Clean Air Issues in the 113th Congress: An Overview

January 6, 2015 (R42895)

Contents

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Summary

Oversight of Environmental Protection Agency (EPA) regulatory actions was the main focus of interest as the 113th Congress considered air quality issues. Of particular interest were EPA's proposed regulations on the emissions of greenhouse gases (GHGs) from power plants.

Reducing GHG emissions to address climate change is a major goal of President Obama, but Congress has been less enthusiastic about it. In the absence of congressional action, the President has directed EPA to promulgate GHG standards using existing authority under the Clean Air Act. This authority has been upheld on at least three occasions by the Supreme Court, but it remains controversial in Congress.

EPA's most recent GHG actions have involved fossil-fueled (coal, oil, and natural gas) power plants, which EPA refers to as electric generating units (EGUs). On June 18, 2014, the agency proposed GHG emission standards for existing EGUs. These plants are the source of one-third of the nation's GHG emissions, so it is difficult to envision a regulatory scheme that reduces the nation's GHG emissions without addressing their contribution. At the same time, affordable and reliable electric power is central to the nation's economy and to the health and well-being of the population.

Thus, the effects of the proposed rule on the electric power system are of considerable interest. Even before proposal of the existing power plant standards, the House had passed legislation (H.R. 3826) that would effectively have prohibited EPA from promulgating or implementing power plant GHG emission standards. On September 18, 2014, the House passed the same language a second time, in H.R. 2. The Senate did not consider either bill.

Although it has not finalized the power plant GHG regulations as of this writing, EPA has implemented permit and Best Available Control Technology requirements for new stationary sources of GHGs under a separate Clean Air Act provision, the Prevention of Significant Deterioration (PSD) program. Minimum thresholds have exempted smaller pollution sources from this program, and few facilities have needed to obtain permits. Nevertheless, EPA's authority to implement these requirements was challenged in court. In a June 23, 2014, decision, the Supreme Court largely upheld EPA's authority.

Besides addressing climate change, EPA has taken action on a number of other air pollution regulations, often in response to court actions remanding previous rules. Remanded rules included the Clean Air Interstate Rule (CAIR) and Clean Air Mercury Rule—rules designed to control the long-range transport of sulfur dioxide, nitrogen oxides, and mercury from power plants through cap-and-trade programs. Other remanded rules included hazardous air pollutant standards for boilers and cement kilns.

The agency has also developed revisions of several existing air standards—in general, the Clean Air Act mandates that existing standards be reviewed periodically and revised if appropriate. On March 3, 2014, EPA revised regulations that limit the sulfur content of gasoline, in conjunction with tighter ("Tier3") standards for motor vehicle emissions. The agency has also proposed revised standards for wood and pellet stoves and proposed standards for other types of wood heaters for the first time.

EPA is also reviewing ambient air quality standards (NAAQS) for ozone. The agency proposed revisions to the ozone NAAQS on December 17, 2014. NAAQS serve as EPA's definition of clean air for six widespread pollutants, and drive a range of regulatory controls.

The cost-effectiveness of some of these regulations and/or whether the agency has exceeded statutory authority in proposing and promulgating them are among the issues that have been raised by some in Congress. Others in Congress have supported EPA, noting that the Clean Air Act, often affirmed in court decisions, has authorized or required the agency's actions.


Clean Air Issues in the 113th Congress: An Overview

Introduction

With the 113th Congress divided like the 112th into a Republican-controlled House and a majority-Democratic Senate, and the President having been re-elected, environmental issues, including those related to air quality, remained stalemated in Congress. Congressional interest in air quality issues was dominated by efforts to prevent the Environmental Protection Agency (EPA) from promulgating and implementing new emission control requirements. Often under court order, EPA has used authorities Congress gave it in the Clean Air Act amendments of 1970, 1977, and 1990 to address long-standing issues posed by emissions from various sources. EPA's regulations on greenhouse gas emissions from both mobile and stationary sources and on conventional and hazardous air pollutants emitted by electric power plants, cement kilns, and boilers have been of particular interest, as have the agency's efforts to revise ambient air quality standards for ozone and particulate matter. Particularly in the House, efforts to restrain agency regulatory actions have occupied a prominent place.

The House also considered broader legislation designed to address regulation in general—bills such as the REINS Act (H.R. 367/S. 15 in the 113th Congress), which would require congressional approval before regulations classified as major rules could take effect, or the Energy Consumers Relief Act (H.R. 1582/S. 1363 in the 113th Congress), which would prohibit EPA from promulgating energy-related regulations estimated to cost more than $1 billion if the Secretary of Energy determines that the regulations will cause significant adverse effects to the economy. If enacted, such legislation would affect new rules under the Clean Air Act as well as other statutes; but given the broad nature of the bills' purpose, they are not discussed here.1

EPA's Greenhouse Gas Regulations

A continuing focus of congressional interest under the Clean Air Act (CAA) has been EPA regulatory actions to limit greenhouse gas (GHG) emissions using existing CAA authority. EPA actions have focused on six gases or groups of gases that multiple scientific studies have linked to climate change.2 Of the six gases, carbon dioxide (CO2), produced by combustion of fossil fuels, is by far the most prevalent, accounting for nearly 85% of annual emissions of the combined group when measured as CO2 equivalents.

Members from both sides of the aisle, including a majority of the House in the 112th and 113th Congresses, have expressed concerns about EPA proceeding with GHG regulations that could have major economic impacts. Some argue that the case for GHG controls has not been proven. Others maintain that EPA should delay taking such action until Congress more explicitly authorizes it.

GHG Emission Standards for Motor Vehicles

EPA, by contrast, concludes that the Clean Air Act already requires action: a 2007 Supreme Court decision interpreting EPA's CAA authority, Massachusetts v. EPA,3 found that the agency must weigh whether GHG emissions from new motor vehicles endanger public health and welfare and, if it concludes that they do, proceed with regulation of such vehicles. The agency made this endangerment finding in December 2009,4 and proceeded to promulgate GHG emission standards for new 2012-2016 cars and light trucks, May 7, 2010.5

The prospect of GHG standards for motor vehicles has not been particularly controversial. In May 2009, President Obama reached agreement with major U.S. and foreign auto manufacturers and other stakeholders regarding the substance of GHG emission and related fuel economy standards.6 The auto industry supported a national agreement, in part, to avoid having to meet standards on a state-by-state basis; thus, it has not supported efforts to block EPA's motor vehicle GHG standards. A second round of standards for cars and light trucks, promulgated in October 2012,7 was also preceded by an agreement with the auto industry and key stakeholders. (For additional details, see CRS Report R40506, Cars, Trucks, and Climate: EPA Regulation of Greenhouse Gases from Mobile Sources, and CRS Report R42721, Automobile and Truck Fuel Economy (CAFE) and Greenhouse Gas Standards.)

EPA and the National Highway Traffic Safety Administration (NHTSA) have also promulgated joint GHG emission and fuel economy standards for medium- and heavy-duty trucks,8 which have been supported by the affected industries. (For a brief summary of these, see CRS Report R41563, Clean Air Issues in the 112th Congress.) In his State of the Union message, January 28, 2014, and a subsequent directive to EPA and NHTSA, the President directed the agencies to develop a second round of these standards, to be proposed by March 2015 and finalized a year later.9

GHG Emission Standards for Power Plants

The decisions to move forward on GHG standards for new motor vehicles were seen by many, including EPA, as precedents for other potential standards. On December 23, 2010, the agency announced that it had reached a settlement agreement with 11 states, the City of New York, the District of Columbia, and 3 environmental groups under which it would propose GHG emission standards for power plants by July 26, 2011, and for refineries by December 10, 2011, with promulgation by May 2012 and November 2012 respectively. Power plants are the largest source of U.S. GHG emissions, accounting for one-third of the U.S. total, and petroleum refineries are the second-largest industrial source of GHG emissions.

EPA has not fulfilled the terms of the two consent agreements. The agency has proposed the standards for new and existing power plants, but other than that, has not yet taken the agreed-upon actions.

The agency first proposed the power plant New Source Performance Standards (NSPS) on April 12, 2012. The Clean Air Act requires that proposed NSPS be finalized within a year of proposal, but the agency received more than 2.6 million public comments—the most ever for a proposed EPA rule—and it delayed promulgation beyond the statutory deadline. Of particular concern were the proposed setting of a single standard applicable to both coal-fired and natural gas-fired sources; the reliance on carbon capture and sequestration (CCS) technology as the means by which coal-fired plants would comply with the standard; and the cost and technical feasibility of CCS technology. In general, critics complained that given the cost and unproven nature of CCS, the NSPS would effectively prohibit the construction of new coal-fired power plants. (For information on the New Power Plant Carbon Rule, see CRS Report R43127, EPA Standards for Greenhouse Gas Emissions from Power Plants: Many Questions, Some Answers.)

