Presentation is loading. Please wait.

Presentation is loading. Please wait.

Implementation of a direct sensitivity method into CMAQ Daniel S. Cohan, Yongtao Hu, Amir Hakami, M. Talat Odman, Armistead G. Russell Georgia Institute.

Published byAnthony Holland Modified over 8 years ago

Similar presentations

Presentation on theme: "Implementation of a direct sensitivity method into CMAQ Daniel S. Cohan, Yongtao Hu, Amir Hakami, M. Talat Odman, Armistead G. Russell Georgia Institute."— Presentation transcript:

1 Implementation of a direct sensitivity method into CMAQ Daniel S. Cohan, Yongtao Hu, Amir Hakami, M. Talat Odman, Armistead G. Russell Georgia Institute of Technology, Atlanta, GA Presentation to Models-3 Users’ Workshop October 22, 2002

2 ( ) CMAQ CMAQ Δ ΔSIMULATIONSENSITIVITY

3 Uses of Sensitivity Policy development:Policy development: –Impact of emission control measures –Impact of new emitters Uncertainty analysis:Uncertainty analysis: –Dependence of model results on assumptions Inverse modeling (“Area of Influence”):Inverse modeling (“Area of Influence”): –Which emitters affect a receptor

4 Sensitivity Methods “Brute-Force” Method:“Brute-Force” Method: –Run CMAQ once for a “base case” –Run CMAQ again for each of N perturbations Direct Decoupled Method: (Dunker 1981, Yang et al., 1997)Direct Decoupled Method: (Dunker 1981, Yang et al., 1997) –Solve for sensitivities decoupled from concentrations, using the same numerical routines in a single CMAQ run –Local, first-order sensitivities:

5 Sensitivity Parameter (e.g., NO x Emissions) Conc. (e.g., O 3 )  DDM Sensitivity = tan(  ) pjpj BF  ∆Ci∆Ci DDM and Brute Force

6 I.C., B.C., Emissions Advection & Diffusion Chemistry Concentrations(t) Sensitivities(t) Direct Decoupled Method Concentrations (t+Δt) (t+Δt) Sensitivities (t+Δt)

7 Pros & Cons Brute Force: ▲ Simple ▲ Captures non-linearities ▼ Inefficient for large N ▼ Inaccurate for small perturbationsDDM: ▲ Efficient for large N ▲ Accurate for small perturbations ▼ Does not capture non-linearities

8 Demonstration of CMAQ-DDM Fall-Line Air Quality Study: Fall-Line Air Quality Study: Focus on Georgia Focus on Georgia 12 km horizontal; 13 layers 12 km horizontal; 13 layers SAPRC-99 chemistry SAPRC-99 chemistry SAMI emissions inventory SAMI emissions inventory DDM (implemented so far): gas-phase gas-phase first-order first-order emissions, I.C., & B.C. emissions, I.C., & B.C.

9 DDM: O 3 to Isoprene & NO x

10 Sensitivity to point NO emissions DDM to Actual NO Emissions DDM to 1 mol/s, Layer 6 Emission

11 DDM vs. Brute Force: Ozone Initial Conditions DDM Brute Force

12 DDM vs. Brute Force: Domainwide NO x Emissions DDM Brute Force

13 DDM vs. Brute Force: Single Point NO DDM Brute Force

14 Area of Influence R E E AOI E DDM E DDM shows impact of one emitter on concentrations domainwide To compute the receptor- based “Area of Influence”: 1.Compute DDM for unit emissions from various emitters E 2.Interpolate to obtain AOI of receptor R to every emitter E 3.Scale to amount of emissions at each E

15 AOI: Atlanta Ozone to NO Response to 1 mol/s NO source Scaled by NO emissions

16 AOI: Macon Ozone to NO Response to 1 mol/s NO source Scaled by NO emissions

17 Conclusions DDM and Area of Influence enhance the functionality of CMAQDDM and Area of Influence enhance the functionality of CMAQ Strong agreement with brute force, even for fairly large perturbationsStrong agreement with brute force, even for fairly large perturbations Future work will incorporate:Future work will incorporate: – higher-order sensitivities – aerosols – further exploration of AOI

Download ppt "Implementation of a direct sensitivity method into CMAQ Daniel S. Cohan, Yongtao Hu, Amir Hakami, M. Talat Odman, Armistead G. Russell Georgia Institute."

