ICI Boilers EPA Meeting November 21, 2008. Why control ICI boilers? Important source of SO 2 and NO...
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Transcript of ICI Boilers EPA Meeting November 21, 2008. Why control ICI boilers? Important source of SO 2 and NO...
![Page 1: ICI Boilers EPA Meeting November 21, 2008. Why control ICI boilers? Important source of SO 2 and NO x emissions Cost-effective emission reductions achievable.](https://reader036.fdocuments.in/reader036/viewer/2022062304/56649f535503460f94c77828/html5/thumbnails/1.jpg)
ICI Boilers
EPA MeetingNovember 21, 2008
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Why control ICI boilers?
• Important source of SO2 and NOx emissions
• Cost-effective emission reductions achievable
• Emission reductions provide regional and local air quality benefits (needed for ozone, PM2.5, and haze)
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Overview• Background: review State Collaborative
process and emissions inventories
• Workgroup recommendations• Performance-based emission limitations• Emissions reporting• Combustion tuning
• Analysis of recommended emission limits• Costs• Emissions reduction• Air quality impact
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State Collaborative Process• December 2005 Meeting
• NE and MW Commissioners/Directors met to discuss coordinating control programs to meet current NAAQS, and preparing for new, tighter NAAQS
• Agreed to explore several control measures, including– One consistent environmentally-sensitive formulated gasoline
– Consistent standards for a range of consumer products
– ICI boilers
• Regular Conference Calls• On-going discussions over past couple years• Formed workgroup with staff from NE and MW states to
prepare a recommendation on ICI boilers• Agreed to send letter to EPA
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• Letter to EPA (Indiana - November 15, 2007,
16 other states - June 11, 2008)• Asks for a dialogue to address multi-pollutant air quality
problems in eastern U.S.• Dialogue to include identifying strategies for achieving
effective, equitable, and necessary emission reductions (e.g., 3rd phase of reductions for EGUs, and controls for existing ICI boilers)
State Collaborative Process
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EPA’s NEI: NOx Emissions
Note: EPA’s area source emission estimates are uncertain
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Total Point: 679,000Total Area: 712,000Grand Total: 1,391,000
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Note: EPA’s area source emission estimates are uncertainTotal Point: 679,000Total Area: 712,000Grand Total: 1,391,000
EPA’s NEI: NOx Emissions
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Total Point: 970,000Total Area: 1,037,000Grand Total: 2,007,000
Note: EPA’s area source emission estimates are uncertain
EPA’s NEI: SO2 Emissions
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Note: EPA’s area source emission estimates are uncertainTotal Point: 970,000Total Area: 1,037,000Grand Total: 2,007,000
EPA’s NEI: SO2 Emissions
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Regional Differences
• LADCO States - Coal-fired boilers and boilers > 100 MMBTU/hr important– Coal-firing: 60% NOx, 90% SO2
– Large Boilers: 86% NOx, 93% SO2
• OTC States – Oil- and gas-fired boilers and boilers < 100 MMBTU/hr important– Oil/gas-firing: 72% NOx, 43% SO2 emissions – Small Boilers: 52% NOx (oil), 50% NOX (gas)– Area Sources (smaller boilers): 66% emissions
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NOx SO2
Option Gas Oil Coal Gas Oil Coal
Combustion Modification
Tune-ups (15%)
Tune-ups (15%)
Tune-ups (15%)
LNB (50%) LNB (50%) LNB (50%)
LNB + FGR (60%)
LNB + FGR (60%)
LNB + FGR (60%)
ULNB (75%) ULNB (75%) ULNB (75%)
Fuel Treatment
COG Desulf. (95%)
Lower S Oil(75-95%)
Post-Comb. Controls
SNCR (45%)
SNCR (45%)
SNCR (45%)
Dry Sorbent Inject. (40%)
SCR (85%) SCR (85%) SCR (85%) Dry FGD (85-95%)
Wet FGD (85-95%)
Control Options
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Workgroup Recommendation1. Emissions limitations (performance-based)
• For NOx and SO2 on certain boiler sizes and fuel types, based on available inventories and/or recent state actions
2. Emissions reporting for units ≥ 25 mmBtu/hr• Total annual consumption by fuel type• Results of any fuel analyses• Results of emission measurements
3. Combustion tuning (units > 25 MMBTU/hr)• Performed on annual basis
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Workgroup’s NOx Emission Limitations
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Workgroup’s SO2 Emission Limitations
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Analysis of Recommended Emission Limitations
• Costs
• Emissions Reduction
• Air Quality Impact
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Costs: Background Documents• Numerous background documents were
reviewed (EPA, DOE, OTAG, NACAA*, NESCAUM, LADCO, Federal & State regulations, etc.)
• Control Cost Methodology derived mainly from:– “Midwest RPO BART Engineering Analysis” MACTEC, March 30, 2005– “ACT Document – NOx Emissions from ICI Boilers”, EPA 453/R-94-022, March 1994
*NACAA formerly STAPPA & ALAPCO
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Types of NOx Control Equipment Analyzed
• Low NOx Burners (LNB)
• Low NOx Burners plus Flue Gas Recirculation (LNB+FGR)
• Low NOx Burners plus Selective
Non-Catalytic Reduction (LNB+SNCR)
• Selective Non-Catalytic Reduction (SNCR)
• Selective Catalytic Reduction (SCR)
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Types of SO2 Control Equipment Analyzed
• Dry Flue Gas De-Sulfurization (Dry FGD)
• Wet Flue Gas De-Sulfurization (Wet FGD)
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100 MMBTU/hr 250 MMBTU/hr 750 MMBTU/hr
Cost Effectiveness: NOx$22,000 $22,000 $10,900 $11,600
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100 MMBTU/hr 250 MMBTU/hr 750 MMBTU/hr
Cost Effectiveness: SO2
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Emission Reductions: NOxCoal
Tons per YearReduction Point: 356,000Reduction Area: 287,000Reduction Total: 643,000
Oil and Gas
Note: Reduction estimates for area source emissions are uncertain
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Tons per YearReduction Point: 649,000Reduction Area: 458,000Reduction Total: 1,107,000
Emission Reductions: SO2Coal
Oil and Gas~98,000 ~156,000
Note: Reduction estimates for area source emissions are uncertain
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Air Quality ImpactChange in Annual PM2.5 Change in Daily PM2.5
Note: decreases in urban nonattainment areas are on the order of 0.3 ug/m3 (annual) and 1 ug/m3 (daily)
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Next Steps
• Complete documentation for recommendation (Technical Support Document)
• Transmit recommendation to EPA
• Meet with stakeholders
• Work with EPA• Coordination on boiler MACT• Support EPA rulemaking
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Bonus Material
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NOx Emissions Impact
Reduction Point: 356,000Reduction Area: 287,000Reduction Total: 643,000
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SO2 Emissions Impact
Reduction Point: 649,000Reduction Area: 458,000Reduction Total: 1,107,000