emission controls affecting northeast texas
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Emission Controls Affecting Northeast Texas. Presentation to the NETAC Policy and Technical Committees Sue Kemball-Cook, Krish Vijayaraghavan, Allison DenBleyker and Greg Yarwood June 13, 2013 [email protected]. Impact of Local Emissions on Northeast Texas Ozone. - PowerPoint PPT PresentationTRANSCRIPT
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Emission Controls Affecting Northeast Texas
Presentation to the NETAC Policy and Technical Committees
Sue Kemball-Cook, Krish Vijayaraghavan, Allison DenBleyker and Greg Yarwood
June 13, 2013
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Impact of Local Emissions on Northeast Texas Ozone
• CAMx modeling results from June, 2006 episode• Largest ozone impacts from elevated point sources, on-road
mobile, off-road mobile, well-head compressors• Karnack similar to Tyler
Longview Ozone Impacts Tyler Ozone Impacts
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Federal Emission Control Programs Affecting Northeast Texas
• Overview of programs that affect Northeast Texas emissions source categories that have largest impact on local ozone– EGU NOx/SOx control programs– New Source Performance Standards affecting oil and gas
sources– Tier 4 regulations for off-road mobile sources– Proposed Tier 3 regulations for on-road mobile sources
• Additional federal and Texas regulations apply (e.g. East Texas Combustion Rule)
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Federal Control Programs Affecting EGUs
• Good Neighbor provision of Clean Air Act requires EPA and states to address transport of air pollution– 2005: Clean Air Interstate Rule (CAIR) – 2011: Cross-State Air Pollution Rule (CSAPR)
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Clean Air Interstate Rule (CAIR)• Cap-and-trade system for
achieving SO2 and NOx reductions – 2 step phase-in for NOx: 2009 and
2015• A state must either:
– meet its emission budget by requiring EGUs to participate in an EPA-administered cap and trade program, or
– meet its emissions budget through measures of the state’s choosing
• In 2008, D.C. Circuit Court of Appeals vacated CAIR, then remanded it back to EPA, leaving the Rule in place until a replacement could be issued
Figure from http://www.epa.gov/airmarkets/progsregs/cair/index.html
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Cross-State Air Pollution Rule (CSAPR)
• Developed in response to 2008 CAIR decision
• NOx/SOx reductions• Vacated by D.C.
Circuit Court in August, 2012– Litigation is on-going– CAIR remains in place
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Oil and Gas Sources: NSPS Subpart OOOO
• New Source Performance Standards apply to new, modified, or reconstructed major and minor emission sources
• EPA promulgated the Subpart OOOO rules in April 2012 • Controls VOC and SO2 at new and existing oil and
natural gas wells and gas plants• Mandatory controls for well site sources that were
previously unregulated – Well completions, pneumatic devices, condensate tanks and
dehydrators
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NSPS OOOO Requirements
• Reduced emission completions (green completions ) required after 6/1/2015.– Flaring allowed until
then• Well site compressors
and compressor stations are controlled through other regulations
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Stationary Engines: NSPS JJJJ
• NSPS Subpart JJJJ regulates NOx emissions from new and modified engines with a wide range of horsepower ratings – NOx emission standards phased in over time, eventually
requiring that all engines meet a 1.0 g/bhp-hr NOx emissions rate
• Some states have implemented more stringent regulations (e.g. the East Texas Combustion Rule) – Outside these areas, NSPS Subpart JJJJ remains the primary
regulatory control on compressor engines• Subpart JJJJ addresses only new and modified engines
– Existing gas development areas may continue use of engines that do not meet the Subpart JJJJ requirements
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Tier 4 Standards for Non-Road Diesel Engines• EPA emissions standards for new
non-road diesel engines: HC, NOx, CO and PM
• Implemented in tiers, with different standards and start years for different engine power ratings– Tier 4 emission standards phased in
over 2008-2015• Over time, off-road fleet turns over
and higher-emitting engines are replaced with lower-emitting engines
• Tier 4 standards require that emissions of PM and NOx be further reduced by about 90%– Exhaust aftertreatment
Reduction in fuel sulfur allows use of control technologies such as catalysts
Graphic from http://www.cumminspower.com/www/literature/technicalpapers/PT-9010-Tier4EmissionRegImpact.pdf
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Proposed Tier 3 Rule for On-Road Mobile Sources• Reduce exhaust and evaporative emissions through more stringent
emission standards for on-road LDVs, MDVs and some HDVs (all fuel types) and lower sulfur in gasoline– 10 ppm sulfur (annual average) compared to 30 ppm average in Tier 2
• New standards phase in 2017 to 2025.