Similar presentations

High-Order DDM Sensitivity Analysis of Particular Matter in CMAQ Wenxian Zhang, Shannon Capps, Yongtao Hu, Athanasios Nenes, and Armistead Russell Georgia.

High-Order DDM Sensitivity Analysis of Particular Matter in CMAQ Wenxian Zhang, Shannon Capps, Yongtao Hu, Athanasios Nenes, and Armistead Russell Georgia.
Impact of Flare Emissions at Variable Operating Conditions on Air Quality in the Houston Region Wenxian Zhang, Erin E. Tullos, Yongtao Hu, Athanasios Nenes,

Impact of Flare Emissions at Variable Operating Conditions on Air Quality in the Houston Region Wenxian Zhang, Erin E. Tullos, Yongtao Hu, Athanasios Nenes,
Georgia Chapter of the Air & Waste Management Association Annual Conference: Improved Air Quality Modeling for Predicting the Impacts of Controlled Forest.

Georgia Chapter of the Air & Waste Management Association Annual Conference: Improved Air Quality Modeling for Predicting the Impacts of Controlled Forest.
Georgia Institute of Technology Evaluation of CMAQ with FAQS Episode of August 11 th -20 th, 2000 Yongtao Hu, M. Talat Odman, Maudood Khan and Armistead.

Georgia Institute of Technology Evaluation of CMAQ with FAQS Episode of August 11 th -20 th, 2000 Yongtao Hu, M. Talat Odman, Maudood Khan and Armistead.
CLIMATE CHANGE IMPACTS ON US AIR QUALITY: EXAMINATION OF OZONE AND FINE PARTICULATE MATTER CONCENTRATIONS AND THEIR SENSITIVITY TO EMISSION CHANGES Tagaris.

CLIMATE CHANGE IMPACTS ON US AIR QUALITY: EXAMINATION OF OZONE AND FINE PARTICULATE MATTER CONCENTRATIONS AND THEIR SENSITIVITY TO EMISSION CHANGES Tagaris.
Quantifying CMAQ Simulation Uncertainties of Particulate Matter in the Presence of Uncertain Emissions Rates Wenxian Zhang, Marcus Trail, Alexandra Tsimpidi,

Quantifying CMAQ Simulation Uncertainties of Particulate Matter in the Presence of Uncertain Emissions Rates Wenxian Zhang, Marcus Trail, Alexandra Tsimpidi,
Talat Odman and Yongtao Hu, Georgia Tech Zac Adelman, Mohammad Omary and Uma Shankar, UNC James Boylan and Byeong-Uk Kim, Georgia DNR.

Talat Odman and Yongtao Hu, Georgia Tech Zac Adelman, Mohammad Omary and Uma Shankar, UNC James Boylan and Byeong-Uk Kim, Georgia DNR.
Adaptive air quality management through operational sensitivity forecasting Amir Hakami and Matthew Russell 3 rd IWAQFR Workshop December 1, 2011.

Adaptive air quality management through operational sensitivity forecasting Amir Hakami and Matthew Russell 3 rd IWAQFR Workshop December 1, 2011.
Georgia Institute of Technology Air Quality Impacts from Prescribed Burning: Fort Benning Case Study M. Talat Odman Georgia Institute of Technology School.

Georgia Institute of Technology Air Quality Impacts from Prescribed Burning: Fort Benning Case Study M. Talat Odman Georgia Institute of Technology School.
Operational Air Quality and Source Contribution Forecasting in Georgia Georgia Institute of Technology Yongtao Hu 1, M. Talat Odman 1, Michael E. Chang.

