[Federal Register Volume 83, Number 69 (Tuesday, April 10, 2018)]
[Proposed Rules]
[Pages 15336-15343]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2018-07231]
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ENVIRONMENTAL PROTECTION AGENCY
40 CFR Part 52
[EPA-R01-OAR-2014-0604; A-1-FRL-9976-36--Region 1]
Air Plan Approval; Vermont; Infrastructure Requirement for the
2010 Sulfur Dioxide National Ambient Air Quality Standard
AGENCY: Environmental Protection Agency (EPA).
ACTION: Proposed rule.
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SUMMARY: The Environmental Protection Agency (EPA) is proposing to
approve the remaining portion of a November 2, 2015 State
Implementation Plan (SIP) revision submitted by the State of Vermont.
This revision addresses the interstate transport requirements of the
Clean Air Act (CAA), referred to as the good neighbor provision, with
respect to the primary 2010 sulfur dioxide (SO2) national
ambient air quality standard (NAAQS). This action proposes to approve
Vermont's demonstration that the State is meeting its obligations
regarding the transport of SO2 emissions into other states.
This action is being taken under the Clean Air Act.
DATES: Written comments must be received on or before May 10, 2018.
ADDRESSES: Submit your comments, identified by Docket ID No. EPA-R01-
OAR-2014-0604 at www.regulations.gov, or via email to
[email protected]. For comments submitted at Regulations.gov, follow
the online instructions for submitting comments. Once submitted,
comments cannot be edited or removed from Regulations.gov. For either
manner of submission, the EPA may publish any comment received to its
public docket. Do not submit electronically any information you
consider to be Confidential Business Information (CBI) or other
information whose disclosure is restricted by statute. Multimedia
submissions (audio, video, etc.) must be accompanied by a written
comment. The written comment is considered the official comment and
should include discussion of all points you wish to make. The EPA will
generally not consider comments or comment contents located outside of
the primary submission (i.e., on the web, cloud, or other file sharing
system). For additional submission methods, please contact the person
identified in the FOR FURTHER INFORMATION CONTACT section. For the full
EPA public comment policy, information about CBI or multimedia
submissions, and general guidance on making effective comments, please
visit www.epa.gov/dockets/commenting-epa-dockets. Publicly available
docket materials are available at www.regulations.gov or at the U.S.
Environmental Protection Agency, EPA New England Regional Office,
Office of Ecosystem Protection, Air Quality Planning Unit, 5 Post
Office Square--Suite 100, Boston, MA. EPA requests that if at all
possible, you contact the contact listed in the FOR FURTHER INFORMATION
CONTACT section to schedule your inspection. The Regional Office's
official hours of business are Monday through Friday, 8:30 a.m. to 4:30
p.m., excluding legal holidays.
FOR FURTHER INFORMATION CONTACT: Donald Dahl, Air Permits, Toxics, and
Indoor Programs Unit, U.S. Environmental Protection Agency, EPA New
England Regional Office, 5 Post Office Square--Suite 100, (Mail code
OEP05-2), Boston, MA 02109--3912, tel. (617) 918-1657; or by email at
[email protected].
SUPPLEMENTARY INFORMATION: Throughout this document whenever ``we,''
``us,'' or ``our'' is used, we mean EPA. The following outline is
provided to aid in locating information in this preamble.