On June 25, 2013, the President gave new impetus to EPA's GHG regulatory efforts. In a major speech and in a more detailed Climate Action Plan released the same day, the President directed EPA to re-propose GHG standards for new power plants by September 20, 2013, and finalize them "in a timely fashion after considering all public comments, as appropriate."10 More importantly, he directed the agency to propose GHG emission standards for existing power plants by June 2014, with promulgation by June 2015.

The emission standards for existing power plants were released June 2, 2014, and appeared in the Federal Register June 18.11 The proposal would set state-specific goals for CO2 emissions from fossil-fuel power plants. EPA established different goals for each state based on four "building blocks": improved efficiency at coal-fired power plants; substitution of natural gas combined cycle generation for coal-fired power; zero-emission power generation (from increased renewable or nuclear power); and demand-side energy efficiency. Two sets of goals were proposed: an interim set, which would apply to the average emissions rate in a state in the 2020-2029 time period; and a final state-specific goal for the years 2030 and beyond. In general, states that currently rely on coal-fired power to a great extent would be allowed higher emission rates, while those with idle natural gas capacity or state renewable power requirements would need to meet lower emission rate goals.

Publication of the proposal in the Federal Register began a comment period, which ran through December 1, 2014. The agency also held four public hearings on the proposal in Atlanta, Denver, Pittsburgh, and Washington, DC. (For more information, see CRS Report R43572, EPA's Proposed Greenhouse Gas Regulations for Existing Power Plants: Frequently Asked Questions, and CRS Report R43621, EPA's Proposed Greenhouse Gas Regulations: Implications for the Electric Power Sector.)

Legislative and Judicial Actions

Legislation introduced in the 112th and 113th Congresses has aimed to prevent EPA from implementing GHG emission requirements. More than a dozen bills were introduced in the 112th, as well as amendments and riders on appropriations bills. The House passed three of these bills, but the Senate did not follow suit. (For additional detail, see CRS Report R41563, Clean Air Issues in the 112th Congress.)

Legislation was also considered in the 113th Congress: on March 6, 2014, by a vote of 229-183, the House passed H.R. 3826, which would have prohibited EPA from promulgating or implementing GHG emission standards for fossil-fueled power plants until at least six power plants representative of the operating characteristics of electric generation units at different locations across the United States have demonstrated compliance with proposed emission limits for a continuous period of 12 months on a commercial basis. Projects demonstrating the feasibility of carbon capture and storage that received government financial assistance could not be used in setting such standards, and the standards would not take effect unless Congress enacted new legislation setting an effective date. The House also incorporated the language of H.R. 3826 in H.R. 2, which passed the House, 226-191, on September 18, 2014. Additional bills were introduced to prevent EPA from setting standards for existing power plants.

EPA's GHG regulations have also been challenged in court. On June 26, 2012, the D.C. Circuit Court of Appeals dismissed challenges to four agency regulations: the GHG endangerment finding, emission standards for light duty vehicles, and two rules related to the permitting of GHG emissions from large stationary sources.12 Subsequently, the Supreme Court agreed to review one aspect of the D.C. Circuit ruling: "[w]hether EPA permissibly determined that its regulation of greenhouse gas emissions from new motor vehicles triggered permitting requirements under the Clean Air Act for stationary sources that emit greenhouse gases." In a decision handed down June 23, 2014, the court generally held that EPA's motor vehicle GHG standards did trigger permitting requirements for stationary sources, although it put some limits on the sources that would be required to obtain permits (Utility Air Regulatory Group v. EPA).13

Emissions of Other Pollutants from Power Plants

Issues related to emissions other than GHGs from electric power plants—principally sulfur dioxide (SO2), nitrogen oxides (NOx), and mercury—have been another focus of interest. Bush Administration regulations addressing these emissions were vacated by the D.C. Circuit Court of Appeals in two 2008 decisions (North Carolina v. EPA and New Jersey v. EPA). As a result, EPA has developed new regulations to address the court's concerns. It promulgated regulations addressing SO2 and NOx on August 8, 2011, and for power plant emissions of mercury and other hazardous air pollutants on February 16, 2012.

Coal-fired power plants are among the largest sources of air pollution in the United States. In 2005, they accounted for 10.2 million tons of sulfur dioxide (SO2) emissions (70% of the U.S. total), 52 tons of mercury emissions (46% of the U.S. total), and 3.6 million tons of nitrogen oxides (19% of the U.S. total). Power plants are considered major sources of fine particles (PM2.5), many of which form in the atmosphere from emissions from a wide range of stationary and mobile sources. In addition, they account for about one-third of U.S. anthropogenic emissions of greenhouse gases, in the form of carbon dioxide.

Under the Clean Air Act, however, power plants have not necessarily been subject to stringent requirements: emissions and the required control equipment has varied depending on the location of the plant, when it was constructed, whether it has undergone major modifications, the specific type of fuel it burns, and, to some extent, the vagaries of state and EPA enforcement policies. More than half a dozen separate Clean Air Act programs could potentially be used to control emissions, which makes compliance strategy complicated for utilities and difficult for regulators. Because the cost of the most stringent available controls, for the entire industry, could range into the tens of billions of dollars, utilities have fought hard and rather successfully to limit or delay regulations affecting them, particularly with respect to plants constructed before the Clean Air Act of 1970 was passed. This group, which includes about one-third of coal-fired capacity, are generally referred to as "grandfathered" plants.

As discussed below under "Air Quality Standards," new ambient air quality standards for ozone, fine particles, and SO2 will be taking effect in the next few years. Emissions of NOx and SO2 will have to be reduced further to meet these standards. (NOx contributes to the formation of ozone and fine particles; SO2, besides being a regulated pollutant in its own right, is among the sources of fine particles.)

A long-running controversy over the interpretation of New Source Review requirements for existing power plants (which require the installation of Best Available Control Technology whenever an existing power plant undergoes major modifications) has exerted pressure for a more predictable regulatory structure, as well.

Thus, some in industry, environmental groups, Congress, and the last three Administrations have said that legislation addressing power plant pollution in a comprehensive (multi-pollutant) fashion would be desirable. Such legislation would have addressed the major pollutants on a coordinated schedule and would have relied, to a large extent, on a system such as the one used in the acid rain program, where national or regional caps on emissions are implemented through a system of tradable allowances. Despite many hearings, introduced bills, and a few markups, neither the House nor the Senate has considered such legislation. This has led both the George W. Bush and Obama Administrations to consider what could be done under existing CAA authority.

SO2 and NOx: The Clean Air Interstate Rule (CAIR)

Unable to obtain congressional approval of its multi-pollutant bill (the "Clear Skies" bill), the Bush Administration's EPA announced on March 10, 2005, that it would use existing CAA authority to promulgate final regulations similar to those in the bill for utility emissions of SO2 and NOx in 27 eastern states and the District of Columbia.14

The Clean Air Interstate Rule (CAIR) established cap-and-trade provisions for SO2 and NOx. A separate regulation, the Clean Air Mercury Rule (CAMR), promulgated at the same time, established a cap-and-trade system for mercury emissions.15 CAIR covered only the eastern half of the country, but since most of the grandfathered generation capacity is located there (in the East, Midwest, and South), EPA projected that nationwide emissions of SO2 would decline 53% by 2015 and NOx emissions 56%, as compared to nationwide emissions in 2001. The agency also projected that the rule would result in $85 billion-$100 billion in health benefits annually by 2015, including the annual prevention of 17,000 premature deaths. CAIR's health and environmental benefits would be more than 25 times greater than its costs, according to EPA.16

CAIR was generally supported by environmentalists and by the regulated community. But a variety of petitioners, including the state of North Carolina and other downwind states, which argued that the rule was not strong enough to address pollution from upwind sources, and some individual utilities that felt they were unfairly treated by the rule's emission limits ("budgets"), challenged the rule in the D.C. Circuit, and the court vacated it July 11, 2008. A unanimous court found that although EPA had established a "significant contribution" made by power plants to nonattainment of standards and failure to maintain standards in downwind states, as required by Section 110 of the Clean Air Act, the agency's methodology for establishing emission budgets for each state was unrelated to the state's contribution to the nonattainment and maintenance problems in specific downwind states.17 The court also found that the choice of 2015 for a second phase compliance deadline, based on technological and economic feasibility, ignored EPA's statutory mandate. It found the fuel adjustment factors in the rule (which set more stringent requirements for natural gas- and oil-fired plants than for coal-fired ones) to be arbitrary and capricious. It concluded: "CAIR's flaws are deep. No amount of tinkering ... will transform CAIR, as written, into an acceptable rule."18 On December 23, 2008, however, the court modified its decision, allowing CAIR to remain in effect until a new rule was promulgated by EPA.19

The Cross-State Air Pollution Rule

On July 6, 2011, EPA finalized a replacement for CAIR, the Cross-State Air Pollution Rule (CSAPR, generally pronounced as "Casper").20 CSAPR would leave the CAIR Phase 1 limits in place and, as promulgated, would have set new limits replacing CAIR's second phase in 2012 and 2014, up to three years earlier than CAIR would have.