Operational Air Quality and Source Contribution Forecasting in Georgia Georgia Institute of Technology Yongtao Hu 1, M. Talat Odman 1, Michael E. Chang.
Academic Developer’s Perspective Talât Odman Georgia Institute of Technology and Amir Hakami Carleton University, Canada 9 th Annual CMAS Conference October.

Academic Developer’s Perspective Talât Odman Georgia Institute of Technology and Amir Hakami Carleton University, Canada 9 th Annual CMAS Conference October.
Simulating diurnal changes of speciated particulate matter in Atlanta, Georgia using CMAQ Yongtao Hu, Jaemeen Baek, Bo Yan, Rodney Weber, Sangil Lee, Evan.

Simulating diurnal changes of speciated particulate matter in Atlanta, Georgia using CMAQ Yongtao Hu, Jaemeen Baek, Bo Yan, Rodney Weber, Sangil Lee, Evan.
1 CCOS Seasonal Modeling: The Computing Environment S.Tonse, N.J.Brown & R. Harley Lawrence Berkeley National Laboratory University Of California at Berkeley.

1 CCOS Seasonal Modeling: The Computing Environment S.Tonse, N.J.Brown & R. Harley Lawrence Berkeley National Laboratory University Of California at Berkeley.
Sensitivity of top-down correction of 2004 black carbon emissions inventory in the United States to rural-sites versus urban-sites observational networks.

Sensitivity of top-down correction of 2004 black carbon emissions inventory in the United States to rural-sites versus urban-sites observational networks.
Impact of Emissions on Intercontinental Long-Range Transport Joshua Fu, Yun-Fat Lam and Yang Gao, University of Tennessee, USA Rokjin Park, Seoul National.

Impact of Emissions on Intercontinental Long-Range Transport Joshua Fu, Yun-Fat Lam and Yang Gao, University of Tennessee, USA Rokjin Park, Seoul National.
Comparison of NO X emissions and NO 2 concentrations from a regional scale air quality model (CMAQ-DDM/3D) with satellite NO 2 retrievals (SCIAMACHY) over.

Comparison of NO X emissions and NO 2 concentrations from a regional scale air quality model (CMAQ-DDM/3D) with satellite NO 2 retrievals (SCIAMACHY) over.
EFFICIENT CHARACTERIZATION OF UNCERTAINTY IN CONTROL STRATEGY IMPACT PREDICTIONS EFFICIENT CHARACTERIZATION OF UNCERTAINTY IN CONTROL STRATEGY IMPACT PREDICTIONS.

EFFICIENT CHARACTERIZATION OF UNCERTAINTY IN CONTROL STRATEGY IMPACT PREDICTIONS EFFICIENT CHARACTERIZATION OF UNCERTAINTY IN CONTROL STRATEGY IMPACT PREDICTIONS.
Implementation of the Particle & Precursor Tagging Methodology (PPTM) for the CMAQ Modeling System: Mercury Tagging 5 th Annual CMAS Conference Research.

Implementation of the Particle & Precursor Tagging Methodology (PPTM) for the CMAQ Modeling System: Mercury Tagging 5 th Annual CMAS Conference Research.
Georgia Environmental Protection Division Uncertainty Analysis of Ozone Formation and Emission Control Responses using High-order Sensitivities Di Tian,

Georgia Environmental Protection Division Uncertainty Analysis of Ozone Formation and Emission Control Responses using High-order Sensitivities Di Tian,
Supermodel, Supermodel, Can I Breathe Tomorrow? Talat Odman* and Yongtao Hu Georgia Institute of Technology School of Civil & Environmental Engineering.

Supermodel, Supermodel, Can I Breathe Tomorrow? Talat Odman* and Yongtao Hu Georgia Institute of Technology School of Civil & Environmental Engineering.

Similar presentations

Ads by Google