Tier 3 Motor Vehicle Emission and Fuel Standards

On March 3, 2014, the Environmental Protection Agency finalized new (Tier 3) emission standards for light duty (and some larger) motor vehicles. Light duty vehicles include cars, SUVs, vans, and most pickup trucks. Phase-in of the standards will begin with Model Year 2017. By the time Tier 3 is fully implemented in Model Year 2025, the standards for light duty vehicles will require reductions of about 80% in tailpipe emissions of non-methane organic gases and nitrogen oxides (both of which contribute to the formation of ground-level ozone) and of about 70% in tailpipe emissions of particulates. Ozone and particulates are the most widespread air pollutants in the United States. Both contribute to respiratory illness and premature mortality. EPA estimates that implementation of the standards will reduce premature mortality by 770 to 2,000 persons annually, as well as providing reductions in hospital admissions, lost work days, school absences, and restricted activity days for persons with respiratory illness. Assigning monetary values to these benefits, EPA estimates the annual benefits at between $6.7 billion and $19 billion in 2030.

Like the current Tier 2 standards, which were promulgated in 2000 and phased in between Model Years 2004 and 2009, the Tier 3 standards treat vehicles and fuels as a system: reductions in vehicle emissions are easier to achieve if the fuel used contains less sulfur. The Tier 3 standards will require that gasoline contain no more than 10 parts per million (ppm) sulfur on an annual average basis beginning January 1, 2017, down from 30 ppm under the Tier 2 program. The fuel standards will match limits already attained in California and in much of the world, including the European Union, Japan, and Korea, and proposed for adoption in China. Further, 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. The standards will also require about a 50% reduction in evaporative emissions (some of which also contribute to ozone formation and/or cause health problems directly).

EPA estimates the cost of the rules at $1.1 billion annually in 2017 to $1.5 billion annually in 2030. The agency estimates that the rule will add $33 to $88 to the cost of a new vehicle, and less than one cent to the price of a gallon of gasoline. The effect on gasoline prices has been the most controversial issue: the American Petroleum Institute contends that the tighter sulfur controls will impose almost $10 billion in refinery capital expenditures and increase gasoline manufacturing costs by 6 to 9 cents per gallon. But, in addition to EPA, at least two studies by third-party consultants conclude that the costs will be far less than APIs estimate. To address refining industry concerns, the final rule will allow a three-year delay in compliance for small refiners. It also includes averaging, banking, and trading programs that will give the refining industry some flexibility in meeting the standards.

The auto industry is generally supportive of the rulefive auto companies, five trade groups, and the United Auto Workers union have issued statements of support, and a GM executive joined the EPA Administrator as she announced the standards. The standards facilitate the adoption of new technologies necessary to meet greenhouse gas standards already promulgated by EPA. In addition, California and 12 other states have already adopted tailpipe standards similar to Tier 3. Proponents contend that the harmonization of national standards eliminates the threat of a patchwork of state requirements and decreases compliance costs by preserving a unified national market. Many in Congress have expressed concern about the potential impacts of the rule. As a result, Congress can be expected to continue oversight as the rule is implemented.

Tier 3 Motor Vehicle Emission and Fuel Standards

April 28, 2014 (R43497)

Summary

On March 3, 2014, the Environmental Protection Agency finalized new ("Tier 3") emission standards for light duty (and some larger) motor vehicles. Light duty vehicles include cars, SUVs, vans, and most pickup trucks. Phase-in of the standards will begin with Model Year 2017. By the time Tier 3 is fully implemented in Model Year 2025, the standards for light duty vehicles will require reductions of about 80% in tailpipe emissions of non-methane organic gases and nitrogen oxides (both of which contribute to the formation of ground-level ozone) and of about 70% in tailpipe emissions of particulates. Ozone and particulates are the most widespread air pollutants in the United States. Both contribute to respiratory illness and premature mortality. EPA estimates that implementation of the standards will reduce premature mortality by 770 to 2,000 persons annually, as well as providing reductions in hospital admissions, lost work days, school absences, and restricted activity days for persons with respiratory illness. Assigning monetary values to these benefits, EPA estimates the annual benefits at between $6.7 billion and $19 billion in 2030.

Like the current "Tier 2" standards, which were promulgated in 2000 and phased in between Model Years 2004 and 2009, the Tier 3 standards treat vehicles and fuels as a system: reductions in vehicle emissions are easier to achieve if the fuel used contains less sulfur. The Tier 3 standards will require that gasoline contain no more than 10 parts per million (ppm) sulfur on an annual average basis beginning January 1, 2017, down from 30 ppm under the Tier 2 program. The fuel standards will match limits already attained in California and in much of the world, including the European Union, Japan, and Korea, and proposed for adoption in China. Further, 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. The standards will also require about a 50% reduction in evaporative emissions (some of which also contribute to ozone formation and/or cause health problems directly).

EPA estimates the cost of the rules at $1.1 billion annually in 2017 to $1.5 billion annually in 2030. The agency estimates that the rule will add $33 to $88 to the cost of a new vehicle, and less than one cent to the price of a gallon of gasoline. The effect on gasoline prices has been the most controversial issue: the American Petroleum Institute contends that the tighter sulfur controls will impose almost $10 billion in refinery capital expenditures and increase gasoline manufacturing costs by 6 to 9 cents per gallon. But, in addition to EPA, at least two studies by third-party consultants conclude that the costs will be far less than API's estimate. To address refining industry concerns, the final rule will allow a three-year delay in compliance for small refiners. It also includes averaging, banking, and trading programs that will give the refining industry some flexibility in meeting the standards.