The CAIR Phase 1 rules have had a substantial effect. In 2010, EPA reports, SO2 emissions from fossil-fueled power plants in the lower 48 states (at 5.1 million tons) were 49% below 2005 levels. NOx emissions from the same sources declined to 2.1 million tons in 2010, 42% less than in 2005.21

CSAPR would build on these reductions. As promulgated, it would have established a second and third phase of reductions in 2012 and 2014, with particular emphasis on SO2—emissions of which would decline to 2.4 million tons in the covered states (73% below 2005 levels) in 2014. The rule covers 28 Eastern, Midwestern, and Southern states and the District of Columbia.

CSAPR is a modified cap-and-trade rule. It sets emission caps in each of the covered states and allows unlimited trading of allowances within the individual states. Interstate trading would be allowed so long as a state remains within 18%-21% of its emissions caps. Limiting interstate trading was intended to address the D.C. Circuit's North Carolina ruling, which found CAIR's unlimited interstate allowance trading program unlawful.

To hasten implementation of CSAPR, EPA promulgated a Federal Implementation Plan (FIP) for each of the states: the FIPs specified emission budgets for each state based on controlling emissions from electric power plants. States may develop their own State Implementation Plans and may choose to control other types of sources if they wish, but the federal plan was to take effect until the state acted to replace it.

EPA estimated that CSAPR would cost the power sector $800 million annually in 2014 (on top of $1.6 billion already being spent to comply with CAIR), but it expected the benefits of the combined spending to be 50 to 120 times as great—an estimated $120 billion to $280 billion annually. The most important benefit would be 13,000 to 34,000 fewer premature deaths annually. Avoided deaths and other benefits would occur throughout the East, Midwest, and South, according to EPA, with Ohio and Pennsylvania benefitting the most.22

Criticism of the Cross-State rule initially focused on the short time frame for implementation, and the adequacy of the emission "budgets" for some of the covered states. Questions regarding the adequacy of the compliance time frame focused on Phase 1 of the rule, which was to take effect in 2012, just five months after the rule's promulgation. EPA maintained that the deadline was reasonable because no new equipment needed to be installed to meet the 2012 requirements. Compliance could be achieved, according to the agency, by running existing pollution control equipment more frequently or increasing power generation at cleaner generation units. (In fact, EPA data for 2012 show that—despite CSAPR being stayed, as discussed below—emissions of SO2 and NOx declined by 27% and 13%, respectively, compared to 2011, largely as a result of utilities switching to natural gas generation.)23

A second issue concerned the adequacy of the emissions budgets for individual states. Particular controversy centered on Texas, which was included in the final rule, but not in the proposed version. Following promulgation, EPA reviewed additional information submitted by Texas and revised the rule to increase the state's SO2 emissions cap by 29%; but the state remained opposed to the rule.

Legislative Action

In the 112th Congress, both the House and Senate considered legislation that would have revoked the CSAPR rule. The House bill (H.R. 2401) passed 249-169, on September 23, 2011. The same provisions were included in Title III of H.R. 3409, which the House passed in September 2012. The Senate did not take up either House bill, but it did consider S.J.Res. 27, a resolution of disapproval of CSAPR under the Congressional Review Act (CRA). It was rejected by the Senate, 41-56, on November 10, 2011. (For additional detail, see CRS Report R41563, Clean Air Issues in the 112th Congress.)

EME Homer City Generation L.P. v. EPA

Although unsuccessful in Congress, opponents of the CSAPR rule initially prevailed in court. At least 45 parties filed suit asking the D.C Circuit Court of Appeals to review the rule (the cases were consolidated as EME Homer City Generation L.P. v. EPA). On August 21, 2012, in a 2-1 decision, the court vacated and remanded the rule, finding that EPA's imposition of Federal Implementation Plans (FIPs), without first giving the states an opportunity to develop their own plans to meet the state-wide emission budgets specified in CSAPR, was unlawful. The court also held that EPA's state-level emission budgets (which were based on what the agency considered cost-effective controls) could end up requiring states to reduce their emissions by amounts greater than their significant contribution to nonattainment in downwind states.24

After the D.C. Circuit denied EPA's petition for a rehearing en banc, the agency appealed to the Supreme Court, which agreed to hear the case. On April 29, 2014, the Court reversed the D.C. Circuit in a 6-2 decision, holding that the plain text of the CAA supported EPA's decision to impose FIPs, and that the agency's use of cost-effectiveness to allocate emission reduction requirements was a reasonable interpretation of its authority under ambiguous statutory language. The rule was remanded to the D.C. Circuit for additional consideration. On June 26, EPA asked the court to lift its stay on implementation of the rule, and to approve a new compliance schedule, with the rule's first phase to go into effect in 2015 and the final caps in 2017. The court lifted the stay on October 23, and EPA issued a rule revising the schedule as indicated.

Mercury and Air Toxics Standards

The Clean Air Act also provides authority for EPA to regulate emissions of mercury and other hazardous air pollutants (HAPs, or "air toxics") from electric generation units (EGUs). Much of this discussion has focused on mercury. EGUs account for about half of all mercury emissions in the United States.

Mercury is a persistent, bioaccumulative neurotoxin that can cause adverse health effects (principally delayed development, neurological defects, and lower IQ in fetuses and children) at very low concentrations. (For a discussion of mercury's health effects, see CRS Report RL32420, Mercury in the Environment: Sources and Health Risks.) The principal route of exposure to mercury is through consumption of fish. Mercury enters water bodies, often through air emissions, and is taken up through the food chain, ultimately affecting humans as a result of fish consumption. All 50 states have issued fish consumption advisories due to mercury pollution, covering 16.4 million acres of lakes, 1.1 million river miles, and the coastal waters of 16 entire states.25

EPA was required by the 1990 Clean Air Act Amendments and a 1998 consent agreement to determine whether regulation of mercury from power plants under CAA Section 112 was appropriate and necessary. Section 112 is the section that regulates emissions of hazardous air pollutants. In general, it requires EPA to set standards based on the Maximum Achievable Control Technology (a term defined with great precision in the act), and to impose the MACT standards at each individual emissions source. In a December 2000 regulatory finding, EPA concluded that regulation of mercury from power plants under Section 112 was appropriate and necessary.

The Clean Air Mercury Rule

Rather than promulgate MACT standards, however, EPA reversed its December 2000 finding in March 2005, and established through regulations a national cap-and-trade system for power plant emissions of mercury, the Clean Air Mercury Rule (CAMR). Under CAMR, the final cap would have been 15 tons of emissions nationwide in 2018 (about a 70% reduction from 1999 levels, when achieved).

Under the cap-and-trade system, utilities could either control the pollutant directly or purchase excess allowances from other plants that instituted controls more stringently or sooner than required. As with the acid rain and CAIR cap-and-trade programs, early reductions under CAMR could have been banked for later use, which the agency itself (in the Regulatory Impact Analysis of the rule) said would result in utilities delaying compliance with the full 70% reduction until after 2025.26 (For additional information on the mercury rule, see archived CRS Report RL32868, Mercury Emissions from Electric Power Plants: An Analysis of EPA's Cap-and-Trade Regulations.)

The CAMR rule was challenged in petitions for review filed by New Jersey and 16 other states as well as other petitioners.27 The D.C. Circuit, in a 3-0 decision handed down February 8, 2008 (New Jersey v. EPA), vacated the rule.28 The court found that once the agency had listed electric generating units as a source of hazardous air pollutants, it had to proceed with MACT regulations under Section 112 of the act unless it "delisted" the source category, under procedures the act sets forth in Section 112(c)(9). The procedures would require the agency to find that no EGU's emissions exceeded a level adequate to protect public health with an ample margin of safety, and that no adverse environmental effect would result from any source—a difficult test to meet, given the agency's estimate that EGUs were responsible for 46% of mercury emissions from all U.S. sources at the time. Rather than delist the EGU source category, the agency had maintained that it could simply reverse its December 2000 "appropriate and necessary" finding, a decision that was much simpler because there were no statutory criteria to meet. The court found this approach unlawful. "This explanation deploys the logic of the Queen of Hearts, substituting EPA's desires for the plain text of Section 112(c)(9)," the court said in its opinion.29

Besides the question of whether EPA complied with the law's requirements, critics found other reasons to oppose EPA's cap-and-trade approach to controlling mercury. One of the main criticisms was that it would not address "hot spots," areas where mercury emissions and/or concentrations in water bodies are greater than elsewhere. In fact, under a cap-and-trade system, nothing would prevent emissions from increasing near hot spots.

