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12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 11 Recent Advances in High-Resolution Lagrangian Transport Modeling Roland Draxler, Ariel.

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Presentation on theme: "12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 11 Recent Advances in High-Resolution Lagrangian Transport Modeling Roland Draxler, Ariel."— Presentation transcript:

1 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 11 Recent Advances in High-Resolution Lagrangian Transport Modeling Roland Draxler, Ariel Stein, Jerome Brioude, Fong Ngan and Arlyn Andrews Kathryn McKain and Steven Wofsy Philip DeCola and Taylor Jones Jennifer Hegarty, Thomas Nehrkorn, Janusz Eluszkiewicz, John Henderson, Mark Leidner and Marikate Mountain

2 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 2 Lagrangian Particle Dispersion Model (LPDM) Inter- comparision –Evaluate LPDMs with controlled tracer release experiments Urban Greenhouse Gas (GHG) Simulations –Enable top-down monitoring of CO 2 and CH 4 emissions Focus on Meteorology Driving Transport Models

3 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 33 Lagrangian Particle Dispersion Model Intercomparison Evaluate widely-used LPDMs, HYSPLIT, STILT and FLEXPART using measurements from controlled tracer release experiments. –CAPTEX(1-5 and 7), Sept – Oct 1983, from Dayton, OH and Sudbury ON –ANATEX: January 1987 from Saint Cloud, MN (STC) and Glasgow, MT (GGW) LPDMs driven by hourly 10 km WRF fields –Several WRF configurations tested –Use of 3-hourly 32 km NARR-only fields for HYSPLIT and STILT provides a benchmark to assess added value from WRF. Hegarty et al., J. Appl. Meteor. Climatol., in press.

4 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 44 Evaluation and Sensitivity to Meteorological Inputs R - Correlation FB - Fractional bias, FMS - Figure of merit in space, KSP - Kolomogorov-Smirnov Parameter. NARR ONLY WRF avrginst pbl = 1pbl = 0pbl = 1pbl = 0 HYSPLIT2.132.422.342.29 STILT2.122.392.26 2.27 FLEXPART2.332.122.322.11 Sensitivity to WRF inputs: 1. Nudging of winds in PBL turned on (pbl=1) or off (pbl=0) 2. Use time-averaged (avrg) or instantaneous (inst) wind fields Average Rank

5 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 55 Impact of PBL Wind Nudging ANATEX-GGW: 1400 UTC 13 January 1987, 69 and 9 hours post release Plume transport too fast without nudging of PBL winds. HYSPLIT 24 h PTCH

6 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 6 Findings from LPDM Intercomparison The three LPDMs have comparable skill when driven by the same meteorological inputs Higher resolution beneficial to LPDMs –Hourly 10 km WRF fields produce better HYPLIT and STILT simulations than 32-km 3-hourly NARR fields Nudging of PBL winds beneficial to all 3 LPDMs, particularly for FLEXPART Time averaged wind fields beneficial to HYSPLIT and STILT.

7 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 77 WRF Model Data Available at http://www.arl.noaa.gov/DATEM_WRF-ARW.php Follow DATEM link for observations, statistics, reports and HYSPLIT/STILT configuration files.

8 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 88 Urban Greenhouse Gas Emission Modeling Monitoring of anthropogenic emissions from urban areas needed for international treaty verification /climate projections –Urban areas produce significant portion of global emissions Top-down approach employs modeling with measured concentrations to detect trends using inverse techniques Salt Lake City and Boston –CO 2 and CH 4

9 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 99 WRF-STILT Urban GHG Modeling Approach WRF - nested domains down to 1.33 km grids STILT modeling: –Compute backward trajectories and influence regions (“footprints”) for measurement sites –Couple with background concentration and surface flux estimates for comparison with observations Footprints represent the adjoint of the transport model, enabling efficient inverse quantification of emissions.

10 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 10 Salt Lake City WRF Domains d01: 36km, d02: 12km, d03: 4km, d04: 1.33km (Enhanced WRF run option)

11 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 11 Enhanced WRF Improves CO 2 Simulations in Salt Lake City CO 2 (ppmv) Mean Diurnal CO 2 Cycle OBS 4 km, No UCM 1.33 km, UCM Hour (UTC) High-resolution and Urban Canopy Model (UCM) improve diurnal cycle and enable more robust trend detection 1,2 1 McKain et al., 2012: Proc. Natl. Acad. Sci., 109, 8423–8428. 2 Nehrkorn et al., 2013: J. Appl. Meteorol Climatol., 52, 323–340. No UCM UCM WRF vs Observed Ѳ Profile

12 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 12 Boston Area Measurement Network CO2 Emissions

13 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 13 Average CH 4 Diurnal Cycle for November 2012 Hour UTC Simulations have difficulty reproducing diurnal cycle, particularly during morning growth phase of PBL.

14 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 14 Quality Control WRF with Mini Micro-Pulse LiDAR MiniMPL Aerosol BackscatterBalloon Sondes Data The Sigma Space Corporation Micro- Pulsed LiDAR provides continuous, automated measurements of aerosol backscatter to diagnose PBL structure. MiniMPL yields high temporal and spatial resolution data, yet are affordable, portable, and meet eye safety standards.

15 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 15 WRF Model PBL Height vs MiniMPL Backscatter Data MPL Data Guides Model Diagnostics and Improvements Boston July 16, 2012

16 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 16 Boston Modeling Objectives Optimize WRF-STILT to enable accurate estimates of urban GHG emissions –Verification of bottom-up inventories –Quantify CH 4 gas leaks in Boston Use MiniMPL to quality-control WRF PBL –Remove periods of suspect WRF simulations from inversion –Quantify impact on emissions estimates from WRF errors –Optimize WRF configuration

17 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 17 Summary LPDMs highly sensitive to quality of meteorological inputs. WRF enhanced with urban canopy model and high spatial resolution enables better top-down emissions estimates in urban areas. Work ongoing to optimize WRF-STILT for monitoring GHG emissions utilizing advanced instrumentation and robust measurement networks.

18 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 18 Additional Slides

19 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 19 Enhanced WRF Improves CO 2 Simulations in Salt Lake City Mean Diurnal CO 2 Cycle OBS 4 km, No UCM 1.33 km, UCM CO 2 (ppmv) Hour (UTC) WRF with Urban Canopy Model (UCM) captures evening collapse of convective boundary layer. No UCM UCM

20 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 20 Effect of High-resolution, UCM on Salt Lake City CO 2 simulation Improved diurnal cycle of CO 2 –improvement in late afternoon concentrations –still leaves issues with nighttime/early morning maximum High-resolution and UCM enable more robust trend detection 1,2 1 McKain et al., 2012: Proc. Natl. Acad. Sci., 109, 8423–8428. 2 Nehrkorn et al., 2013: J. Appl. Meteorol Climatol., 52, 323–340.

21 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 21 Boston Area WRF Domains d04:1.33 km,used for verification d01:36 km d02:12 km d03:4 km

22 12 h Annual CMAS Conference Chapel Hill, NC, October 28-30, 2013 22 Enhanced WRF Improves CO 2 Simulations in Salt Lake City Mean Diurnal CO 2 Cycle OBS 1.33 km with UCM 4 km without UCM Observed Without UCM With UCM CO 2 (ppmv) Hour (UTC) WRF with Urban Canopy Model (UCM) captures evening collapse of convective boundary layer.

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