The auto industry is generally supportive of the rule—five auto companies, five trade groups, and the United Auto Workers union have issued statements of support, and a GM executive joined the EPA Administrator as she announced the standards. The standards facilitate the adoption of new technologies necessary to meet greenhouse gas standards already promulgated by EPA. In addition, California and 12 other states have already adopted tailpipe standards similar to Tier 3. Proponents contend that the harmonization of national standards eliminates the threat of a patchwork of state requirements and decreases compliance costs by preserving a unified national market. Many in Congress have expressed concern about the potential impacts of the rule. As a result, Congress can be expected to continue oversight as the rule is implemented.


Tier 3 Motor Vehicle Emission and Fuel Standards

Introduction

Since the 1960s, emission standards for motor vehicles, coupled with standards for the fuels they burn, have reduced emissions from new cars and trucks by at least 95%. Nevertheless, because there are more vehicles on the road, because they are being driven more miles, and because the average useful life of a car exceeds the statutorily defined "useful life" over which emission standards must be met, emissions from motor vehicles continue to be a major component of the nation's air pollution problems. For these reasons, Congress, through the Clean Air Act (CAA)1 has required emission standards for new automobiles since 1965, and has amended these requirements on several occasions.2

Further, over the last five decades, the scientific understanding of the effects of air pollutants has led to a tightening of air quality standards. The CAA, as amended, requires the U.S. Environmental Protection Agency (EPA) to set National Ambient Air Quality Standards (NAAQS)3 for common pollutants from numerous and diverse sources, which may reasonably be anticipated to endanger public health and welfare. EPA has set standards for six principal pollutants: ozone, particulate matter, nitrogen oxides, sulfur dioxide, carbon monoxide, and lead.4 The agency reports that in 2013 on-road vehicles accounted for about 34% of carbon monoxide emissions in the United States, 38% of nitrogen oxides, 12% of volatile organic compounds,5 and 3% of particulate matter.6 Despite nationwide reductions in each of these major air pollutants by over 50% since 1970, air quality still fails to meet ambient standards in areas where about one-third of the nation's population lives.

Current Standards

Tier 2 Standards

Emission requirements for new motor vehicles have been strengthened numerous times since the first federal rulemaking took effect in 1968. The most recent revision, referred to as the "Tier 2" standards, was promulgated in February 2000.7 Tier 2 required vehicle manufacturers to reduce tailpipe emissions of several common pollutants, including carbon monoxide (CO), formaldehyde (HCHO), nitrogen oxides (NOx), non-methane organic gases (NMOG, a class of volatile organic compounds (VOCs)), and particulate matter (PM). The standards significantly targeted emissions of NMOG and NOx to help control the formation of ground-level ozone pollution. Relative to the prior Tier 1 standards, the fleet-average standard for NOx required vehicle manufacturers to reduce overall tailpipe emissions by 88% to 95% (based upon the vehicle type). However, manufacturers had the flexibility to average the NOx emissions of their vehicle fleets to demonstrate compliance with the standards instead of certifying each vehicle according to the same stringency. The Tier 2 standards also required at least an 80% reduction in PM emissions and a less stringent reduction in CO emissions.

Tier 2 was phased in beginning in model year (MY) 2004 and required all new passenger cars and light trucks up to 8,500 pounds, and all new heavier passenger vehicles up to 10,000 pounds (including large sport-utility vehicles), to demonstrate full compliance by MY2009. To further the vehicle emissions requirements, standards were also set on the level of pollutants (or compounds that may lead to pollution) in the vehicles' fuels. Most prominently, oil refiners were required to limit sulfur levels in gasoline to an average of 30 parts per million (ppm) nationwide beginning in 2005, roughly 90% less than the previous national average of 340 ppm. Reducing sulfur in gasoline prevents the fouling of catalytic converters, restoring or preserving their effectiveness in reducing NMOG, NOx, and CO emissions.

Greenhouse Gas Standards

Vehicle fuel economy has been regulated by the National Highway Traffic Safety Administration (NHTSA) since 1975.8 Under the Obama Administration, EPA has begun regulating emissions of greenhouse gases (GHGs) from motor vehicles. Because fuel consumption and GHG emissions are closely linked, EPA has coordinated with NHTSA since 2010 to issue a series of joint rulemakings. Most recently, on August 28, 2012, NHTSA and EPA issued final rules to tighten passenger corporate average fuel economy (CAFE) and GHG standards for MY2017-2025.9 The agencies expect that combined new passenger car and light truck fuel economy standards will be nearly 41.0 miles per gallon (mpg) in MY2021 and 49.7 mpg in MY2025, up from 34.1 mpg in MY2016.10 GHG emissions from new vehicles will decline by about 50% as a result of the standards. While the joint CAFE/GHG standards are not directly associated with the Tier 2/Tier 3 standards, requirements in the latter would assist vehicle manufacturers in advancing technology that would help meet the requirements of the former. This relationship is discussed further in the next sections.

Tier 3 Standards

In February 2011, EPA began scoping new emissions standards for conventional pollutants from cars and light trucks as mandated by a May 2010 memorandum from the White House.11 The memorandum directed EPA to "review for adequacy the current non-greenhouse gas emissions regulations for new motor vehicles, new motor vehicle engines, and motor vehicle fuels, including tailpipe emissions standards for nitrogen oxides and air toxics, and sulfur standards for gasoline," and to promulgate regulations as required.