Exhaust Pollutant
Emission Standard (mg/mi)Vehicles and Test procedure
Old (Tier 2) Tier 3
NMOG+NOx
160 30 Light and Medium Duty <10,000 lbs. GVWRa; FTP test
100 50 Light and Medium Duty <10,000 lbs. GVWR; SFTP test
278 178 Heavy Trucks 8,501-10,000 lbs. GVWR; FTP test
451 247 Heavy Trucks 10,001-14,000 lbs. GVWR; FTP test
None Variedb Heavy Trucks 8,501-14,000; SFTP test
Particulate Matter
10 3 Light and Medium Duty <10,000 lbs. GVWR; FTP test
N/A 10 or 20c Light and Medium Duty <10,000 lbs. GVWR; US06 cycle
N/A 8 or 10c Heavy Trucks 8,501-14,000 lbs. GVWR; FTP test
None Variedb Heavy Trucks 8,501-14,000; SFTP test
a Gross Vehicle Weight Ratingb First-time heavy-duty standards on the SFTP cycle vary by vehicle class and power-to-weight ratioc Emission standard depends on weight
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ENVIRON studies of LEV-III effects
• Modeled summer + winter incremental benefits in ozone and PM2.5 from successive US LDV standards (but not change in gasoline sulfur)– Journal article published in 2012
Effects of light duty gasoline vehicle emission standards in the United States on ozone and particulate matter. Atmospheric Environment. 60:109-120.
Gasoline LDV scenarios modeled for year 2022 (assuming that a different standard existed in each scenario in 2022):
– Tier 0 – Tier 1– Tier 2– LEV-III adopted nationwide– Zero-out all emissions from gasoline LDVs
• Follow-on summertime ozone study that considered the effect of reduced gasoline sulfur on VOC and NOx emissions– http://www.api.org/~/media/Files/News/2013/13-April/ENVIRON-Sep2012-Effects-o
f-LDV-Emiss-Stds-Gasoline-Sulfur-level-on-Ozone.pdf
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ENVIRON studies of LEV-III effects• State-of-the-science models
– MOVES to estimate nationwide on-road emissions– EMFAC model to estimate the incremental benefit of LEV III over LEV II– California Predictive model to estimate the VOC and NOx emissions effects of ~10
ppm gasoline sulfur relative to ~30 ppm sulfur– NMIM, MEGAN, SMOKE to estimate other emissions– CAMx to model ozone and PM2.5 at nested 36/12 km grid resolution.
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CONUS Total On-road Emissions (tons/day), July 2022
NOxVOC
Monthly Mean of Daily Max 8-hr Ozone in July 2022(Change in gasoline sulfur not considered)
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Tier 1 Tier 2 LEV III
Tier 2-Tier 1 LEVIII-Tier 2 No g-LDVs – Tier 2
Tier 2 up to 11% lower than Tier 1
Very small reduction(< 0.2%)
Eliminating cars and light trucks: up to 6% lower than
Tier 2Source: Vijayaraghavan et al., 2012
Monthly Mean of Daily Max 8-hr Ozone in July 2022(consider effect of gasoline sulfur change on VOC & NOx)
Tier 2 – Tier 1:
Tier 2 is up to 12 ppblower than Tier 1
LEV III – Tier 2(note different scale)
LEV III is up to 0.5 ppblower than Tier 2
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Summary
• Large reductions in summertime ozone in 2022 from Tier 1 to Tier 2• Relatively small reductions in ozone in 2022 from Tier 2 to a nationwide
implementation of a LEVIII–like standard (“Tier 3”) considering both emissions and gasoline sulfur reductions
• Reasons– Relatively small decrease in LDV emissions by 2022 from Tier 2 to LEV III
compared to decrease from Tier 1 to Tier 2– VOC and NOx from on-road LDVs are a relatively small fraction of the total
2022 inventory compared to other source categories• Additional air quality benefits are expected beyond 2022 as more LEV III
vehicles enter the vehicle fleet and the standard phases in.