Many also argued that the mercury regulations should have been more stringent or implemented more quickly than the cap-and-trade regulations would have required. These arguments found a receptive audience in the states: about 20 states promulgated requirements stricter than the federal Clean Air Mercury Rule program, with several requiring 80% to 90% mercury reductions before 2010. (For additional information, see archived CRS Report RL33535, Mercury Emissions from Electric Power Plants: States Are Setting Stricter Limits.)

CAMR also didn't address emissions of hazardous air pollutants other than mercury. According to EPA, EGUs are sources of 12 other HAPs, including 3 acid gases and 9 toxic metals.30

The Utility MACT / Mercury and Air Toxics Standards

On February 16, 2012, EPA responded to the New Jersey v. EPA court decision by promulgating what is referred to as the "Utility MACT" or the Mercury and Air Toxics Standards (MATS).31 The standards have been widely debated: between proposal and promulgation, the agency is reported to have received 960,000 public comments on them.

MATS requires coal-fired power plants to achieve a 91% reduction from uncontrolled emissions of mercury, nine other toxic metals, and three acid gases, all of which were listed by Congress as hazardous air pollutants in the 1990 Clean Air Act Amendments. According to EPA, power plants are the largest emitters of many of these pollutants, accounting for about 50% of the nation's mercury emissions, 62% of its arsenic emissions, and 82% of its hydrochloric acid emissions, for example.32 The MATS rule is also projected to reduce emissions of fine particulates (PM2.5); although PM2.5 is not listed as a hazardous air pollutant, EPA believes that the MATS rule's effect on PM2.5 will lead to the avoidance of up to 11,000 premature deaths each year.

In proposing the standards, EPA noted that while the requirements are stringent for those facilities lacking controls, 56% of existing coal-fired power plants already were equipped with controls that would allow them to meet the standards. Thus, the standards are expected to level the playing field, bringing older, poorly controlled plants up to the standards capable of being achieved by a majority of the existing units. In this respect, the proposed standards reflect the statute's requirement that existing sources of HAPs should meet standards based on the current emissions of the best performing similar sources.

The agency also concluded that some plants would be retired by 2015, rather than invest in control technologies. In all, it said, coal-fired generation capacity would decline less than 2% as a result of the MATS rule.33 Coal-fired capacity is, of course, simultaneously being buffeted by market forces, principally the low cost of natural gas, and there are other proposed and promulgated rules (under the Clean Water Act and the Solid Waste Disposal Act) that might increase future costs of operation. (See "Cumulative Impacts of EPA Rules," below.) As a result, more than that 2% of coal-fired generation is being retired.

In its Regulatory Impact Analysis, EPA projected the annual cost of compliance with the MATS rule at $9.6 billion.34 The average consumer would see an increase of 3.1% in the retail price of electricity in 2015, according to the agency; applied to the average residential electric bill, households might expect an increase of $3-$4 per month in the cost of electricity due to the rule.35 These costs will go largely to the installation of scrubbers and fabric filters. In most cases, the fabric filters will be coupled with activated carbon injection or dry sorbent injection. Mercury and other HAPs become attached to the carbon or sorbent after it is injected into the flue gas, and the fabric filter collects the particles, removing them from the plant's emissions.

This is not complicated or new technology. Other types of facilities (notably solid waste incinerators) have used this technology for the past two decades to reduce their mercury emissions by 95% or more. Moreover, as a result of state-level pollution control regulations, a growing percentage of coal-fired plants do the same. EPA estimates that about one-fifth of U.S. coal-fired electric generating capacity would have either activated carbon or dry sorbent injection in 2015 without the rule.

The benefits of the rule are estimated by EPA at $37 billion to $90 billion annually—4 to 9 times as great as the costs—due primarily to the avoidance of 4,200 to 11,000 premature deaths each year. Other benefits, only some of which were given dollar values, include the annual avoidance of 4,700 nonfatal heart attacks, 130,000 asthma attacks, and developmental effects on children, including effects on IQ, learning, and memory.

One of the key issues raised by opponents of the rule was whether the three-year compliance window provided by CAA Section 112 would be sufficient for the hundreds of EGUs affected by the rule to install needed equipment and come into compliance, and thus whether the reliability of the nation's electric power supply could be harmed by the rule. Although EPA believed that most units would be able to comply with the MATS rule within the three-year statutory deadline, in response to industry comments on the proposed rule, EPA and the White House added provisions to the final rule to make additional time available for compliance where necessary. The final rule was accompanied by a presidential memorandum directing the agency to make full use of the Clean Air Act's authority to grant additional time to those facilities that needed it.36 In general, this meant that the agency would approve state permitting actions that provide an additional year (four years instead of three) for compliance if it is "necessary for the installation of controls." In the Preamble to the final rule, EPA discussed at some length its interpretation of the phrase "necessary for the installation of controls," making it clear that it intended to broadly interpret the phrase in order to make additional time available where needed.37 EPA also issued an enforcement policy that described how units could obtain a fifth year for compliance under the agency's authority in Section 113 of the Clean Air Act.38

EGUs, in most cases, do not appear to need the available extra time. A survey of state and local air permitting authorities by the National Association of Clean Air Agencies, released October 9, 2014, finds that of the 1,400 EGUs affected by MATS, only 145 have requested additional compliance time. Of the 145 requests, 133 have been granted, 9 are under consideration, 2 were denied due to incomplete information, and 1 was accommodated through a permit waiver.39

Legislative Action

Like the CSAPR rule, the MATS rule has been challenged both in Congress and in the courts. In the 112th Congress, H.R. 2401 and H.R. 3409 would have declared the MATS rule "of no force and effect," would have required that any replacement rule impose the least burdensome regulatory alternative among those authorized under the Clean Air Act, and would have delayed compliance with any replacement rule until six years after an interagency panel completed a study of the cumulative impact of numerous listed EPA rules. The Senate did not consider either bill, but it did consider S.J.Res. 37, a resolution to disapprove the MATS rule under the Congressional Review Act. The resolution was rejected by the Senate, 46-53, on June 20, 2012.

The White Stallion Energy Center Case

The regulations were also challenged in the D.C. Circuit Court of Appeals (White Stallion Energy Center v. EPA). Petitioners focused on EPA's "appropriate and necessary" finding, arguing that the agency found few direct benefits from controlling mercury or other air toxics. The vast majority of the monetized benefits in EPA's analysis come from reduced emissions of PM2.5, which the pollution control equipment would achieve as a co-benefit. Plaintiffs also argued that EPA had a duty to consider cost in determining whether the standards were appropriate and necessary.

The D.C. Circuit disagreed. In a 2-1 decision handed down April 15, 2014, the court found that the statute offers no express guidance regarding what factors EPA was to consider in deciding whether regulation was "appropriate and necessary," nor does it define the words. Where the statute is silent, the court followed the precedent set in the 1984 Supreme Court case, Chevron USA, Inc. v. Natural Resources Defense Council, upholding the agency's interpretation so long as it constitutes "a permissible construction of the statute."40 The D.C. Circuit decision was appealed to the Supreme Court, which has agreed to hear the case (now styled Michigan v. EPA). Oral argument had not been scheduled as of this writing.

Administrative Actions

In the meantime, in response to petitions by numerous parties, EPA agreed to reconsider portions of the MATS rule.41 On March 28, 2013, the agency modified the rule's standards for mercury emissions from new coal-fired power plants: the modifications will allow 15 times as much mercury to be emitted as would have been allowed under the final standard promulgated in February 2012. The change responded to comments from the Institute of Clean Air Companies (the trade association that represents manufacturers of pollution control and monitoring equipment) and others that the mercury standard as originally promulgated was an order of magnitude below a level that could be measured by continuous monitoring equipment.

The reconsideration also makes the new source standards for particulate matter and hydrogen chloride less stringent, allowing 13 times as much particulate matter and 25 times as much hydrogen chloride; these changes were based on the agency's conclusion that it had not used all the available emissions information in the record when it promulgated the February 2012 standards. The agency says that the changes will result in "no significant change in costs, emission reductions or health benefits from MATS." Facilities will still need the same pollution control equipment to meet the less stringent standards.42

On March 5, 2014, EPA asked the D.C. Circuit for a voluntary remand of the new source MATS standards so that it may reconsider them again. The agency set the standards based on data for six or fewer sources. In its motion, the agency said that the question of whether its methodology is an appropriate statistical method for small data sets requires more analysis. The remand will have little effect in the short term: the promulgated 2013 standards have not been vacated in the interim, and few new plants subject to the rule are being constructed.