Through its investigation, EPA found that

Over 149 million Americans are currently experiencing unhealthy levels of air pollution, which are linked with respiratory and cardiovascular problems and other adverse health impacts that lead to increased medication use, hospital admissions, emergency department visits, and premature mortality. Motor vehicles are a particularly important source of exposure to air pollution, especially in urban areas. By 2018, we project that in many areas that are not attaining health-based ambient air quality standards (i.e., "nonattainment areas"), passenger cars and light trucks will contribute 10-25 percent of total nitrogen oxides (NOx) emissions, 15-30 percent of total volatile organic compound (VOC) emissions, and 5-10 percent of total direct particulate matter (PM2.5) emissions.12

As a result of these findings, EPA proposed Tier 3 standards on May 21, 2013, released the final version on March 3, 2014, and published it in the Federal Register on April 28, 2014.13 The final rule is effective on June 27, 2014. As with Tier 2, the Tier 3 standards consider the vehicle and its fuel as an integrated system and include changes to both vehicle emission limits and fuel formulation rules, lowering the allowable sulfur content of gasoline.

The Tier 3 standards have been controversial since at least a year prior to their proposal, with dueling studies from auto manufacturers, EPA, and the petroleum refining industry having been prepared in advance of their release. The proposed standards were reported to be nearly ready in the spring of 2012, but the controversy over their presumed content delayed the proposal for a year. Numerous Members of Congress weighed in on the standards during their development, with many expressing their concern over the potential cost, and urging delay to permit further study.

Tailpipe Emissions Standards

As finalized, the Tier 3 standards set requirements on tailpipe emissions for the sum of non-methane organic gases (NMOG) and nitrogen oxides (NOx), presented as NMOG+NOx, and for particulate matter (PM). They apply to all light-duty passenger cars and trucks as well as some medium and heavy-duty vehicles. Compared to current standards, the NMOG and NOx tailpipe standards for light-duty vehicles represent approximately an 80% reduction from Tier 2's fleet average and a 70% reduction in per-vehicle PM standards. Heavy-duty vehicle tailpipe standards represent about a 60% reduction in both fleet-average NMOG+NOx and per-vehicle PM standards. Consistent with the Tier 2 principle of vehicle and fuel neutrality, the Tier 3 standards apply to all light-duty vehicles and trucks, regardless of the fuel they use. That is, vehicles certified to operate on any fuel (e.g., gasoline, diesel fuel, ethanol blends, compressed natural gas, liquefied natural gas, hydrogen, and methanol) are all subject to the same standards. EPA is also extending the regulatory useful life period during which the standards apply from 120,000 miles to 150,000 miles.

The tailpipe standards include different phase-in schedules that vary by vehicle class, but generally become effective between MY2017 and MY2025. In addition to the gradual phase-in schedules, several other provisions are designed to further ease manufacturers' paths to compliance. These flexibilities include credits for early compliance and the ability to offset some higher-emitting vehicles with extra-clean models. EPA is also finalizing more lead time for small businesses and small volume manufacturers as well as a hardship provision that allows for additional time to comply if a manufacturer cannot meet requirements after a good faith effort.

The standards for NMOG+NOx are fleet-average standards, meaning that a manufacturer calculates the weighted average emissions of the vehicles it produces in each model year and compares that average to the applicable standard for that model year. The standards differ by vehicle class and test procedures (see Table A-1 for more detail). The PM standards are expressed on a per-vehicle basis, meaning the standards apply to each vehicle separately (i.e., not as a fleet average). PM standards also differ by vehicle class and test cycle (see Table A-2 for more detail).

Evaporative Emission and Other Vehicle Standards

Tier 3 also sets standards designed to eliminate fuel vapor-related evaporative emissions from the vehicle's fuel system. The evaporative emissions program represents about a 50% reduction from current standards and applies to all light-duty and on-road gasoline-powered heavy-duty vehicles. As with the tailpipe standards, the evaporative emissions standards include phase-in flexibilities, credit and allowance programs, and more lead time and a hardship provision for small businesses and small volume manufacturers. EPA is also extending the regulatory useful life period during which the standards apply from 120,000 miles to 150,000 miles. See Table A-3 for more detail.

Fuel Standards

As with Tier 2, the Tier 3 standards treat vehicles and fuels as a system to reduce both vehicle emissions and fuel pollutants. Under the Tier 3 fuel program, gasoline is required to contain no more than 10 parts per million (ppm) sulfur on an annual average basis beginning January 1, 2017, down from 30 ppm under the Tier 2 program (similar reductions have already been phased in for highway diesel fuels beginning in 2006).14 The new gasoline sulfur standards aim to make emission control systems more effective for both existing and new vehicles, and thus enable more stringent vehicle emissions and fuel economy standards (i.e., since removing sulfur allows the vehicle's catalytic converter to work more efficiently and facilitates the development of lower cost technologies to improve fuel economy and reduce GHG emissions). There is an averaging, banking, and trading (ABT) program that allows refiners and importers to spread out their investments through an early credit program and rely on ongoing nationwide averaging to meet the standard. Further, there is a three-year delay for small refiners and "small volume refineries" (refiners processing less than or equal to 75,000 barrels per calendar day).

