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U.S. EPA’s Clean Air Gasification Activities. Presentation at the Gasification Technologies Council Winter Meeting January 26, 2006 Tucson, Arizona. Robert J. Wayland, Ph.D. U.S. Environmental Protection Agency Office of Air and Radiation Office of Air Quality Planning and Standards
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U.S. EPA’s Clean Air Gasification Activities Presentation at the Gasification Technologies Council Winter Meeting January 26, 2006 Tucson, Arizona Robert J. Wayland, Ph.D. U.S. Environmental Protection Agency Office of Air and Radiation Office of Air Quality Planning and Standards Research Triangle Park, N.C.
Environmental Technology Initiative • Key leaders at the Agency understand that innovative technology has been and will continue to be a key element in meeting our environmental needs in a economical, cost-effective manner • EPA Senior management challenged Agency staff to figure out ways to facilitate and incentivize the development and deployment of such technologies • Created the Environmental Technology Council (ETC) • Solicited topics for consideration Agency-wide • 47 possible technologies and environmental problems in need of technology solutions were identified • 14 projects were selected as “priorities” for the Agency, based on Agency-wide voting across all EPA offices and Regions.
Two Gasification Projects Selected • Integrated Gasification Combined Cycle (IGCC) • Generating electricity from the gasification of coal and other fossil fuel byproducts • Office of Air and Radiation is lead office on development and deployment of IGCC technology • Waste-to-Energy • Utilization of biomass, petroleum residuals, petroleum coke, secondary materials • Office of Research and Development in conjunction with the Office of Solid Waste are the leads on the waste-to-energy effort • OAR, ORD and OSWER are working together as a cross-Agency team to promote these technologies for deployment
Coal – The Future of Electricity Generation • The world needs to make electricity from coal in an environmentally and economically sustainable way • IGCC has fundamental advantages from both environmental and efficiency perspectives relative to conventional coal-fired power generation technologies • Inherently lower emissions of NOX, SO2 and Hg • Requires less fresh water – special issue in the drier, water-limited Western regions of the U.S. • Considerably more commercially useful byproducts (and thus, less waste materials) • High potential for reducing Greenhouse Gas (GHG) emissions by allowing for carbon capture and sequestration at costs significantly below conventional PC generation costs CINERGY’s Wabash River Facility
Gasification Offers Clean Alternative Estimated New Plant Emissions Performance 2 Proposed Da SO2 limit 1.5 lb/MWh Proposed Da PM limit* 1 Proposed Da NOx limit 0.5 ~80% 95%+ ~0 ~0 ~0 NOx SO2 PM Hg NOx SO2 PM Hg NOx SO2 PM Hg SCPC IGCC NGCC * - Taking comment on the adoption of PM-CEMS; other alternative is 0.015 lb/MMBtu limit
EPA’s Role in Deployment • The Environmental Technology Initiative’s purpose is to • Achieve improved, real-world environmental results through the design, development and deployment of innovative technologies • Identify short- and long-term priority environmental problems with attainable technological solutions • Coordinate efforts within EPA and other Federal agencies to identify and implement such technological advancements and solution • Create partnerships with other Federal agencies, State governments, Tribal governments, non-profit groups and industry to incentivize technology enhancements and deployment • Creation of joint EPA/DOE team to promote deployment of IGCC
EPA/DOE Team Activities • Objective is to facilitate a critical number of commercial plants to address both environmental and operational concerns • EPA Air Permitting Initiatives - Identification and quick resolution of novel air permitting issues - Help in expediting the air permit process • DOE/EPA developing a model to assess the economic viability of IGCC plants under different conditions • EPA/DOE conducting a technical study to establish the environmental footprint of the IGCC technology relative to conventional PC plants
EPA Actions to Date – Progress Report • Regulatory Issues • Current issue for IGCC facilities is New Source Review (NSR) and Prevention of Significant Deterioration (PSD) permitting • December 13, 2005 – Steve Page memo (IGCC and BACT) • EPA’s interpretation of when IGCC should be considered in NSR and PSD permitting • In the case of pulverized coal boilers and similar conventional coal-fired technologies, IGCC should not be considered as control technology candidate under BACT • Selective Catalytic Reduction (SCR) as BACT for IGCC units • Headquarters and Regional offices want to work with companies interested in developing IGCC technology in the near future • EPA is committed to working with State permitting authorities • States are the primary permitting authority under NSR/PSD – often can be more stringent than Federal regulations • Agency is attempting to be “upfront” and let States know “where we stand” on IGCC permitting issues • Anticipate this may help expedite and streamline the NSR & PSD permitting process considerably
Potential Regulatory Hurdles • Should Selective Catalytic Reduction (SCR) be required as best achievable control technology (BACT) for IGCC? • TECO’s Polk Power Station, Tampa, Florida • Florida DEP ultimately decided in conjunction with Region IV that SCR was not required as BACT – a position supported by Headquarters • BACT is a case-by-case determination • “One Size Doesn’t Fit All” • Circumstances at a new plant may not be the same as what drove our decision at Polk Power Station • Regardless, SCR as BACT is a decision that merits our attention and resolution sooner as opposed to later
SCR Technical Issues • Currently reviewing request from U.S. power company for guidance on SCR as BACT • Issues under review: • SCR not demonstrated on plants utilizing coal-derived syngas • Lack of U.S. experience • One plant operational in Japan • SCR feasibility, high cost and risk issues vary between IGCC plants, PC plants and NGCC facilities • Ability to obtain meaningful performance guarantees for SCR and/or HRSG systems • SO2 BACT analysis and its impact on SCR costs and feasibility • MDEA, Rectisol or Selexol