Table of Contents
I. Background
II. State Submittal
III. Summary of the Proposed Action
IV. Section 110(A)(2)(D)(i)(I)--Interstate Transport
A. General Requirements and Historical Approaches for Criteria
Pollutants
B. Approach for Addressing the Interstate Transport Requirements
of the 2010 Primary SO2 NAAQS in Vermont
V. Interstate Transport Demonstration for SO2 Emissions
A. Prong 1 Analysis--Significant Contribution to SO2
Nonattainment
1. Impact on the Central New Hampshire Nonattainment Area
2. SO2 Emissions Trends
3. SO2 Ambient Air Quality
4. Federally Enforceable Regulations Specific to SO2
and Permitting Requirements
5. Conclusion
B. Prong 2 Analysis--Interference With Maintenance of the NAAQS
VI. Proposed Action
VII. Statutory and Executive Order Reviews
I. Background
On June 22, 2010 (75 FR 35520), EPA promulgated a revised primary
NAAQS for SO2 at a level of 75 ppb, based on a 3-year
average of the annual 99th percentile of 1-hour daily maximum
concentrations. Pursuant to section 110(a)(1) of the CAA, states are
required to submit SIPs meeting the applicable requirements of section
110(a)(2) within three years after promulgation of a new
[[Page 15337]]
or revised NAAQS, or within such shorter period as EPA may
prescribe.\1\ These SIPs, which EPA has historically referred to as
``infrastructure SIPs,'' are to provide for the ``implementation,
maintenance, and enforcement'' of such NAAQS, and the requirements are
designed to ensure that the structural components of each state's air
quality management program are adequate to meet the state's
responsibilities under the CAA. A detailed history, interpretation, and
rationale of these SIPs and their requirements can be found in, among
other documents, EPA's May 13, 2014 proposed rule titled,
``Infrastructure SIP requirements for the 2008 Lead NAAQS,'' in the
section ``What is the scope of this rulemaking?'' (see 79 FR 27241 at
27242-27245). As noted above, section 110(a) of the CAA imposes an
obligation upon states to submit to EPA a SIP submission for a new or
revised NAAQS. The content of individual state submissions may vary
depending upon the facts and circumstances, and may also vary depending
upon what provisions the state's approved SIP already contains.
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\1\ This requirement applies to both primary and secondary
NAAQS, but EPA's approval in this document applies only to the 2010
primary NAAQS for SO2 because EPA did not establish in
2010 a new secondary NAAQS for SO2.
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On November 2, 2015, the Vermont Department of Environmental
Conservation (VT DEC) submitted proposed revisions to its SIP,
certifying that its SIP meets the requirements of section 110(a)(2) of
the CAA with respect to the 2008 ozone, 2010 NO2, and 2010
SO2 primary NAAQS. On June 27, 2017 (82 FR 29005), EPA
approved VT DEC's certification that its SIP was adequate to meet most
of the program elements required by section 110(a)(2) of the CAA with
respect to the 2008 ozone, 2010 NO2, and 2010 SO2
NAAQS. EPA conditionally approved the State's submission in relation to
subsections (C), (D), and (J) of CAA section 110(a)(2) in relation to
the prevention of significant deterioration permit program.
However, at that time, EPA did not take action on VT DEC's
certification that its SIP met the requirements of section
110(a)(2)(D)(i)(I) for the 2010 primary SO2 NAAQS. EPA is
now proposing to approve VT DEC's November 2, 2015 certification that
its SIP meets the requirements of CAA section 110(a)(2)(D)(i)(I), for
purposes of the 2010 SO2 NAAQS.
II. State Submittal
Vermont presented several facts in its SIP submission on the effect
of SO2 emissions from sources within Vermont on downwind and
neighboring states' SO2 nonattainment areas and those
states' ability to maintain the 2010 SO2 NAAQS. The SIP
submission notes statewide SO2 emissions from point sources
in 2011 were less than 500 tons total. Vermont also included two data
points regarding ambient monitoring data in its November 2015
submittal. First, the design value from an instate monitor in Rutland
for the period 2012-2014 was 13 ppb, which is only 17% of the 2010
SO2 standard. Vermont also stated the most recent design
value (2013) for the central New Hampshire nonattainment area was 23
ppb. Finally, Vermont states in its SIP submission that ``[n]o source
or sources within Vermont have been identified as contributing
significantly to nonattainment in any other state or are the subject of
an active finding under section 126 of the CAA with respect to
SO2 or any other air pollutant.''
III. Summary of the Proposed Action
This proposed approval of Vermont's November 2, 2015 SIP submission
addressing interstate transport of SO2 is intended to show
that the State is meeting its obligations regarding CAA section
110(a)(2)(D)(i)(I) relative to the primary 2010 SO2
NAAQS.\2\ Interstate transport requirements for all NAAQS pollutants
prohibit any source, or other type of emissions activity, in one state
from emitting any air pollutant in amounts that will contribute
significantly to nonattainment, or interfere with maintenance, of the
NAAQS in another state. As part of this analysis, and as explained in
detail below, EPA has taken several approaches to addressing interstate
transport in other actions based on the characteristics of the
pollutant, the interstate problem presented by emissions of that
pollutant, the sources that emit the pollutant, and the information
available to assess transport of that pollutant.
