INDUSTRIAL BOILER MACT (40 CFR 63 Subpart DDDDD)

Slides:

Advertisements

Similar presentations

Cathy Beahm Technical Assistance Specialist NH DES, Air Resources

Advertisements

MSW NESHAP Control Requirements Contains the same requirements as NSPS/EG. Requires gas collection and control system (GCCS) for same landfill as NSPS/EG.

National Emission Standards for Hazardous Air Pollutants: Municipal Solid Waste Landfills.

METAL COIL SURFACE COATING MACT OVERVIEW 40 CFR PART 63, SUBPART SSSS May CFR PART 63, SUBPART SSSS May 2006.

METAL CAN SURFACE COATING MACT OVERVIEW 40 CFR PART 63, SUBPART KKKK June CFR PART 63, SUBPART KKKK June 2006.

METAL FURNITURE SURFACE COATING MACT COMPLIANCE ASSURANCE

METAL COIL SURFACE MACT COMPLIANCE ASSURANCE 40 CFR PART 63, SUBPART SSSS May 2006 May 2006.

Compliance Dates The final rule was published on January 25, 1995,

Impacts of the New Boiler MACT Rules Les Oakes King & Spalding.

Part 63 Boiler Rule for Area Sources AWMA Conference September 11-14, 2012 Biloxi, MS Lee Page Air Toxics Assessment and Implementation Section U.S. Environmental.

Delivering sustainable solutions in a more competitive world Proposed Area and Major Source Boiler NESHAP Overview David Dunn Environmental Resources Management.

U.S. Environmental Protection Agency April 13, 2011 Final Rules to Reduce Air Toxics from Boilers.

ECMPS Reporting Requirements under the MATS Rule

Boiler GACT Update Georgia AWMA Conference

EPA Proposed Mandatory Greenhouse Gas Reporting Rule.

EPA Proposed Mandatory Greenhouse Gas Reporting Rule.

RICE MACT and Oil Analysis

Florida Department of Environmental Protection Mercury from Electric Utilities: Monitoring and Emission Reductions Greg DeAngelo & Tiffany Miesel Florida.

MATS 2015: Are Your Units Ready? Outage Management for Power Plants July 15, 2014 Stephanie Sebor.

Air Toxics Rule Changes (pursuant to Session Law ) North Carolina Division of Air Quality July 2013 Environmental Management Commission.

New Federal Regulations for Internal Combustion Engines Doug Parce.

Recent EPA Regulation Development Presented by Bill Luthans to the 56 th Meeting of the Joint Advisory Committee Meeting for the Improvement of Air Quality.

MCIC Workshop 2012 Complying with NC Air Quality Regulations Boiler MACT/GACT and 112j Steve Schliesser Division of Air Quality Environmental Engineer.

Wes Thornhill, Chief Industrial Chemicals Section Air Division

State Implementation of Risk-Based MACT Exemptions Region 4 Permit Managers Meeting Rhonda B. Thompson, P.E., Director Engineering Services Division SC.

Boiler MACT and Other Air Developments 2011 Southern Section AWMA Conference Callaway Gardens, GA Boiler MACT and Other Air Developments 2011 Southern.

Division of Air Quality Update on EPA Boiler MACT Rules Steve Schliesser Environmental Engineer March 2012.

April 15, 2015 Betty Gatano, P.E. Permitting Section North Carolina Division of Air Quality, Raleigh, NC (919)

1 Year in Review: Clean Air Act Presented by: Tom Wood Stoel Rives LLP October 8, 2010 Things Are Getting Really Complicated.

Revisiting the Impact of Judicial Review on Agency Rulemakings: An Empirical Investigation Wendy Wagner University of Texas School of Law.

EPA Regulations On Electric Utility Generating Units (EGU)

NCMA Workshop March 24, 2015 Booker Pullen Supervisor, Permitting Section North Carolina Division of Air Quality, Raleigh, NC (919) Permitting.

A History and Status of CEMS Applications in USEPA Regulations Dale Evarts US EPA December 16, 2002 Better Air Quality in Asian Cities 2002

Compliance Update NCMA 2015.

INDUSTRIAL BOILER MACT RULE (Title 40 CFR 63 Subpart DDDDD)

Classification of Air Pollutants

Kim Garnett Measurement Technology Workshop 2013 January 29-31, 2013.

