “off-the-shelf” version of CAMx

7 6 NASA UC-12 (Remote sensing) Continuous mapping of aerosols with HSRL and trace gas columns with ACAM NASA P-3B (in situ meas.) In situ profiling of aerosols and trace gases over surface measurement sites Ground sites In situ trace gases and aerosols Remote sensing of trace gas and aerosol columns Ozonesondes Aerosol lidar observations Three major observational components: DISCOVER-AQ: Deriving Information on Surface conditions from Column and Vertically Resolved Observations Relevant to Air Quality July 2011

8 Ozone Precursors: CAMx v6.10 vs. Aircraft NO 2 Formaldehyde (HCHO) NOyAlkyl nitrates (NTR) 7

9 Suggestions on how to reduce these biases NO 2 & NO y high biases: –Reduce NO x emissions from on-road vehicles by 50% (Anderson et al., 2014, Fujita et al. 2012, Brioude et al. 2013) Formaldehyde low bias: –Use a new model for estimating biogenic emissions (trees, soil, etc) MEGAN v2.10 from BEIS v3.14 NTR high bias: –Reduce the photolytic lifetime from 10 days to 1 days (Perring et al. 2013, Farmer et al. 2011) 8

10 NOyAlkyl nitrates (NTR) NO 2 Formaldehyde (HCHO) Making the aforementioned changes… 9

11 NO 2 Formaldehyde (HCHO) NOyAlkyl nitrates (NTR) 10 Baseline case

12 How about surface ozone agreement? Reminder: The baseline case 11

13 How about surface ozone agreement? Didn’t change much! AND slightly better R-squared Updated chemistry & emissions 12

14 How about surface ozone agreement? Didn’t change much! AND slightly better R-squared Updated chemistry & emissions 13 Intermediate conclusion: These changes have improved prediction of the precursors to ozone, while minimally impacting the prediction of surface ozone! Intermediate conclusion: These changes have improved prediction of the precursors to ozone, while minimally impacting the prediction of surface ozone!

15 July 2011: Ozone Source Apportionment Fraction of total surface ozone attributed to the boundary conditions, Maryland, and everywhere else in the modeling domain Modeling domain Maryland accounts for only 30% of its air pollution! Baseline 14

16 With the updated chemistry & emissions, Maryland accounts for a slightly larger percentage of its pollution* July 2011: Ozone Source Apportionment Fraction of total surface ozone attributed to the boundary conditions, Maryland, and everywhere else in the modeling domain Updated chemistry & emissions Modeling domain 15

17 *Changes in model attribute more pollution to power plants! More ozone is attributed to sources that emit from smokestacks (mostly power plants, but also cement kilns, ships, etc.) 16 Surface pollution sources Above surface pollution sources

18 July 2011 Mobile Source Apportionment Ozone from On-road Mobile (ppb)% of Ozone from On-road Mobile Baseline case (On-road mobile emissions likely overestimated) Mobile emissions account for ~15 ppb of ozone at 5 PM in Baltimore, which is about 35% of total ozone as an average in July 2011 17

19 50% Mobile NO x case July 2011 Mobile Source Apportionment Mobile emissions account for ~10 ppb of ozone at 5 PM in Baltimore, which is about 20% of total ozone as an average in July 2011 Ozone from On-road Mobile (ppb)% of Ozone from On-road Mobile 18

20 Importance of Boundary Conditions 19 Emissions outside of the state of Maryland, especially at the model domain boundaries, are becoming more important when trying to show future attainment Synoptic set-up during July 9, 2007 & July 7, 2011 was very similar, see extra slides for more detail

21 Conclusions CAMx v6.10 has excellent agreement with prediction of 8- hour maximum surface ozone –Mean bias: 1.06 ppb Changes to the model improve the biases of the precursors while only minimally affecting prediction of surface ozone –NO y high bias: from a factor of 2.0 to 1.5 –Formaldehyde low bias: from a factor of 0.57 to 1.15 Emissions from power plants account for a significantly larger percentage of ozone in the “improved” modeling scenario –On-road mobile accounted for 35% of ozone, now only 20% Ozone coming from the boundaries of the model domain has a non-trivial effect –> 20 ppb surface ozone in Maryland 20

22 Next steps Update model simulations to the CB6r2 gas- phase chemistry Assimilate O 3 from TES and NO 2 from OMI into the boundary conditions Adjust dry deposition rates of some reactive nitrogen species which are hypothesized to be underestimated 21

23 Conclusions CAMx v6.10 has excellent agreement with prediction of 8- hour maximum surface ozone. –Mean bias: 1.06 ppb Changes to the model improve the biases of the precursors while only minimally affecting prediction of surface ozone. –NO y high bias: from a factor of 2.0 to 1.5 –Formaldehyde low bias from a factor of 0.57 to 1.15 Emissions from power plants account for a significantly larger percentage of ozone in the “improved” modeling scenario. –On-road mobile accounted for 35% of ozone, now only 20% Ozone coming from the boundaries of the model domain has a non-trivial effect. –> 20 ppb surface ozone in Maryland 22

24 Synoptic Met: July 9, 2007

25 Synoptic Met: July 7, 2011

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