Tier 3 also updates the federal emissions test fuel specifications to better match current in-use gasoline and look forward to future ethanol and sulfur content. The new fuel specifications apply to new vehicle certification, assembly line, and in-use testing. Key changes include moving to a test fuel containing 10% ethanol by volume, lowering octane, and lowering the existing sulfur specification to be consistent with Tier 3 requirements.15

Benefits of the Rule

EPA anticipates that the implementation of the Tier 3 vehicle and fuel standards will reduce emissions of NOx, VOC, PM2.5, and air toxics. The fuel standards alone, which would take effect in 2017, are projected to provide an immediate 56% reduction in sulfur dioxide (SO2) emissions as the ultra-low sulfur gasoline is deployed in existing vehicles and engines. Further, EPA projects that NOx emissions will be reduced by about 260,000 tons by 2018 (about 10% of the current emissions from on-highway vehicles), and by about 330,000 tons by 2030 (about 25% of the current emissions from on-highway vehicles) as covered vehicles become a larger percentage of the fleet. VOC and CO emissions are projected to be reduced by about 170,000 tons and 3.5 million tons respectively by 2030 (16% and 24% of the current emissions from on-highway vehicles). Emissions of many air toxics, including benzene, 1,3-butadiene, acetaldehyde, formaldehyde, acrolein, and ethanol, are projected to be reduced in the range of 10% to 30%. These projected reductions would immediately reduce ozone levels in 2017 when the sulfur controls take effect, and would lead to significant decreases in ambient concentrations of ozone, PM2.5 and air toxics by 2030 as the vehicle fleets become updated.

EPA has reported that exposure to ambient concentrations of ozone, PM2.5, and air toxics is linked to adverse human health impacts such as premature deaths and other public health and environmental effects. EPA expects the final Tier 3 standards to reduce these adverse impacts and yield significant benefits, including the annual prevention of between 660 and 1,500 PM-related premature deaths, between 110 and 500 ozone-related premature deaths, about 2,200 asthma-related hospital admissions, 81,000 work days lost, 210,000 school absence days, and approximately 1.1 million minor restricted-activity days. The agency estimates that the annual monetized health benefits of the Tier 3 standards in 2030 (2011$) would be between $7.4 billion and $19 billion, assuming a 3% discount rate (or between $6.7 billion and $18 billion assuming a 7% discount rate).16

Further, EPA anticipates the Tier 3 tailpipe emission and gasoline sulfur standards would improve the performance of existing emission controls and facilitate the use of new technology. Auto manufacturers have been generally supportive of the standards,17 which they view as allowing the adoption of new technology necessary to meet the separate GHG standards already promulgated, and which would harmonize the U.S. fuel requirements with those of foreign fuels.18 The Tier 3 gasoline sulfur standards are similar to levels already achieved in Europe, Japan, and South Korea,19 as well as those proposed in China20 and some other countries. For companies that operate in world markets—as the major auto manufacturers do—harmonizing fuel and emission standards is a major concern. In the U.S. context, auto manufacturers already face more stringent requirements for both tailpipe emissions21 and fuel requirements22 in California and the Section 177 states,23 and many individual vehicle manufacturers and their trade organizations have emphasized the importance of a nationwide program to enable streamlined production and decreased compliance costs.

For these reasons, the EPA proposal has been supported by various Members of Congress,24 many industry, environmental25 and public health groups,26 and by a number of governors and other state and local officials.27 Many state and local stakeholders have also noted that without the tighter standards set on vehicles and gasoline, nonattainment areas in about half the states would need to impose more controls on stationary sources of ozone precursors and particulates (e.g., power plants and factories).

Some trade organizations, however, contend that the Tier 3 standards would have negligible effects on air quality in comparison to reductions that have been realized by previous rulemaking. Two separate studies prepared by the Environ International Corporation for the American Petroleum Institute (API) present findings which show significant improvements in both summertime ambient ground-level ozone and ground-level PM2.5 concentrations as a result of the switch from Tier 1 to Tier 2 standards. However, the studies project relatively small additional reductions in 2022 levels of these pollutants as a result of the proposed Tier 3, even when considering emissions reductions due to a lower gasoline sulfur content.28 As a result, API has argued that the Tier 3 proposal ignores the results of earlier sulfur standards that had led to "significant reduction in ambient ozone levels and will lead to further ozone reductions for the next decade," adding that Tier 3 rules would add no substantial benefit while imposing "significant costs on making gasoline." Further, API notes that any benefit-cost analysis of the rule would need to be considered along with EPA's other mandates for the refinery sector, including the prospects for strengthening fuel volatility requirements for gasoline, greenhouse gas rules for the sector, and forthcoming stricter ozone ambient air standards.29

As a point of comparison, EPA's Final Regulatory Impact Analysis for the Tier 3 standards returns estimates similar to the Environ studies for reductions in ozone and fine particulate levels in the near term (2018).30 Further, EPA estimates that by 2030—when it is projected that many of the vehicles on the road would be covered under the Tier 3 standards—ozone and fine particulate levels would decrease an additional 50% on average. EPA bases its health impact estimates on the 2030 modeling.

Costs of the Rule

The economic cost imposed by the Tier 3 standards will affect two sectors directly: vehicle manufacturing and petroleum refining. For the former, changes in vehicle design are expected to increase manufacturers' costs of production. EPA estimates that these costs differ across years and range from $46 to $65 for cars, $73 to $88 for trucks, and $33 to $75 for medium- and heavy-duty vehicles covered by the rule.31 This increase in price is expected to lower the quantity of vehicles sold, although given that vehicle prices likely would not change by more than the cost increase, the decrease in vehicle sales is projected to be negligible.