December 4, Utility MACT Air & Waste Management Association/EPA Information Exchange December 4, 2002 William H. Maxwell Combustion Group/ESD.

Robert L. Burns, Jr., Esq. Buchanan Ingersoll & Rooney PC August 1, 2013 Impact of Environmental Regulation on Coal Combustion for Electrical.

Clean Air Markets Program Data

A&WMA Georgia Regulatory Update Conference Current State of the Air in GA Jac Capp, GA EPD, Branch Chief, Air Protection Branch April 16, 2013.

Air Toxics in Region 4 A&WMA Annual Conference August 6, 2008 Lee Page Air Toxics Assessment and Implementation Section EPA, Region 4 Atlanta, Georgia.

Particulate Matter Monitoring Required by the Utility MATS Eric Swisher| | ext. 17 August 22, 2012 Presented to ARIPPA.

Actions to Reduce Mercury Air Emissions and Related Exposure Risks in the United States Ben Gibson Office of Air Quality and Planning and Standards U.S.

Health Based Compliance Alternatives (HBCA) under MACT (Maximum Achieveable Control Technology): Permitting Challenges Cindy Phillips, P.E. FDEP Bureau.

Air Toxics Rule Changes (pursuant to Session Law ) North Carolina Division of Air Quality Air Toxics Rule Changes Stakeholder Meeting March 20,

| Philadelphia | Atlanta | Houston | Washington DC Boiler MACT Compliance Plans: Failure to Develop Plans Is Planning to Fail Susie Bowden|

Electronic Reporting Tool Software to Standardize Source Test Planning, Reporting and Assessment and Assessment Measurement Technology Workshop 12/8/2010.

PRIVILEGED & CONFIDENTIAL Reciprocating Internal Combustion Engine (RICE) Regulatory Update American Public Power Association June 8, 2010.

UTILITY MACT WORKING GROUP STATE AND LOCAL STAKEHOLDER RECOMMENDATIONS.

NSPS Residential Wood Heater Recommendations WESTAR Meeting Portland, OR November 18, 2009 Lisa Rector Senior Policy Analyst

NTEC -- April 24, Utility Air Toxics Regulatory Finding National Tribal Environmental Council April 24, 2001 William H. Maxwell U.S. EPA OAQPS/ESD/CG.

Presumptive MACT For Municipal Solid Waste Landfills July 1999 Emission Standards Division US Environmental Protection Agency.

Georgia’s 112(g) Experiences Eric Cornwell Acting Manager Permitting Program.

Massachusetts’ 4-Pollutant Power Plant Regulations Sharon Weber Massachusetts Department of Environmental Protection Air Innovations Conference - August.

The Paper and Other Web Coating (POWC) MACT – Executive Summary The executive summary is a power point presentation designed to be used for basic education.

Massachusetts Multi-pollutant Power Plant Regulations Sharon Weber Massachusetts Department of Environmental Protection EPA Utility MACT Working Group.

Compliance Assurance Monitoring (CAM) November 24, 2009.

Update on Methane Regulations Affecting Landfills Pat Sullivan Senior Vice President SCS Engineers Nov. 10, 2015.

1 Emissions Measurement and Monitoring Projects Update Robin Segall Office of Air Quality Planning and Standards US Environmental Protection Agency Measurement.

Main flexibility tools for the adoption of high emission standards for LCPs set in the new Industrial Emissions Directive Gerard Lipinski Coordinator of.

Regulatory background How these standards could impact the permitting process How is compliance with the standards assessed.

All About Waste Dallas, TX ♦ May 18, 2016 Carrie Yonley, P.E.

APPA Conference Call on EGU MACT Rule January 20, 2011.

RACT 2 – Source Testing and Monitoring Requirements Air Quality Technical Advisory Committee August 4, 2016 Harrisburg, PA Tom Wolf, GovernorPatrick McDonnell,

Complying with Periodic Emissions Monitoring Requirements

Introduction to the Definition of Solid Waste Final Rule

What is the Boiler NESHAP?

Boiler Sheltered Initiative

EPA/OAQPS Pollutant Emissions Measurement Update 2019

Presentation transcript:

INDUSTRIAL BOILER MACT (40 CFR 63 Subpart DDDDD) Atlanta, Georgia May 24, 2006

IMPORTANT DATES Proposal Date – January 13, 2003 Promulgation Date – September 13, 2004 Compliance Date Existing units - September 13, 2007 New units – startup

INDUSTRIAL BOILER MACT Source categories included: Industrial Boilers Institutional/Commercial Boilers Process Heaters Indirect-fired – combustion gases do not come in contact with process materials.

