1 Emission and Air Quality Trends Review 1999-2011 North Dakota July 2013.

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1 Emission and Air Quality Trends Review North Dakota July 2013

2 Project Objective  To develop and present publicly available information on trends in emissions and ambient air quality in the U.S. since 1999 in easy to understand visual and tabular formats

3 Emission Trends  Study Team collected and processed U.S. EPA emission inventories for years within the study period of interest ( )  By pollutant and source category electric utility coal fuel combustion mobile sources industrial fuel combustion & industrial processes all other

4 Emissions Data Summary  Data Obtained from EPA National Emission Inventory (NEI) and Trends Websites EPA’s Trends reports and emission comparisons include interpolations of all categories between key years (1999, 2002, 2005, 2008, 2011) at county-pollutant level Represented Pollutants: VOC, NOx, SO 2, and PM 2.5  Project Improvement The Study Team augmented above data with year specific CEM emissions (2002 through 2011)

5 Emission Changes  The following slides also include the tonnage-based emissions change from 1999 to 2011 for each pollutant  Negative values indicate decrease in emissions, positive values indicate an increase

6 North Dakota Emission Trends (VOC) Annual Emissions (Tons) Source Category Electric Utility Coal Fuel Combustion Mobile Sources29,70727,72329,07626,28225,06523,84922,30021,64420,98920,155 Industrial Fuel Combustion & Processes61,32964,34118,32722,82822,65822,48722,31722,14621,97621,775 All Others Total91,89592,92648,15949,85248,43747,02945,33244,47943,63942,683 Annual Emissions Change (Percent since 1999) Source Category Electric Utility Coal Fuel Combustion0% -12%-13%-17%-19%-17%-20%-21%-18% Mobile Sources0%-7%-2%-12%-16%-20%-25%-27%-29%-32% Industrial Fuel Combustion & Processes0%5%-70%-63% -64% All Others0% -89% 5630% Total0%1%-48%-46%-47%-49%-51%-52%-53%-54%

7 North Dakota Emission Trends (VOC)

8 North Dakota Emission Trends (NOx) Annual Emissions (Tons) Source Category Electric Utility Coal Fuel Combustion79,83779,38775,30376,38072,40670,16466,83762,26754,60051,014 Mobile Sources84,77481,97083,77588,02884,42280,81676,33373,72571,11666,232 Industrial Fuel Combustion & Processes25,62325,92315,12217,63617,59217,54917,50617,46217,4199,844 All Others Total190,257187,304174,203182,046174,423168,532160,678153,457143,138127,501 Annual Emissions Change (Percent since 1999) Source Category Electric Utility Coal Fuel Combustion0%-1%-6%-4%-9%-12%-16%-22%-32%-36% Mobile Sources0%-3%-1%4%0%-5%-10%-13%-16%-22% Industrial Fuel Combustion & Processes0%1%-41%-31% -32% -62% All Others0%4%-88% 1725% Total0%-2%-8%-4%-8%-11%-16%-19%-25%-33%

9 North Dakota Emission Trends (NOx)

10 North Dakota Emission Trends (SO 2 ) Annual Emissions (Tons) Source Category Electric Utility Coal Fuel Combustion189,675156,026139,823137,373128,879136,263132,564129,353124,05992,613 Mobile Sources6,5486,6666,4176,5215,6404,7603,6402,8292, Industrial Fuel Combustion & Processes118,566122,41319,44416,12316,122 16,121 16,12010,090 All Others Total314,869285,176165,684160,017150,643157,146152,327148,303142,196103,031 Annual Emissions Change (Percent since 1999) Source Category Electric Utility Coal Fuel Combustion0%-18%-26%-28%-32%-28%-30%-32%-35%-51% Mobile Sources0%2%-2%0%-14%-27%-44%-57%-69%-95% Industrial Fuel Combustion & Processes0%3%-84%-86% -91% All Others0%-11%-99% -72% Total0%-9%-47%-49%-52%-50%-52%-53%-55%-67%