More controversial has been the potential impact on the cost of gasoline. 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;32 similar concerns have been expressed in the wake of the final rule.33 Refiners argue that it will be difficult and costly overall to meet the standards and that some independent and/or smaller refineries will find it more difficult than others to comply.34 The American Petroleum Institute contends that the tighter sulfur controls would impose almost $10 billion in refinery capital expenditures, create an annual compliance cost of $2.4 billion, increase gasoline manufacturing costs from 6 to 9 cents per gallon, and increase refinery GHG emissions by 1%.35

EPA has asserted that the rule as proposed would add less than a penny to the price of a gallon of gasoline (0.65 cents according to the final rule's Regulatory Impact Analysis).36 EPA contends that many variables determine the retail price of gasoline, including the price of crude oil on the global market, taxes, transportation costs, and distribution and marketing costs, as well as refinery costs. According to analysis by the U.S. Energy Information Administration, refinery costs averaged 10.6% of the retail cost of gasoline in 2013;37 and thus, the gasoline sulfur control for Tier 3 would add just 0.2 percentage points to this refining component. EPA's evaluation of gasoline sulfur control costs is corroborated by several studies, including one prepared for the International Council for Clean Transportation and another for the Emissions Control Technology Association.38 (See text box for further discussion of the cost estimates).

In sum, EPA estimates the annual compliance cost of the overall program in 2030 would be approximately $1.5 billion ($760 million for the vehicle program and $700 million for the fuel program), and the 2030 benefits would be between $6.7 billion and $19 billion, or 4.5 to 13 times greater than the costs of the program. To address industry concerns, the final rule would allow a three-year delay in compliance for small refiners. It also includes averaging, banking, and trading programs that would give the refining industry flexibility in meeting the standards.

Comparisons of Fuel Cost Estimates for the Tier 3 Program

The Tier 3 fuel program is expected to result in many refiners investing in additional sulfur control hardware and/or changing their operations to reduce gasoline sulfur levels. The costs that would be incurred by the refiners—and, by extension, the costs incurred by the average consumer of gasoline—have been under intense debate since even before the Tier 3 standards were proposed. EPA and several third parties have produced cost estimates for the fuel program. A short summary of the estimates and the methodology used to produce them is presented below.

EPA. Estimate: "0.65 cents per gallon, averaged over all gasoline." Methodology: EPA used a refinery-by-refinery cost model, projecting the sulfur control technology expected to be used by each existing refinery and its cost. EPA aggregated the individual refinery costs to develop a national average and assumed that refiners would take full advantage of the industry- and nation-wide averaging, banking, and trading (ABT) provisions. (The ABT provisions allow refiners who reduce their gasoline sulfur levels below the 10 ppm target to earn credits and trade them to other refiners who find abatement more expensive.) Further, EPA focused on the circumstances that refineries would face in the longer term, specifically after 2020. This approach meant that the ABT program modeling did not consider the impact on gasoline sulfur levels of delayed compliance for small refiners and small volume refineries, nor did it consider the generation and use of any early sulfur credits. EPA estimated capital expenditures of $2.025 billion, amortized at a 7% return on investment before taxes and expressed in 2011 dollars.

MathPro Inc. "Refining Economics of a National Low Sulfur, Low RVP Gasoline Standard," Prepared for the International Council for Clean Transportation, October 25, 2011. Estimate: "0.8 cents per gallon." Methodology: ICCT used a regional refinery model (aggregating operations in PADDs 1-4). ICCT estimated the total capital investment, annual refining cost, and per-gallon refining cost of meeting the 10 ppm sulfur standard as $3.9 billion, $1.5 billion, and 1.4 cents per gallon, respectively, amortized at a 10% return on investment after taxes. Further, their analysis indicated that (1) reducing the average CapEx by 30% (through revamps and operational changes rather than installing new units [as EPA had considered in its CapEx estimate]), and (2) reducing the return on investment to 7% before tax, returned an estimate of 0.8 cents per gallon.

Baker and O'Brien. "Addendum to Potential Supply and Cost Impacts of Lower Sulfur, Lower RVP Gasoline," Prepared for the American Petroleum Institute, March 2012: Estimate: "a marginal cost of 6 cents to 9 cents per gallon in most markets." Methodology: API used a refinery-by-refinery cost model, but employed higher capital costs for targeted technologies (specifically the cost of the fluid catalytic cracking post-treaters) than the other studies and assumed that no refinery would shut down as a result of the standard. The API study reported "marginal costs"—not average costs—projecting that the refineries with the highest compliance costs would set the price of gasoline for the entire market. API employed a 20 ppm sulfur cap on individual refineries (the final rule allows an 80 ppm cap) which effectively precludes the utilization of the fuel program's ABT flexibilities. API estimated $10 billion in refinery capital expenditures and $2.4 billion in annual compliance costs, amortized at a 10% return on investment after taxes. (As a comparison, EPA estimated a value for the "average cost" of gasoline using API's CapEx data and production volumes and found it would be equivalent to 2.12 cents per gallon. Similarly, Navigant Economics (see footnote 38) estimated a value for the "average cost" of gasoline using API's data and found it would be equivalent to 1.9 cents per gallon.)

