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Quantification of emissions from methane sources in Indianapolis using an aircraft-based platform Maria Obiminda Cambaliza 1, Paul Shepson 1, Brian Stirm.

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Presentation on theme: "Quantification of emissions from methane sources in Indianapolis using an aircraft-based platform Maria Obiminda Cambaliza 1, Paul Shepson 1, Brian Stirm."— Presentation transcript:

1 Quantification of emissions from methane sources in Indianapolis using an aircraft-based platform Maria Obiminda Cambaliza 1, Paul Shepson 1, Brian Stirm 1, Colm Sweeney 2,3, Jocelyn Turnbull 2,3, Anna Karion 2, Ken Davis 4, Thomas Lauvaux 4, Scott Richardson 4, Natasha Miles 4, Kevin Gurney 5, Dana Caulton 1, Kelly Mays 1, Rachel Svetanoff 1, James R. Whetstone 6, Antonio Possolo 6, Daniel Samarov 6, Eric Crosson 7 1 Purdue University, 2 NOAA Earth System Research Laboratory, 3 CIRES, University of Colorado, 4 The Pennsylvania State University, 5 Arizona State University, 6 National Institute of Standards and Technology, 7 Picarro, Inc.

2 Background global warming potential of 25 over a period of 100 years Magnitude of individual sources of CH 4 is not well quantified Urban environments are significant sources of anthropogenic methane emissions – significantly larger than currently estimated (Mays et al., 2009, Wunch et al., 2009) – Does not correlate with combustion sources (Mays et al., 2009) Goals – Estimate the city-wide emission flux – Investigate and quantify source specific emissions – Carefully determine the magnitude of uncertainty

3 Experimental Set-up PFP Cal 1 Cal 2 Cal 3 PCP CRDS Calibration box Winds computer Purdue Airborne Laboratory for Atmospheric Research

4 Experimental Sampling Design Top of the boundary layer ~ 100 km edge

5 Flight Path: March 1, 2011 Indianapolis

6 Time series distribution of CO 2 and CH 4

7 Downwind Observed CH 4 distribution

8 Estimating the Emission Flux F c : area-averaged emission flux (mols/s) -x and +x: min and max horiz transect distance limits corresponding to the area bounded by the city Uij: gridded wind vector perpendicular to the flight path dx and dz: horizontal and vertical grid spacing [C] b : ave background estimated from the edge of the transect

9 Interpolated CH 4 distribution Chu, D. The GLOBEC kriging software package – EasyKrig3.0; The Woods Hole Oceanographic Institution: 2004. Available from http://globec.whoi.edu/software/kriging/easy_krig/easy_krig.html (accessed November 2010)http://globec.whoi.edu/software/kriging/easy_krig/easy_krig.html

10 Result of Flux Calculation Cityyear Analytical Technique population density, per km 2 Emission, mols s -1 Emission per capita, μmols s - 1 /person Mar 1 measurementIndianapolis2011 aircraft-based, CRDS86147 ± 1457 ± 17 Mays et al., 2009Indianapolis2008 aircraft-based, CRDS861102 ± 73123 ± 89 Wunch et al., 2009 South Coast air Basin, Southern CA2007-2008 ground-based open path FTS31681189 ± 198121 ± 20 Lowry et al., 2001London1996 - 1997 ground-based GC and IRMS for [CH 4 ] and  13 C measurement4807476 - 61867 - 87

11 Revisiting the curtain transect CH 4 distribution

12 Interpolated CH 4 distribution

13 Back Trajectories

14 Following the plume upwind...

15 Interpolated CH 4 distribution ~55%

16 Revisiting the Downwind Observed CH 4 distribution

17 Back trajectories corresponding to hot spots from the East Indianapolis Caldwell Landfill

18 Horizontal flight segments on May 4, 2011

19 CH 4 Curtain Distribution vs Longitude

20 Interpolated CH 4 Curtain Flight Distribution

21 Calculating the Energy Equivalent from the Caldwell Landfill, Morristown, IN Estimated Flux = 9.1 mols s -1 = 821 m 3 hr -1 1 m 3 CH 4 has an energy content of 2.9 kWhr at 30% efficiency 821 m 3 /hr * (2.9 kWhr/m 3 CH 4 ) = 2381 kWhr/hr From US EIA: In 2008, the average hourly electricity consumption for a US residential utility customer was 1.26 kWhr Emissions from the Caldwell landfill can provide energy for approximately: – ~ 1890 households (at 30% efficiency) Can provide energy for the city of Morristown which has a population of ~1400 We assume constant emission

22 Summary and Future Work Starting to gain better understanding of CH 4 sources and their magnitudes Combine aircraft flux measurements with mobile surface measurements of CH 4 Combine aircraft measurements with a Lagrangian particle dispersion model to determine the surface footprint corresponding to elevated CH 4 concentrations Need flask measurements to further constrain the location of CH 4 sources Acknowledgement: Funding from NIST

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