Cumulative Impacts of EPA Rules

As EPA has developed and proposed standards for electric generating units, utilities that rely heavily on coal-fired power and the industry's trade association, the Edison Electric Institute (EEI), have raised concerns about the cumulative impacts of EPA rules. Besides the CSAPR and MATS rules, their attention has focused on proposed Clean Water Act rules for cooling water intake structures, Solid Waste Disposal Act standards for managing coal combustion wastes, and potential Clean Air Act standards for emissions of greenhouse gases. Cumulatively, many in the industry and other opponents of these regulations have referred to these rules as an impending "train wreck" for coal-fired power plants. They maintain that compliance will be difficult and costly within the mandated timeframes, and that, as a result, sections of the country depending on coal-fired power could experience electricity reliability problems as plants are retired or taken off-line for retrofit of pollution controls.

Others in the industry and in various think tanks have concluded that this is unlikely to be the case. They note that the studies sponsored by EEI and by coal-reliant utilities were generally written before EPA proposed or promulgated any of the actual regulations, and the studies often assumed far more stringent requirements than EPA actually proposed or promulgated. While it is true that many coal-fired units would have to be taken out of service for pollution control equipment to be installed, the next few years would be an opportune time to do so, as there is currently substantial excess generating capacity in the electric power industry in most regions. This reserve margin will continue to be available over the next 5-10 years: as a result of the recession, the slow pace of economic recovery, and other factors, demand for electricity is growing slowly.

Many observers note, too, that EPA regulation is only one element of the situation facing aging coal-fired power plants, many of which are more than 40 years old and have few pollution controls. Equally important is competition from more efficient natural gas combined cycle units, which have taken over a larger share of the electric power market as the price of natural gas has declined. Over the last two decades, more than 80% of new generating capacity has come from these gas-fired units, which are relatively cheap to build and are cleaner and more efficient to operate than many coal-fired units. Observing the inroads being made by gas-fired generation, many industry observers conclude that portions of the electric power industry are simply experiencing a transition to more efficient power generation sources. (For additional information on this subject, see CRS Report R41914, EPA's Regulation of Coal-Fired Power: Is a "Train Wreck" Coming?, and CRS Report R42144, EPA's Utility MACT: Will the Lights Go Out?)

If the cost of making a coal-fired plant more efficient and less polluting is higher than that of converting to natural gas, the plant may well be retired. This can cause economic dislocation in specific communities, but it might not cause a substantial increase in the price of electricity or threaten the reliability of electricity supply. In 2012, for example, as coal-fired generation declined from 42% to 37% of total electric power, the price of electricity declined by 0.3%.43

In the 112th Congress, legislation to address the cumulative impacts issue was introduced in both the House and Senate. H.R. 2401, the Transparency in Regulatory Analysis of Impacts on the Nation (TRAIN) Act of 2011, which the House passed September 23, 2011, would have:

The same provisions passed the House a second time as Title III of H.R. 3409, the Stop the War on Coal Act, September 19, 2012. The Senate did not take action on either bill.

A modified TRAIN Act that addresses only the first of the above bullets was introduced in the 113th Congress as H.R. 2948; no action was taken on it.

Tier 3 Vehicle and Gasoline Standards

In February 2011, EPA began to scope out new emissions standards for conventional pollutants (i.e., non-greenhouse gases) from passenger cars and light trucks, pursuant to a May 2010 memorandum from the White House that directed the agency to review the adequacy of the current "Tier 2" emission standards for these vehicles. The Tier 2 standards were finalized in February 2000, and they were phased in between Model Years 2004 and 2009. Having determined that further emission reductions from motor vehicles are essential to attainment of ambient air quality standards in numerous areas, EPA proposed Tier 3 standards May 21, 2013. Final standards were signed on March 3, 2014, and were published in the Federal Register on April 28.44

As with the Tier 2 standards, the Tier 3 standards include changes to both vehicle emission limits and fuel formulation rules, lowering the allowable sulfur content of gasoline. Removing sulfur from gasoline improves the performance of existing emission controls and facilitates the use of new technology. The Tier 3 standards lower allowable sulfur from 30 parts per million (ppm) to a maximum of 10 ppm, and would require reductions in light duty vehicle emissions of 70%-80%. Requirements are to be phased in generally between Model Years 2017 and 2025. In addition to the light duty vehicle emission and gasoline standards, the rule extends the required useful life of emission control equipment from 120,000 miles to 150,000 miles, and sets standards for heavier duty gasoline-powered vehicles.

In letters to the President before the standards' proposal, several Senators of both parties asked that the Administration delay the EPA rulemaking over concerns that the new fuel standards would raise the price of gasoline;45 but EPA maintains that the rule as promulgated will add less than a penny to the price of a gallon. The cost estimate is disputed by petroleum refiners: they argue that some refineries will find it more difficult than others to reduce sulfur to the 10 ppm standard, and could face cost increases of as much as nine cents a gallon. To address these concerns, the final rule allows a three-year delay in compliance for small refiners. It also includes averaging, banking, and trading programs that will give the refining industry flexibility in meeting the standards.

Other stakeholders, including the auto industry, are generally in support of the new standards. Auto manufacturers already face more stringent requirements in California, and fear having to meet a patchwork of standards in different states. They also note that lower sulfur fuel is needed to support the lean-burn technologies that they will use to meet already promulgated fuel efficiency and GHG standards.46

The Tier 3 standards are also supported by environment and public health groups, and by a number of governors and other state and local officials, because they will help nonattainment areas comply with ambient air quality standards. Without tighter standards on vehicles and gasoline, ozone nonattainment areas in about half the states might have to impose more controls on local sources of ozone precursors and particulates.

For additional information on the Tier 3 standards, see CRS Report R43497, Tier 3 Motor Vehicle Emission and Fuel Standards.

Wood Stoves

On January 3, 2014, EPA released proposed emission standards for new residential wood heaters, the most common of which are wood stoves, pellet stoves, hydronic heaters, and forced air furnaces. The proposal, which would revise standards for wood stoves and pellet stoves and for the first time establish standards for other types of wood heaters, appeared in the Federal Register on February 3.47 This began a public comment period that ran until May 5.

According to EPA, smoke from wood heaters contributes "hundreds of thousands of tons" of fine particles to the air throughout the country each year, accounting for nearly 25% of all area source air toxics cancer risks and 15% of non-cancer respiratory effects. In many areas, in wintertime, wood heaters are the largest source of particulate air pollution; yet many heater types are not currently subject to any federal emission standard.

The proposed rule would only gradually reduce this pollution, because it would apply only to new heaters (not those already in use) and it would give the industry a five-year grace period before its most stringent standards would take effect. Wood heaters can last for 40 years or more, so it will be decades before the full health benefits of the rule would be attained.

Nevertheless, the rule would eliminate an estimated 210 to 470 premature deaths annually in the 2014-2022 period, according to EPA, as well as reduce hospital admissions and lost work days due to respiratory illness. EPA quantifies these benefits at $1.8 billion to $4.2 billion per year during the 2014-2022 period, more than 100 times the agency's estimate of the annualized cost to manufacturers, $15.7 million.

Trade associations representing the affected industries and companies in the industry have mixed views of the proposed standards. While supporting revision of the current standards and the inclusion of additional heater types, they express concern that the standards as proposed will impose too great a cost. Facing higher costs for new units, homeowners will continue to use current, highly polluting equipment, rather than replace it, the industry maintains. Many have also expressed concerns regarding the process to be used in certifying compliance and the short period of time in which currently available units could be tested and certified.

These concerns, as well as the widely acknowledged health effects, have generated substantial interest in the proposed rule in areas where wood stoves are used as heating sources, and Members of Congress from those areas have written EPA to express concerns regarding the proposed rule's possible impacts.48 The subject has also been raised during hearings on EPA's FY2015 appropriation request, and legislation (H.R. 4407) was introduced in the 113th Congress to place limits on EPA's authority to set the standards. No action was taken on the bill. (For additional information on the wood heater proposal, see CRS Report R43489, EPA's Proposed Wood Stove / Wood Heater Regulations: Frequently Asked Questions.)

Air Quality Standards

The Obama Administration's EPA has also reviewed several national ambient air quality standards (NAAQS), as it is required to do by Section 109 of the Clean Air Act. NAAQS do not directly regulate emissions from sources of pollution; rather, they represent EPA's formal judgment regarding how clean the air must be to protect public health and welfare. The standards set in motion monitoring and planning requirements, which in turn can lead to designation of "nonattainment areas" and the imposition of emission controls.