EMISSIONS LIMITS Existing Units Existing large solid fuel units PM -- 0.07 lb/million Btu, OR TSM – 0.001 lb/million Btu HCl -- 0.09 lb/million Btu (~ 90 ppm) Hg – 9 lb/trillion Btu Existing limited use solid fuel units PM -- 0.21 lb/million Btu, OR TSM – 0.004 lb/million Btu No emissions standards for: existing small solid fuel units existing liquid fuel units existing gaseous fuel units No work practice standards

EMISSION LIMITS and WORK PRACTICE STANDARDS New Units New solid fuel units PM -- 0.025 lb/million Btu, OR TSM 0.0003 lb/million Btu HCl -- 0.02 lb/million Btu (20 ppm) Hg -- 3 lb/trillion Btu CO -- 400 ppm @ 7% oxygen (NOT FOR SMALL UNITS) New liquid fuel units PM -- 0.03 lb/million Btu HCl -- 0.0005 lb/million Btu (large units) 0.0009 lb/million Btu (small and limited use units) CO – 400 ppm @ 3% oxygen (NOT FOR SMALL UNITS) New gaseous fuel-fired units CO – 400 ppm @ 3% oxygen (NOT FOR SMALL UNITS)

COMPLIANCE OPTIONS Conduct stack emission tests Conduct fuel analysis Emissions averaging (large solid fuel units only) Health-based compliance alternatives for HCl and TSM

COMPLIANCE TESTING Performance tests (stacks tests) Fuel analyses Annual performance tests Based on average of 3 test runs Based on worst fuel type or mixture AND/OR Fuel analyses Initial and every 5 years Each new fuel type Based 90% confidence level of minimum 3 fuel samples

COMPLIANCE TESTING Performance Tests Requirements Listed in Table 5 of Subpart DDDDD of Part 63 Common EPA test methods for PM, TSM, HCl, mercury, and CO limits EPA Method 1: sampling location/traverse points EPA Method 2: velocity/volumetric flowrate EPA Method 3: oxygen/CO2 concentration EPA Method 4: moisture content EPA Method 19: converting concentrations to lb/MMBtu by using F-factor For PM EPA Methods 5 or 17 For TSM EPA Method 29 For HCl EPA Method 26 or 26A For mercury EPA Method 29 or 101A ASTM D6522-00 or PTC 19, Part 10 For CO EPA Methods 10, 10A, or 10B ASTM D6522-00 (natural gas only)

COMPLIANCE TESTING Fuel Analysis Requirements Listed in Table 6 to Subpart DDDDD Required steps Collect samples (using procedure in 63.7521(c) or ASTM D2234-00 Composite fuel samples (63.7521(c)) Prepare composite samples (ASTM D2013-01) Determine heat content (ASTM D5865-03a) Determine moisture content (ASTM D3173-02) Determine HAP concentration (Listed method or equivalent) Convert HAP concentration to lb/million Btu

COMPLIANCE TESTING Fuel Analysis Requirements (cont.) Must use equation 8 to demonstrate compliance One-sided z-statistic test P90 = mean + (SD * t) P90 = 90th percentile confidence level Mean = Arithmetic average concentration in the fuel samples SD = Standard deviation in the fuel samples t = t distribution critical value for 90th percentile (0.1) probability for appropriate degrees of freedom (number of samples minus one) obtained from Distribution Critical Value Table. Based on worst fuel type or mixture

SPECIAL TESTING REQUIREMENTS New liquid fuel that burn only fossil fuel and do not burn residual oil (40 CFR 63.7506(a)) Not required to conduct performance tests for PM and HCl Must submit documentation Must still demonstrate compliance with CO limit Use of alternative test methods Must petition EPA for approval (40 CFR 63.7)

COMPLIANCE MONITORING Continuous compliance based on monitoring and maintaining operating limits Operating limits For PM, TSM and mercury limits Opacity (for dry systems) Existing units – 20% opacity (6 minute average) New units – 10% opacity (1 hour block average) Control device parameters (for wet systems) Established during initial compliance test Fuel (type or mixture) When compliance based on fuel analysis For HCl Scrubber parameters (pH, pressure drop, liquid flow, sorbent injection rate)

COMPLIANCE MONITORING (cont.) CO Monitoring (new units only) CEM for large units > 100 million Btu/hr Annual CO tests for other new units Exempt data from <50% load and based on 30-day average.