Appendix. Tier 3 Vehicle Emissions Standards

Table A-1. Tier 3 Fleet-Average Non-Methane Organic Gases and Nitrogen Oxides Standards by Model Year

NMOG+NOx emissions in milligrams per mile (mg/mi)

Standards

Tier 2

MY 2017

MY 2018

MY 2019

MY 2020

MY 2021

MY 2022

MY 2023

MY 2024

MY 2025

Federal Test Procedure

LDV, LDT1

160

86

79

72

65

58

51

44

37

30

LDT2, 3, 4, MDPV

160

101

92

83

74

65

56

47

38

30

HDV Class 2b

395

310

278

253

228

203

178

178

178

178

HDV Class 3

630

508

451

400

349

298

247

247

247

247

Supplemental Federal Test Procedure

All L and M

200

103

97

90

83

77

70

63

57

50

Source: Prepared by the CRS based on data from the U.S. Environmental Protection Agency.

Notes: Tier 2 standards apply for a 120,000 mile full useful life for Bin 5 vehicles. Tier 3 standards apply for a 150,000 mile useful life for the fleet-average vehicles. Tier 3 standards apply to both test procedures: FTP, Federal Test Procedure (simulating typical driving), and SFTP, Supplemental Federal Test Procedure (a composite test simulating higher temperatures, higher speeds, and quicker accelerations). For vehicle classes as defined by 40 CFR 86.1803-01: LDV, Light-Duty Vehicle, a passenger car or passenger car derivative capable of seating 12 passengers or less; LDT1, Light-Duty Truck 1, any light light-duty truck up through 3,750 lbs loaded vehicle weight; LDT2, Light-Duty Truck 2, any light light-duty truck greater than 3,750 lbs loaded vehicle weight; LDT3, Light-Duty Truck 3, any heavy light-duty truck up through 5,750 lbs loaded vehicle weight; LDT4, Light-Duty Truck 4, any heavy light-duty truck greater than 5,750 lbs loaded vehicle weight; MDPV, Medium Duty Passenger Vehicle (8,501-10,000 lbs) designed to carry passengers as opposed to cargo; and HDV, Heavy Duty Vehicles, Class 2b (8,501-10,000 lbs) and Class 3 (10,001-14,000 lbs). For the light-duty fleet over 6000 lbs gross vehicle weight, and MDPVs, the Tier 3 standards apply beginning in MY 2018. For the heavy-duty fleet, voluntary standards are made available in 2016 and 2017, matching those of California's LEV III program. HDV Tier 3 standards for SFTP are consistent with those adopted by the California LEV III program. HDV Tier 3 standards also have requirements for carbon monoxide and formaldehyde.

Table A-2. Tier 3 Particulate Matter Standards by Model Year

PM emissions as measured by the Federal Test Procedure in milligrams per mile (mg/mi)

Standards

Tier 2

MY2017

MY2018

MY2019

MY2020

MY2021

MY2022

LDV, LDT, MDPV

10

3

3

3

3

3

3

HDV, Class 2b

20

8

8

8

8

8

8

HDV, Class 3

20

10

10

10

10

10

10

Phase-in (percent of U.S. sales)

-

20

20

40

70

100

100

Source: Prepared by the CRS based on data from the U.S. Environmental Protection Agency.

Notes: Tier 2 standards apply for a 120,000 mile full useful life for Bin 5 vehicles. Tier 3 standards apply for a 150,000 mile useful life. For vehicles above 6000 lbs gross vehicle weight, the FTP PM standards will apply beginning in MY 2018 (see note in Table A-1). EPA is also setting PM standards for emissions measured over the SFTP with standards levels and duty cycles varying by vehicle class and power-to-weight ratio.

Table A-3. Tier 3 Evaporative Emission and Other Vehicle Standards

Standards

Requirements

Evaporative Emissions Standards (i.e., evaporative emissions from the entire fuel system)

The standard over 2-day and 3-day evaporative emission tests vary by vehicle categories and range from 0.300 to 0.500 grams (g)/test for light-duty vehicles and medium duty passenger vehicles, with 0.600 g/test for on-road gasoline-powered heavy-duty vehicles.

Bleed Test Requirements (i.e., evaporative emissions from just the fuel tank and the evaporative emission canister)

The standard for light-duty and medium-duty passenger vehicles is 0.020 g/test without averaging. The standard for on-road gasoline-powered heavy-duty vehicles is 0.030 g/test without averaging.

Leak Test and Emission Standard

The standard requires that the cumulative equivalent diameter of any orifices or "leaks" not exceed 0.02 inches anywhere in the fuel/evaporative system for light-duty vehicles, medium-duty passenger vehicles, and some gasoline-powered heavy-duty vehicles.

Onboard Diagnostic System (OBD) Requirements

The standard adopts and incorporates by reference the California Air Resources Board's current OBD regulations, effective for MY 2017, with only minor differences. These requirements cover all vehicles except those in the heavier fraction of the heavy-duty vehicle class.

Source: Prepared by the CRS based on data from the U.S. Environmental Protection Agency.

Footnotes

1.

Clean Air Act, 42 U.S.C. 7401 et seq. For a review of the Act, see CRS Report RL30853, Clean Air Act: A Summary of the Act and Its Major Requirements, by [author name scrubbed] and [author name scrubbed].

2.

Congress first required vehicle emissions to be regulated when it amended the CAA under the Motor Vehicle Air Pollution Control Act of 1965 (P.L. 89-272). Other major amendments to the CAA took place in 1970, 1977, and 1990. The CAA Amendments of 1990 authorize the U.S. Environmental Protection Agency to establish emissions standards for motor vehicles to address air pollution that may reasonably be anticipated to endanger public health or welfare (Section 202). EPA also has authority to establish fuel controls to address such air pollution (Section 211). These requirements were referred to as the "Tier 1" standards at the time.