11 North Dakota Emission Trends (SO 2 )

12 North Dakota Emission Trends (PM 2.5 ) Annual Emissions (Tons) Source Category Electric Utility Coal Fuel Combustion5,2036,4676,4406,8486,6626,3066,5186,4776,1472,484 Mobile Sources6,0295,5425,4005,3605,0934,8254,8274,5854,3424,031 Industrial Fuel Combustion & Processes10,97111,5969,6809,3099,2669,2229,1799,1359,0924,163 All Others70,94869,23544,96244,963 70,497 Total93,15192,84166,48166,48065,98365,31765,48865,16164,54481,175 Annual Emissions Change (Percent since 1999) Source Category Electric Utility Coal Fuel Combustion0%24% 32%28%21%25%24%18%-52% Mobile Sources0%-8%-10%-11%-16%-20% -24%-28%-33% Industrial Fuel Combustion & Processes0%6%-12%-15%-16% -17% -62% All Others0%-2%-37% -1% Total0% -29% -30% -31%-13%

13 North Dakota Emission Trends (PM 2.5 )

14 Emission Trends Summary  All pollutants have decreased since 1999 in aggregate across North Dakota  NOx and SO2 from Electric Utility Fuel Combustion sources show decrease over time as a result of participation in the Acid Rain Program  Onroad emission step increase seen between 2004 and 2005 is the result of EPA’s method change and MOVES model integration for estimating onroad mobile source emissions

15 Air Quality Design Values  Ozone Annual 4 th highest daily maximum 8-hour average averaged over three consecutive years Current standard = ppm  PM 2.5 Annual Annual arithmetic mean of quarterly means averaged over three consecutive years Current standard = 12 ug/m 3  PM Hour Annual 98 th percentile of daily averages averaged over three consecutive years Current standard = 35 ug/m 3

16 State-Wide Design Value (DV) Trends  Trends in state-wide maximum DV and average DV Max DV: Maximum DVs over all valid trend monitoring sites in the state in each overlapping three year period Average DV: Average of DVs over all valid trend monitoring sites in the state in each overlapping three year period  Compute linear trend via least-squares regression

17 Data Handling Procedures  O 3 design value (DV) for each overlapping three- year period starting with and ending with DV calculated using annual 4 th highest daily max 8-hr averages and percent of valid observations, based on EPA data handling conventions Data associated with exceptional events that have received EPA concurrence are omitted Selection of trend sites require valid DV in 9 out of 11 three-year periods between 1999 and 2011 Identification of nonattainment areas is with respect to the hour standard only

18 Data Handling Procedures  Annual PM 2.5 DV and 24-hr PM 2.5 DV for each overlapping three-year period starting with and ending with DV calculations based on EPA data handling conventions Data extracted from monitors that have a non- regulatory monitoring type are omitted Selection of trend sites require valid DV in 9 out of 11 three-year periods between 1999 and 2011

19 Trend Calculation  Trends based on linear least squares fit to rolling three year design values (DVs)  Negative trend indicates improving air quality  DVs based on each 3-year period: , , …  Notes On plots, DVs are for three year period ending in year shown (i.e., DV plotted as 2011 value) Ozone trend values expressed as ppb/year (1,000 ppb = 1 ppm); DVs are plotted as ppm Scale in units of ppm Trend in units of ppb/year

20 Max/Ave O 3 DVs and Trend

21 Ozone Trends by Site in North Dakota Note: Only monitoring sites meeting data completeness criteria listed Monitoring SitesCounty DV [ppm] Trend [ppm/yr] Cass, ND Mercer, ND

22 Max/Ave PM 2.5 Annual DVs and Trend

23 Max/Ave PM Hour DVs and Trend

24 PM 2.5 Trends by Site in North Dakota Note: Only monitoring sites meeting data completeness criteria listed DV [ug/m 3 ] Trend [ug/m 3 per year] Monitoring SiteCountyAnnual24-HrAnnual DV24-Hr DV Billings Burleigh Cass Mercer

25 Air Quality Trends Summary  Based on data from two monitor stations, average O 3 design values have remained steady since 1999 in North Dakota; average annual and 24-hour PM 2.5 design values have also remained steady since 1999 in North Dakota.  There are no currently designated O 3 or PM 2.5 non-attainment areas in North Dakota.