Additional Compliance Provisions Emission Averaging Only existing large solid fuel units Initial compliance based on maximum capacity Continuous compliance on a 12-month rolling average basis Each monthly calculation based on monthly fuel use and previous compliance test results for each boiler Must maintain, at a minimum, the emission controls employed on the effective date

Additional Compliance Provision Health-Based Compliance Alternatives Alternative compliance options available for the HCl limit and the total selected metals limit (TSM) HCl: emissions of HCl and Cl2 TSM: emissions of manganese Sources that comply with source-wide health-based alternative for HCl do not have to comply with the technology-based HCl limit on an individual boiler basis Sources that comply with source-wide health-based alternative for manganese can ignore manganese when determining compliance with the TSM limit on an individual boiler basis

How to Comply with Health-Based Compliance Options Lookup table analysis Site-specific risk assessment

How to Conduct a Lookup Table Analysis: Overview Determine maximum hourly emission rates from each appropriate subpart DDDDD boiler or process heater HCl and Cl2 or Mn Calculate total emission rate for source Locate appropriate allowable emission rate from lookup table Compare source’s emission rate with allowable emission rate

How to Conduct a Lookup Table Analysis: Emissions Determination Emissions tests HCl alternative: Must test for HCl and Cl2 TSM alternative: Must test for Mn Fuel analysis HCl alternative: Assume all chlorine detected emitted as Cl2 TSM alternative: Assume all Mn detected is emitted

How to Conduct a Site-Specific Risk Assessment Refer to EPA’s Air Toxics Risk Assessment Reference Library (http://www.epa.gov/ttn/fera/risk_atra_main.html) General outline of process: Collect emissions information (HCl, Cl2, Mn) Identify relevant source parameters for modeling stack heights, stack diameters, gas exit velocities, etc. Perform dispersion/exposure modeling Calculate an estimate of risk to the individual most exposed (Hazard quotient (HQ) for Mn and hazard index (HI) for HCl and Cl2) HQ: The ratio of a level of exposure for a single substance to a reference level (e.g., RfC) for that substance HI: The sum of more than one hazard quotient You are eligible for the alternative compliance option if your maximum chronic inhalation HI or HQ is < 1.0

Petitions For Reconsideration Three petitions for reconsideration were received General Electric Company Joint petition NRDC EIP (Environmental Integrity Project) EIP Two petitions for judicial review Jointly filed by NRDC, Sierra Club, and EIP Issues same as in reconsideration petition American Public Power-Ohio (and 6 municipalities) EPA exceeded its authority in imposing standards on small municipal utility boilers

GE Petition Issue Requests clarification that the rule allows for testing at the common stack rather than each duct to the stack No opportunity to provide comments since the proposed rule did not contain regulatory text for the emissions averaging provision Common stack testing is handled on a case-by-case basis by OECA/Regions OECA’s general policy is that each duct to a common stack must be tested Proposed amendment allowing testing of common stack in certain situation – October 31, 2005

NRDC – EIP Petition Seeking reconsideration on: Lack of standards for all HAP emitted on all subcategories Health-based compliance alternatives Granted petition and requested comment on June 27, 2005 Published final action on December 28, 2005 Retained health-based compliance alternatives

INFORMATION AND CONTACT Implementation tools (timelines, initial notification, state/local contacts, Q/A) and information on the MACT rulemaking for industrial, commercial, and institutional boilers and process heaters is available on EPA’s web site at: www.epa.gov/ttn/atw/boiler/boilerpg.html An electronic version of public docket (including public comments) is available at: www.regulations.gov Search for docket ID No. EPA-HQ-OAR-2002-0058 Contact: Compliance Contact: Jim Eddinger Greg Fried (OECA) 919-541-5426 202-564-7016 eddinger.jim@epa.gov fried.gregory@epa.gov Risk Contact Scott Jenkins 919-541-1167 jenkins.scott@epa.gov

ANY QUESTIONS? That concludes my presentation. I will take some questions and turn it over to Ken.