3.

CAA, Sections 108 and 109.

4.

For current National Ambient Air Quality Standards, see U.S. EPA, http://www.epa.gov/air/criteria.html.

5.

Vehicles do not directly emit ozone (commonly referred to as smog). Rather, nitrogen oxides and volatile organic compounds produce ground-level ozone when they chemically react in the presence of sunlight. Vehicles emit volatile organic compounds primarily in the form of non-methane organic gases.

6.

U.S. Environmental Protection Agency, National Emissions Inventory (NEI), http://www.epa.gov/ttnchie1/trends/.

7.

The Tier 2 revisions are found in U.S. Environmental Protection Agency, "Control of Air Pollution from New Motor Vehicles: Tier 2 Motor Vehicle Emissions Standards and Gasoline Sulfur Control Requirements," 65 Federal Register 6698-6870, February 10, 2000.

8.

The Energy Policy and Conservation Act of 1975 (EPCA), P.L. 94-163.

9.

U.S. Environmental Protection Agency and National Highway Traffic Safety Administration, "Light-Duty Vehicle Greenhouse Gas Emission Standards and Corporate Average Fuel Economy Standards; Final Rule," 75 Federal Register 25324-25728, May 7, 2010.

10.

For further discussion, 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].

11.

The White House, Office of the Press Secretary, "Presidential Memorandum Regarding Fuel Efficiency Standards," May 21, 2010, see Section 3(a), http://www.whitehouse.gov/the-press-office/presidential-memorandum-regarding-fuel-efficiency-standards.

12.

U.S. Environmental Protection Agency, "Control of Air Pollution From Motor Vehicles: Tier 3 Motor Vehicle Emission and Fuel Standards; Final Rule," 79 Federal Register 23413-23886, April 28, 2014, https://federalregister.gov/a/2014-06954.

13.

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

14.

A 15 ppm sulfur specification, known as Ultra Low Sulfur Diesel (ULSD), was phased in for highway diesel fuel from 2006-2010. Diesel engines equipped with advanced emission control devices (generally, 2007 and later model year engines) are to use highway ULSD fuel. The diesel program regulations are located in 40 CFR Part 80 subpart I.

15.

The requirements for federal emissions test fuels were revised between the proposed and final rule due to public comment. EPA had proposed moving to a test fuel containing 15% ethanol by volume.

16.

EPA, "Final Rule," Section VIII.

17.

For example, see Alliance of Automobile Manufacturers and Association of Global Automakers, "Comments on the Proposed Rulemaking to Control of Air Pollution from Motor Vehicles: Tier 3 Motor Vehicle Emission and Fuel Standards," July 1, 2013, http://www.globalautomakers.org/sites/default/files/document/attachments/Alliance%20and%20Global%20Comments%20on%20Tier%203%20NPRM.pdf; and the Manufacturers of Emissions Controls Technology, "MECA Applauds EPA Adoption of Tier 3 Rulemaking for Light-Duty Vehicles," March 3, 2014, http://www.meca.org/attachments/2354/MECA_press_release_-_EPA_Tier_3_final_rule_030314.pdf.

18.

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.

19.

European Council, "Directive 2009/30/EC of the European Parliament and of the Council of 23 April 2009 amending Directive 98/70/EC as regards the specification of petrol, diesel and gas-oil," http://eur-lex.europa.eu/legal-content/EN/ALL/?uri=CELEX:32009L0030. Japan, Ministry of Economy, Trade and Industry, "Law on the Quality Control of Gasoline and Other Fuels (Fuel Quality Control Law)," http://law.e-gov.go.jp/htmldata/S51/S51HO088.html. Republic of Korea, Ministry of the Environment, "The Clean Air Conservation Act Enforcement Rules." http://www.me.go.kr/home/web/main.do.

20.

China has proposed a gasoline sulfur content of 10 ppm to be implemented in 2017. See "China V, GB 19147-2013" for diesel standards and "China V GB 17930-2013" for gasoline standards, as reported by the International Council for Clean Transportation, http://transportpolicy.net/index.php?title=China:_Fuels:_Diesel_and_Gasoline.

21.

The Tier 3 standards are closely coordinated with California's Low Emission Vehicle (LEV) III program (http://www.arb.ca.gov/regact/2012/leviiighg2012/leviiighg2012.htm) to create a vehicle emissions program that will allow automakers to sell the same vehicles in all 50 states. In December 2012 EPA approved a waiver of Clean Air Act preemption for the California Air Resources Board's (CARB's) LEV III program with compliance beginning in 2015.

22.

California Air Resources Board, "California Reformulated Gasoline Regulations," Section 2262, http://www.arb.ca.gov/fuels/gasoline/100912CaRFG_regs.pdf.

23.

Twelve states have adopted California's LEV III program under Section 177 of the Clean Air Act (Connecticut, Delaware, Maryland, Maine, Massachusetts, New Jersey, New York, Oregon, Pennsylvania, Rhode Island, Washington, and Vermont).

24.

See letter to EPA Administrator Gina McCarthy from Rep. Jan Schakowsky, et al., January 31, 2014, at http://schakowsky.house.gov/uploads/Tier3Letter.pdf and Sen. Kirsten Gillibrand, et al., "Implementing Tier 3 Standards Would Generate More Than 24,000 Jobs Over Three Years While Protecting the Public from Hazardous Pollutants," November 29, 2012, http://www.gillibrand.senate.gov/newsroom/press/release/gillibrand-calls-for-new-tier-of-emission-reduction-standards.