Background

Air quality has improved substantially since the passage of the Clean Air Act in 1970: annual emissions of the six air pollutants for which EPA has set ambient air quality standards (ozone, particulate matter, sulfur dioxide, carbon monoxide, nitrogen dioxide, and lead) have declined by 72%, despite major increases in population, motor vehicle miles traveled, and economic activity.49 Nevertheless, the goal of clean air continues to elude many areas, in part because scientific understanding of the health effects of air pollution has caused EPA to tighten standards for most of these pollutants. Congress anticipated that the understanding of air pollution's effects on public health and welfare would change with time, and it required, in Section 109(d) of the act, that EPA review the standards at five-year intervals and revise them, as appropriate.

The most widespread problems involve ozone and fine particles. A recent study by researchers at the Massachusetts Institute of Technology concluded, for example, that emissions of particulate matter and ozone caused 210,000 premature deaths in the United States in 2005.50 Many other studies have found links between air pollution, illness, and premature mortality, as well. EPA summarizes these studies in what are called Integrated Science Assessments and Risk Analyses when it reviews a NAAQS, and it identifies areas where concentrations of pollution exceed the NAAQS following its promulgation. As of July 2014, 123 million people lived in areas classified "nonattainment" for the ozone NAAQS; 43 million lived in areas that were nonattainment for the fine particle (PM2.5) NAAQS.51

Violations of the ambient air quality standards for the other four criteria pollutants are not as widespread, but EPA is engaged in (or has recently completed) reviews indicating that health effects of most of these pollutants are more serious and more prevalent than previously thought. As recently as 2010, for example, no areas exceeded the NAAQS for sulfur dioxide (SO2), but in a review concluded in that year, EPA determined that between 2,300 and 5,900 premature deaths could be avoided annually by strengthening that standard.52 The agency now concludes that 1.9 million people live in areas that are nonattainment for a revised SO2 NAAQS. A review of the lead standard completed in 2008 concluded that it should be lowered by 90%,53 as a result of which nearly 10 million people are considered to live in areas with unhealthy levels of atmospheric lead.54

CRS Report R41563, Clean Air Issues in the 112th Congress, summarized EPA's recent efforts to review the NAAQS and implement revisions, including the next steps for each of the six criteria pollutants. Reviews of all six pollutants (ozone, PM, lead, NO2, carbon monoxide, and SO2) have been completed since 2006, with the standards being made more stringent for five of the six. The next round of reviews has begun for each of the pollutants.

Reviews do not always lead to revision of the standards. On August 31, 2011, the EPA Administrator completed a review of the carbon monoxide (CO) NAAQS without changing the standard. The CO standard was promulgated in its present form in 1971. The current review of the lead NAAQS, similarly, has resulted in a proposal to retain the standard set in 2008.55

The Ozone NAAQS

Since 2010, review of the NAAQS for ozone has sparked recurrent controversy. On January 19, 2010, EPA proposed a revision to the ozone NAAQS.56 The proposal did not follow the usual five-year (or longer) review process, but resulted from the EPA Administrator's decision to reconsider standards promulgated in March 2008 by the previous Administration. The 2008 review had made the standards more stringent; but EPA suspended implementation of the new standard in September 2009 in order to consider further strengthening it, and proposed a more stringent standard in January 2010.

As proposed, the January 2010 revision would have lowered the primary (health-based) standard from 75 parts per billion (ppb) averaged over 8 hours (the standard set in 2008) to somewhere in the range of 70 to 60 ppb; it would also have set a new secondary standard designed to protect crops and forests from ozone. The proposal followed the recommendations of the agency's panel of outside scientific advisers, the Clean Air Scientific Advisory Committee (CASAC), which had concluded that the 2008 revision did not meet the Clean Air Act's statutory requirements.

Because of its wide reach and potential cost, the proposed revision was among the most controversial rules under consideration at EPA at the time. EPA is prohibited by the statute from considering costs in setting NAAQS,57 but it does prepare cost and benefit estimates for information purposes, and in order to comply with Executive Order 12866 (under which the Office and Management and Budget (OMB) requires cost-benefit analysis of economically significant rules). When it proposed the 2010 revisions, the agency estimated that the costs of implementing the revised ozone NAAQS would range from $19 billion to $25 billion annually in 2020 if the standard chosen were 70 ppb, or $52 billion to $90 billion if the standard chosen were 60 ppb, with benefits of roughly the same amount.58 EPA identified at least 515 counties that would violate the NAAQS if the most recent three years of data available at the time of proposal were used to determine attainment (compared to 85 counties that violated the 1997 standard in effect at that time).

Initially, the agency said it would complete the ozone review by August 2010, but it announced delays in the projected completion date four times, before sending a final decision to OMB for interagency review in July 2011. The agency's final decision would have set a 70 ppb primary standard and would have adopted the new form of the secondary standard59 that the agency had proposed. The agency's cost estimate was unchanged from the proposal—$19 billion to $25 billion in 2020—and quantifiable benefits were estimated to range from $11 billion to $37 billion.60

On September 2, 2011, the White House announced that the President had requested that EPA Administrator Jackson withdraw the all-but-final ozone standards from further consideration at that time. The President's statement noted that "work is already underway to update a 2006 review of the science that will result in the reconsideration of the ozone standard in 2013," and stated that he did not "support asking state and local governments to begin implementing a new standard that will soon be reconsidered."61

State and local governments are being asked to begin implementing a new standard that will soon be reconsidered, however: withdrawal of the decision left EPA and state and local governments to implement the 2008 ozone standards, which had been stayed pending the agency's reconsideration. Following the withdrawal, EPA proceeded with implementation of the 2008 standards, designating nonattainment areas in May and June of 2012. The vast majority of areas designated nonattainment for the 2008 standard (Figure 1) are areas that had already been designated nonattainment for the previous (1997) standard, but implementation of new, more stringent standards meant that State Implementation Plans and the pollution control measures that they specify could need revision.

EPA's December 2014 Proposal

Meanwhile, EPA has proceeded with the regularly scheduled five-year review of the 2008 standard, as the President indicated the agency would. A federal district court ordered the agency to propose revisions resulting from this review by December 1, 2014. The agency's proposal was released on November 26 and appeared in the Federal Register on December 17.62 Under the court order, a final decision is to be signed by October 1, 2015.

The proposal would set more stringent standards, lowering both the primary (health-based) and secondary (welfare-based) standards from the current 75 parts per billion (ppb) to somewhere in a range of 65 to 70 ppb. EPA maintains that most areas will be able to reach attainment of the new standards—whether at 65 or 70 ppb—as a result of already promulgated regulations for gasoline, autos, power plants, and other sources of emissions. If current monitoring data were used to designate nonattainment areas, EPA states that 358-558 counties outside California would have monitors showing nonattainment. But the agency's modeling shows all but nine of these counties reaching attainment with a 70 ppb standard by 2025 as a result of the already promulgated standards (for power plants, motor vehicles, gasoline, and other sources), and all but 68 attaining a 65 ppb standard through the same measures.

Thus, the agency's estimates of the cost of attaining a revised ozone NAAQS are substantially lower than many earlier estimates. EPA estimates the cost of meeting a 70 ppb standard in all states except California at $3.9 billion annually in 2025; the cost of meeting a 65 ppb standard in the same states is estimated at $15 billion annually. Because most areas in California would have until the 2030s to reach attainment, EPA provided separate cost estimates for California ($0.80 billion to $1.6 billion annually in 2038). EPA's cost estimates are substantially less than one from the National Association of Manufacturers that was widely circulated before the release of EPA's proposal.

Whether the expected benefits of proposed standards would justify their costs is a perennial issue raised by stakeholders when EPA considers revising a NAAQS. Both nationwide and in California, the agency expects the benefits of attainment to exceed the costs in this case, but there is controversy over the methods used to estimate both. More importantly, as the Clean Air Act is currently written, the agency is prohibited from weighing costs against benefits in setting the standards. The statute simply states that the Administrator is to set the primary standard at a level requisite to protect public health, allowing an adequate margin of safety.

Figure 1. Ozone Nonattainment Areas (2008 Standard, 0.075 ppm)

Source: U.S. EPA Green Book, http://www.epa.gov/airquality/greenbk/map8hr_2008.html. Map shows areas designated nonattainment by EPA as of July 2, 2014.

Congress is likely to take a keen interest in the results of this review as it nears completion. At least three bills were introduced in the 113th Congress that would affect the timing or EPA's authority to promulgate an ozone NAAQS:

For additional information on revision of the ozone NAAQS, see CRS Report R43092, Ozone Air Quality Standards: EPA's 2015 Revision.