Potential Regulatory Incentives • Final New Source Performance Standards (NSPS) for Subpart Da • IGCC Units constructed on/after February 9, 2005 would be subject to the same emission limits as a coal-fired boiler • Given current IGCC technology, this should not pose any regulatory burden on new, planned IGCC facilities • Duct burners moved into KKKK • Final Clean Air Mercury Rule (CAMR) • Created separate source category for IGCC units • Hg emission limit of 20 x 10-6 lb/MWh • Comparable to a bituminous PC-fired power generation system
Future Plans and Needs • To incentivize the commercial deployment of IGCC technology EPA needs to better understand the environmental footprint of these facilities relative to conventional power generation technologies • EPA/DOE Environmental Footprint Study • EPA is working on models to assess the economic viability of IGCC plants under different conditions • Working closely with DOE on these economic and environmental efforts • One remaining barrier is the cost of IGCC technology • EPA is working in conjunction with DOE to evaluate various proposals to address this economic barrier • Energy Policy Act of 2005 • Exploring options and incentives
Draft Results of EPA’s IGCC vs. PC Study • Nexant, Incorporated contracted to perform study in conjunction with EPA and DOE input • Solicited comment/input on draft report from numerous stakeholder groups • Final results targeted for discussion at the GTC meeting in Tampa, Florida in March 2006 • Public release March 2006 • Aspects of the Study • Thermal performance of IGCC and PC units • Estimated air emissions • Water use requirements and solid waste output • CO2 capture and sequestration potential
Barriers to IGCC Deployment • Concerns of higher costs • Nominally considered to be approximately 20% • Concerns of novel environmental permit issues delaying construction and increasing costs • NSR and PSD issues • BACT analyses • Concerns of plant reliability • Need for dual-train gasifier • HRSG fouling downstream of the SCR • Power block reliability • Cultural resistance to a facility with a large chemical plant component • Chemical Engineers vs. Mechanical Engineers
Technical Study Scope • IGCC and PC plant comparisons provided, using bituminous/subbituminous coals and lignite • Plant size: 500 MW • Plant configurations: - Oxygen-blown IGCC, 1,800 psig / 1,000° F / 1,000° F - Subcritical PC, 2,400 psig / 1,000° F / 1,000° F - Supercritical PC, 3,500 psig / 1,000° F / 1,000° F - Ultra-supercritical PC, 4,500 psig / 1,100° F / 1,100° F (double reheat)
Technical Study Scope, (Cont’d) • IGCC plant environmental controls: - NOx: Diluents (SCR evaluated) - SO2: MDEA (Selexol evaluated) - Particulate: scrubber - Mercury: carbon bed • PC plant environmental controls: - NOx: SCR - SO2: wet FGD for bituminous coal (BC) and lignite (LIG) and spray dryer for subbituminous coal (SBC) - Particulate: ESP for BC and LIG, Baghouse for SBC - Mercury: sorbent injection (activated carbon) for SBC
Thermal Performance Bituminous Coal* * Preliminary/draft results.
Thermal Performance Subbituminous Coal* * Preliminary/draft results.
Thermal Performance Lignite* * Preliminary/draft results.
Air Emission Comparisons* * Preliminary/draft results. All emissions in lb/MMBtu, except for Hg, which is in lb/TBtu. NOx for IGCC is based on 15 ppmvd at 15% O2.
Water Use and Solid Waste Comparisons** *Each plant is approximately 290 MW in size. **Preliminary/draft results.
CO2 Capture and Sequestration Potential* * Preliminary/draft results.
Main Study Areas Still Under Development • Capabilities of air pollution control technologies used in IGCC and PC plants • Efficiency of sulfur removal processes (IGCC) • Feasibility of SCR (IGCC) • Evolution of Hg removal technologies (PC) • Carbon capture efficiency (IGCC and PC) • Comparison of mercury emission control capabilities between IGCC and PC plants • Sorbent injection (PC) • Activated carbon beds (IGCC) • Comparison of water consumption and waste water and solid waste generation rates between IGCC and PC plants • Potential of CO2 capture within PC plants
Cost Comparisons Bituminous Coal Applications • All costs are in 2004 dollars. • Costs are based on published data. The actual costs may be different due to site specific factors. IGCC costs do not account for possible increases for items such as performance guarantees, warranties and availability. • Operating costs include fixed and variable O&M costs.
Cost Comparisons Subbituminous Coal Applications • All costs are in 2004 dollars. • Costs are based on published data. The actual costs may be different due to site specific factors. IGCC costs do not account for possible increases for items such as performance guarantees, warranties and availability. • Operating costs include fixed and variable O&M costs.
Cost Comparisons Lignite Applications • All costs are in 2004 dollars. • Costs are based on published data. The actual costs may be different due to site specific factors. IGCC costs do not account for possible increases for items such as performance guarantees, warranties and availability. • Operating costs include fixed and variable O&M costs.
Conclusions • EPA has undertaken several initiatives to facilitate and incentivize IGCC technology • Environmental Study (release: March 2006) • December 13, 2005 Steve Page Memo – IGCC and BACT • Future guidance on SCR as BACT for IGCC facilities • Preliminary IGCC vs. PC Study Results: • IGCC thermal performance significantly better than current PC technologies • Overall better environmental performance for IGCC • IGCC has potential advantage in capturing and sequestrating CO2 at lower costs • EPA is not trying to pick a technology winner, but trying to ensure that IGCC has a chance to prove itself commercially
For more information contact: Dr. Robert J. Wayland Office of Air Quality Planning & Standards Research Triangle Park, NC (919) 541-1045 Wayland.robertj@epa.gov