25.

For example, see National Association of Clean Air Agencies, http://www.4cleanair.org/Documents/NACAATier3VehandFuelReportFINALOct2011.pdf; as well as a 21-member advocacy group coalition that includes coalition includes Corning Inc., Donaldson Co., Tenneco Inc., NGK Automotive Ceramics USA Inc., Hug Filtersystems AG, United Auto Workers, Clean Air Watch, the Environmental Defense Fund, the Sierra Club, and the Union of Concerned Scientists, http://www.eenews.net/assets/2013/01/10/document_gw_02.pdf.

26.

For example, see American Lung Association, "A Penny for Prevention: The Case for Cleaner Gasoline and Vehicle Standards," April 4, 2013, http://www.lung.org/healthy-air/outdoor/resources/clean-gasoline-and-vehicles/.

27.

For example, see Attorneys General of New York, Connecticut, Delaware, Maryland, Massachusetts, Maine, New Hampshire, North Carolina, Oregon, Rhode Island, Vermont, Washington and the District of Columbia and Corporation Counsels of the Cities of New York & Chicago, "Comments on Proposed Tier 3 Motor Vehicle Emissions Standards," July 1, 2013, http://www.ag.ny.gov/press-release/ag-schneiderman-and-city-and-state-coalition-urge-adoption-national-air-pollution.

28.

Environ International Corporation estimates that if the current Tier 2 standards were to remain in place until 2022, they would have been responsible for lowering the monthly average ambient ozone concentrations by as much as 12 parts per billion. By enacting the Tier 3 rule, ozone concentrations would fall by only an additional 0.5 part per billion by 2022, according to this analysis. Similarly, Tier 2 would have been responsible for lowering summertime monthly average 24-hour PM2.5 concentrations by up to 2.7 µg/m3; whereas enacting the Tier 3 rule would return only a 0.1 µg/m3 reduction. Environ International Corporation, "Effects of Light-Duty Vehicle Emissions Standards and Gasoline Sulfur Level on Ambient Ozone," Prepared for the American Petroleum Institute, September 2012, http://www.api.org/~/media/Files/News/2013/13-April/ENVIRON-Sep2012-Effects-of-LDV-Emiss-Stds-Gasoline-Sulfur-level-on-Ozone.pdf; and Environ International Corporation, "Effects of Light-Duty Vehicle Emissions Standards and Gasoline Sulfur Level on Ambient Fine Particulate Matter," Prepared for the American Petroleum Institute, June 2013, http://www.api.org/news-and-media/news/newsitems/2013/june-2013/~/media/Files/Policy/Alternatives/Environ-API-report-vehicle-emissions.pdf.

29.

American Petroleum Institute, "Study: Tier 3 sulfur rule would do little to improve air quality," June 20, 2013, http://www.api.org/news-and-media/news/newsitems/2013/june-2013/study-tier-3-sulfur-rule-would-do-little-to-improve-air-quality.

30.

EPA estimates decreases in ozone design levels of between 0.5 and 1.0 ppb in 2018 and decreases in 24-hour PM2.5 design values in over 200 counties of between 0.05 and 0.15 μg/m3. EPA, "Final Rule," Section III: C.

31.

Calculations at EPA, "Final Rule," Section VII.A.

32.

For example, see Senator Heidi Heitkamp, et al., "Letter," March 19, 2013, http://www.heitkamp.senate.gov/record.cfm?id=341129, and Senator David Vitter, et al., "Letter," February 4, 2013, http://www.epw.senate.gov/public/index.cfm?FuseAction=Minority.PressReleases&ContentRecord_id=a70c480c-ce1b-5ee7-430b-ae4f2e5230d9.

33.

For example, see comments by Rep. Lamar Smith, Chairman of the House Science, Space, and Technology Committee, "EPA Fuel Standards Based on Secret Science," March 3, 2014, http://science.house.gov/press-release/smith-epa-fuel-standards-based-secret-science.

34.

For further detail on the market forces affecting the U.S. refinery industry, see CRS Report R41478, The U.S. Oil Refining Industry: Background in Changing Markets and Fuel Policies, by [author name scrubbed] et al.

35.

Baker and O'Brien, "Addendum to Potential Supply and Cost Impacts of Lower Sulfur, Lower RVP Gasoline," Prepared for the American Petroleum Institute, March 2012, http://www.api.org/Newsroom/upload/110715_LowerSulfur_LowerRVP_Final.pdf.

36.

See calculations at EPA, "Final Rule," Section VII.B.

37.

U.S. Energy Information Administration, "Gasoline Pump Components History," http://www.eia.gov/petroleum/gasdiesel/gaspump_hist.cfm.

38.

See MathPro Inc., "Refining Economics of a National Low Sulfur, Low RVP Gasoline Standard," Prepared for the International Council for Clean Transportation, October 25, 2011, http://www.theicct.org/sites/default/files/publications/ICCT04_Tier3_Report_Final_v4_All.pdf; and Navigant Economics, "Economic Analysis of the Implications of Implementing EPA's Tier 3 Rules," Prepared for the Emissions Control Technology Association, June 14, 2012, http://www.ectausa.com/061212-Economic-Analysis-of-the-Implications-of-Tier-3-Sulfur-Reduction-Final_embargoed.pdf.