Other Issues

Since 2009, EPA has proposed and promulgated numerous regulations implementing the Clean Air Act (and other pollution control statutes that it administers). Critics of the Administration, both within Congress and outside of it, have accused the agency of reaching beyond the authority given it by Congress and ignoring or underestimating the costs and economic impacts of these rules. At least seven bills that would have overturned specific regulations or limited the agency's authority (H.R. 1, H.R. 910, H.R. 1633, H.R. 2250, H.R. 2401, H.R. 2681, and H.R. 3409) passed the House in the 112th Congress.

In addition to the regulation of greenhouse gas emissions, power plants, and NAAQS, discussed above, two of the EPA regulations that attracted the most attention were the Maximum Achievable Control Technology standards for cement kilns and boilers (referred to as the "Portland Cement MACT," and the "Boiler MACT," respectively). In both cases, EPA agreed to reconsider rules that it had promulgated. On December 20, 2012, EPA Administrator Jackson signed revised rules for both, giving the affected industries additional time to comply, and making the final standards less stringent than those originally promulgated.63

While EPA has been widely criticized by industry groups and many in Congress for overreaching, the agency maintains that in promulgating these and other rules, it is complying with statutory mandates placed on the agency by Congress. The agency states that its critics' focus on the cost of controls obscures the benefits of new regulations, which, it estimates, far exceed the costs; and it maintains that pollution control is an important source of economic activity, exports, and American jobs.

Environmental groups generally disagree that the agency has overreached in setting Clean Air Act standards. These groups often maintain that the agency's standards are not stringent enough, do not meet statutory requirements, or disregard the findings of the agency's science advisors. The result is that EPA Clean Air Act standards generally are challenged in court both by industry and by environmental groups, with various states supporting each side. The resulting court decisions often set EPA's agenda as much as Congress or the Administration.

Confirmation of a new EPA Administrator as well as oversight hearings gave the 113th Congress early venues to revisit these issues. A confirmation hearing for Gina McCarthy, President Obama's nominee to lead the agency, was held by the Senate Environment and Public Works Committee on April 11, 2013. She was confirmed as EPA Administrator on July 18, 2013.

For additional discussion of EPA's regulatory actions, under the Clean Air Act and other statutes, see CRS Report R41561, EPA Regulations: Too Much, Too Little, or On Track?

Footnotes

1.

For information on the REINS Act, see CRS Report R41651, REINS Act: Number and Types of "Major Rules" in Recent Years, by [author name scrubbed] and [author name scrubbed].

2.

The six are carbon dioxide (CO2), methane (CH4), nitrous oxide (N2O), sulfur hexafluoride (SF6), hydrofluorocarbons (HFCs), and perfluorocarbons (PFCs).

3.

549 U.S. 497 (2007).

4.

74 Federal Register 66496. While generally referred to as the "endangerment finding" (singular), the Federal Register notice consists of two separate findings: a Finding That Greenhouse Gases Endanger Public Health and Welfare, and a Finding That Emissions of Greenhouse Gases from CAA Section 202(a) Sources Cause or Contribute to the Endangerment of Public Health and Welfare. [CAA Section 202(a) sources are new motor vehicles or new motor vehicle engines.]

5.

75 Federal Register 25324. For additional information, including a link to the standards, see http://www.epa.gov/otaq/climate/regulations.htm#finalR. The agency subsequently (on October 15, 2012) promulgated GHG standards for model years 2017-2025.

6.

GHG emissions and fuel economy are directly related, because 94% of GHG emissions from light duty vehicles are the result of fuel combustion. The less fuel a vehicle uses, the lower will be its GHG emissions.

The President's announcement and related documents, including a Notice of Upcoming Joint Rulemaking to Establish Vehicle GHG Emissions and CAFE Standards, which appeared in the May 22, 2009, Federal Register, and both the draft and final emission standards can be found at http://www.epa.gov/otaq/climate/regulations.htm. For additional information, see CRS Report R42721, Automobile and Truck Fuel Economy (CAFE) and Greenhouse Gas Standards, by [author name scrubbed], [author name scrubbed], and [author name scrubbed], or CRS Report R40506, Cars, Trucks, and Climate: EPA Regulation of Greenhouse Gases from Mobile Sources.

7.

http://www.epa.gov/otaq/climate/regs-light-duty.htm#new1.

8.

U.S. Environmental Protection Agency, U.S. Department of Transportation, "Greenhouse Gas Emissions Standards and Fuel Efficiency Standards for Medium- and Heavy-Duty Engines and Vehicles; Final Rules," 76 Federal Register 57106, September 15, 2011.

9.

The adoption of motor vehicle GHG standards also triggered GHG permit requirements for new stationary sources of all types. Section 165 of the Clean Air Act requires preconstruction permits and the imposition of best available control technology for new major sources of all pollutants "subject to regulation" under the act. When the GHG standards for motor vehicles took effect in January 2011, GHGs became subject to regulation, according to the agency, triggering Section 165. Thus, GHG permit requirements took effect January 2, 2011.

EPA has focused its initial permitting efforts on the largest emitters, granting smaller sources at least a six-year reprieve. As of January 2014, only 143 GHG permits had been issued by EPA and state permitting authorities; there are as many as 6 million stationary sources of GHGs, according to EPA, so the permit requirement has effected a very small number of sources. Nevertheless, this triggering of standards for the largest new stationary sources (power plants, manufacturing facilities, and others) has raised substantial concern in Congress and among potentially affected industries. The Supreme Court largely upheld EPA's GHG permitting authority in Utility Air Regulatory Group v. Environmental Protection Agency, No. 12-1146, 2014 Westlaw 2807314 (U.S. June 23, 2014).

10.

Office of the Press Secretary, The White House, "Power Sector Carbon Pollution Standards," Memorandum for the Administrator of the Environmental Protection Agency, June 25, 2013, at http://www.whitehouse.gov/the-press-office/2013/06/25/presidential-memorandum-power-sector-carbon-pollution-standards. See also 78 Federal Register 39535, July 1, 2013.

11.

79 Federal Register 34830, June 18, 2014, at http://www.gpo.gov/fdsys/pkg/FR-2014-06-18/pdf/2014-13726.pdf.

12.

Coalition for Responsible Regulation, Inc. v. EPA, 684 F.3d 102 (D.C. Cir. 2012).

13.

Utility Air Regulatory Group v. Environmental Protection Agency, No. 12-1146, 2014 Westlaw 2807314 (U.S. June 23, 2014).

14.

The rule appeared in the Federal Register two months later. See U.S. EPA, "Ambient air quality standards, national—Fine particulate matter and ozone; interstate transport control measures," 70 Federal Register 25162, May 12, 2005.

15.

70 Federal Register 28606, May 18, 2005.

16.

See U.S. EPA, Office of Air and Radiation, Regulatory Impact Analysis for the Final Clean Air Interstate Rule, March 2005, pp. 3-3 and 3-4, at http://www.epa.gov/cair/pdfs/finaltech08.pdf.

17.

North Carolina v. EPA, 531 F.3d 896 (D.C. Cir. 2008).

18.

Ibid. at 930.

19.

North Carolina v. EPA, 550 F.3d 1176 (D.C. Cir. 2008).

20.

The rule appeared in the Federal Register, August 8, 2011. For more details, including a link to the Federal Register notice, see http://www.epa.gov/crossstaterule/actions.html.

21.

Data are from EPA's National Emissions Inventory, at http://www.epa.gov/ttn/chief/trends/.

22.

U.S. EPA, Office of Air and Radiation, "Cross-State Air Pollution Rule," Overview Presentation, undated, p. 6, at http://www.epa.gov/crossstaterule/pdfs/CSAPRPresentation.pdf.

23.

U.S. EPA, "National Emissions Inventory (NEI) Air Pollutant Emissions Trends Data," at http://www.epa.gov/ttn/chief/trends/index.html#tables.

24.

EME Homer City Generation, L.P. v. EPA, 696 F.3d 7 (D.C. Cir. 2012).

25.

U.S. EPA, "National Listing of Fish Advisories: Technical Fact Sheet 2010," at http://water.epa.gov/scitech/swguidance/fishshellfish/fishadvisories/technical_factsheet_2010.cfm.

26.

U.S. EPA, Regulatory Impact Analysis of the Final Clean Air Mercury Rule, Table 7-3, p. 7-5, at http://www.epa.gov/ttnecas1/regdata/RIAs/mercury_ria_final.pdf.

27.

Seven other states joined EPA in defending the rule.

28.

New Jersey v. EPA, 517 F.3d 574 (D.C. Cir. 2008).

29.

Id. at 582.

30.

See U.S. EPA, "Memorandum: Emissions Overview: Hazardous Air Pollutants in Support of the Final Mercury and Air Toxics Standard," November 2011, Tables 4, 5, and 6, at http://www.epa.gov/airquality/powerplanttoxics/pdfs/20111216EmissionsOverviewMemo.pdf. Hereinafter, "EPA Emissions Overview."

31.

The rule appeared in the Federal Register, February 16, 2012, at 77 Federal Register 9304. For a link to the rule as well as explanatory material, see U.S. EPA, "Final Mercury and Air Toxics Standards (MATS) for Power Plants," at http://www.epa.gov/airquality/powerplanttoxics/actions.html.

32.

EPA Emissions Overview, previously cited.

33.

U.S. EPA, Regulatory Impact Analysis for the Final Mercury and Air Toxics Standards, pp. 3-14 to 3-20, at http://www.epa.gov/ttn/ecas/regdata/RIAs/matsriafinal.pdf.

34.

Ibid., p. ES-2.

35.

According to U.S. DOE's Energy Information Administration, the average monthly residential electric bill was $103.67 in 2009. See http://205.254.135.7/cneaf/electricity/esr/table5.html. See EPA's Regulatory Impact Analysis, p. 3-24, for projected impacts on retail electricity prices in each of 13 regions of the United States.

36.

The White House, Office of the Press Secretary, "Presidential Memorandum—Flexible Implementation of the Mercury and Air Toxics Standards Rule," at http://www.whitehouse.gov/the-press-office/2011/12/21/presidentialmemorandum-flexible-implementation-mercury-and-air-toxics-s.

37.

EPA, Mercury and Air Toxics Standards, 77 Federal Register 9408-9411, February 16, 2012.

38.

"The Environmental Protection Agency's Enforcement Response Policy for Use of Clean Air Act Section 113(a) Administrative Orders in Relation to Electric Reliability and the Mercury and Air Toxics Standard," Memorandum from Cynthia Giles, Assistant Administrator, Office of Enforcement and Compliance Assurance, to EPA Regional Administrators et al., December 16, 2011, 7 p., at http://www.epa.gov/mats/pdfs/EnforcementResponsePolicyforCAA113.pdf.

39.

National Association of Clean Air Agencies, "Survey on MATS Compliance Extension Requests," October 9, 2014, at http://www.4cleanair.org/sites/default/files/Documents/MATSextensionrequests-table-Oct-2014-2.pdf.

40.

White Stallion Energy Center v. EPA, 748 F.3d 1222, 1234-1236 (D.C. Cir. 2014).

41.

U.S. EPA, "Reconsideration of Certain New Source Issues: National Emission Standards for Hazardous Air Pollutants from Coal- and Oil-Fired Electric Utility Steam Generating Units and Standards of Performance for Fossil-Fuel-Fired Electric Utility, Industrial-Commercial-Institutional, and Small Industrial-Commercial-Institutional Steam Generating Units," Final Rule, March 28, 2013. The final rule appeared in the Federal Register on April 24, 2013, at 78 Federal Register 24073.

42.

U.S. EPA, "Fact Sheet, Updates of the Limits for New Power Plants Under the Mercury and Air Toxics Standards (MATS)," at http://www.epa.gov/mats/pdfs/20130328fs.pdf.

43.

U.S. Energy Information Administration, Electric Power Monthly, January 2013, Table ES1.B.

44.

Links to the proposed and final standards and related materials are on EPA's website at http://www.epa.gov/otaq/tier3.htm.

45.

See http://www.heitkamp.senate.gov/record.cfm?id=341129, and http://www.epw.senate.gov/public/index.cfm?FuseAction=Minority.PressReleases&ContentRecord_id=a70c480c-ce1b-5ee7-430b-ae4f2e5230d9.

46.

For views of the Auto Alliance, see their testimony at the EPA Tier 3 hearing, at http://www.autoalliance.org/index.cfm?objectid=631E0230-AC48-11E2-9CE9000C296BA163.

47.

U.S. EPA, "Standards of Performance for New Residential Wood Heaters, New Residential Hydronic Heaters and Forced-Air Furnaces, and New Residential Masonry Heaters; Proposed Rule," 79 Federal Register 6329, February 3, 2014.

48.

"EPA Proposed Standards for Wood Heaters Would Increase Heating Costs, Senators Say," Daily Environment Report, March 31, 2014. A letter to EPA Administrator McCarthy from Senators Collins and King of Maine is available at http://www.collins.senate.gov/public/index.cfm/press-releases?ID=c858ecaa-45a2-4953-bffe-edf035de3bd8. A letter to the EPA Administrator from Senator Thune of South Dakota is available at http://www.thune.senate.gov/public/index.cfm/press-releases?ID=008e36fa-35c2-42f0-a50c-6165fb33d982.

49.

For additional data on air pollution trends, see http://www.epa.gov/airtrends/aqtrends.html#comparison.

50.

Fabio Caiazzo, et al., "Air Pollution and Early Deaths in the United States. Part I: Quantifying the Impact of Major Sectors in 2005," Atmospheric Environment, November 2013, pp. 198-208.

51.

Data for ozone nonattainment areas are from the U.S. EPA "Green Book," at http://www.epa.gov/airquality/greenbk/hntc.html. Data for PM2.5 nonattainment areas are also from the "Green Book," at http://www.epa.gov/airquality/greenbk/rntc.html.

52.

U.S. EPA, "Revisions to the Primary National Ambient Air Quality Standard, Monitoring Network and Data Reporting Requirements for Sulfur Dioxide (SO2)," Text Slides, June 2010, p. 21, at http://www.epa.gov/air/sulfurdioxide/pdfs/20100603presentation.pdf.

53.

U.S. EPA, "Fact Sheet, Final Revisions to the National Ambient Air Quality Standards for Lead," 2008, at http://www.epa.gov/air/sulfurdioxide/pdfs/20100603presentation.pdf. A more recent review, released December 19, 2014, has proposed that the 2008 NAAQS should be retained. See http://www.epa.gov/air/lead/actions.html#dec2014.

54.

U.S. EPA, Green Book, at http://www.epa.gov/oaqps001/greenbk/popexp.html.

55.

http://www.epa.gov/air/lead/actions.html#dec2014.

56.

U.S. Environmental Protection Agency, "National Ambient Air Quality Standards for Ozone; Proposed Rule," 75 Federal Register 2938, January 19, 2010.

57.

The Clean Air Act's §108 and §109 have been so interpreted since the NAAQS provisions were added to the act in 1970; in 2001, this interpretation was affirmed in a unanimous Supreme Court decision, Whitman v. American Trucking Associations, 531 U.S. 457 (2001). This is not to say that cost considerations play no role in Clean Air Act decisions: cost-effectiveness is considered extensively by EPA and the states in selecting emission control options. But in deciding what level of ambient pollution poses a health threat, the statute bars consideration of costs.

58.

U.S. EPA, "Fact Sheet: Supplement to the Regulatory Impact Analysis for Ozone," January 7, 2010, at http://www.epa.gov/air/ozonepollution/pdfs/fs20100106ria.pdf.

59.

The Clean Air Act (in Section 109) requires primary standards to protect public health and secondary standards to protect public welfare. Welfare includes effects on soils, water, crops, vegetation, man-made materials, animals, and climate, among other factors. In general, EPA has set both primary and secondary NAAQS at the same level and in the same form. Increasingly, however, the agency's science advisers have concluded that protecting public welfare may require measuring exposures and concentrations over different time periods, using different indicators. For a discussion of how this has affected the secondary standard for ozone, see CRS Report R43092, Ozone Air Quality Standards: EPA's 2015 Revision.

60.

The estimated costs compared implementation of a 70 ppb primary standard to a baseline that assumed compliance with the 1997 ozone standard. Implementing the 2008 ozone standard, which the agency is now doing, will cost $7.6 billion to $8.8 billion in 2020 compared to the same baseline, according to the agency; so the incremental cost of the 70 ppb standard would have been on the order of $11 billion to $16 billion. Incremental benefits would also be less if one assumed compliance with the 2008 ozone standard as the baseline. See U.S. EPA, Regulatory Impact Analysis, Final National Ambient Air Quality Standard for Ozone, July 2011, p. 6, at http://www.epa.gov/airquality/ozonepollution/pdfs/201107_OMBdraft-OzoneRIA.pdf.

61.

The White House, Office of the Press Secretary, "Statement by the President on the Ozone National Ambient Air Quality Standards," September 2, 2011.

62.

79 Federal Register 75234, available at http://www.gpo.gov/fdsys/pkg/FR-2014-12-17/pdf/2014-28674.pdf. For links to EPA's fact sheets and technical documents, see http://www.epa.gov/air/ozonepollution/actions.html.

63.

The Boiler MACT standards were published January 31, 2013, at 78 Federal Register 7138. The Portland Cement rule was published February 12, 2013, at 78 Federal Register 10006.