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\2\ This proposed approval of Vermont's SIP submission under CAA
section 110(a)(2)(D)(i)(I) is based on the information contained in
the administrative record for this action, and does not prejudge any
other future EPA action that may make other determinations regarding
Vermont's air quality status. Any such future actions, such as area
designations under any NAAQS, will be based on their own
administrative records and EPA's analyses of information that
becomes available at those times. Future available information may
include, and is not limited to, monitoring data and modeling
analyses conducted pursuant to EPA's Data Requirements Rule (80 FR
51052, August 21, 2015) and information submitted to EPA by states,
air agencies, and third-party stakeholders such as citizen groups
and industry representatives.
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Despite being emitted from a similar universe of point and nonpoint
sources, interstate transport of SO2 is unlike the transport
of fine particulate matter (PM2.5) or ozone that EPA has
addressed in other actions, in that SO2 is not a regional
mixing pollutant that commonly contributes to widespread nonattainment
of the SO2 NAAQS over a large, multi-state area. While in
certain respects transport of SO2 is more analogous to the
transport of lead (Pb) because SO2's and Pb's physical
properties result in localized impacts very near the emissions source,
in another respect the physical properties and release height of
SO2 are such that impacts of SO2 do not
experience the same sharp decrease in ambient concentrations as rapidly
and as nearby as they do for Pb. While emissions of SO2
travel farther and have sufficiently wider-ranging impacts than
emissions of Pb such that it is reasonable to require a different
approach for assessing SO2 transport than assessing Pb
transport, the differences are not significant enough to treat
SO2 in a manner similar to the way in which EPA treats and
analyzes regional transport pollutants such as ozone or
PM2.5.
Put simply, a different approach is needed for interstate transport
of SO2 than the approach used for the other pollutants
identified above: The approaches EPA has adopted for Pb transport are
too tightly circumscribed to the source, and the approaches for ozone
or PM2.5 transport are too regionally focused.
SO2 transport is therefore a unique case, and EPA's
evaluation of whether Vermont has met is transport obligations in
relation to SO2 was accomplished in several discrete steps.
First, EPA evaluated the universe of sources in Vermont likely to
be responsible for SO2 emissions that could contribute to
interstate transport. An assessment of the 2014 National Emissions
Inventory (NEI) for Vermont made it clear that the vast majority of
SO2 emissions in Vermont are from fuel combustion at point
and nonpoint sources,\3\ and therefore it would be reasonable to
evaluate the downwind impacts of emissions from these two fuel
combustion source categories, combined, in order to help determine
whether the State has met is transport obligations.
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\3\ See EPA's web page, www.epa.gov/air-emissions-inventories/national-emissions-inventory-nei, for a description of what types of
sources of air emissions are considered point and nonpoint sources.
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Second, EPA selected a spatial scale--essentially, the geographic
area and distance around the point sources in which we could reasonably
expect SO2 impacts to occur--that would be
[[Page 15338]]
appropriate for its analysis, ultimately settling on utilizing an
``urban scale'' with dimensions from 4 to 50 kilometers from point and
nonpoint sources, given the usefulness of that range in assessing
trends in both area-wide air quality and the effectiveness of large-
scale pollution control strategies. As such, EPA utilized an assessment
up to 50 kilometers from fuel-combustion sources in order to assess
trends in area-wide air quality that might have an impact on the
transport of SO2 from Vermont to downwind states.
Third, EPA assessed all available data at the time of this
rulemaking regarding SO2 emissions in Vermont and their
possible impacts in downwind states, including: (1) SO2
ambient air quality; (2) SO2 emissions and SO2
emissions trends; (3) SIP-approved SO2 regulations and
permitting requirements; and (4) other SIP-approved or federally-
promulgated regulations which may yield reductions of SO2 at
Vermont's fuel-combustion point and nonpoint sources.
Fourth, using the universe of information identified in steps 1-3
(i.e., emissions sources, spatial scale and available data, and
enforceable regulations), EPA then conducted an analysis under CAA
section 110(a)(2)(D)(i)(I) to evaluate whether or not fuel-combustion
sources in Vermont would significantly contribute to SO2
nonattainment in other states, and then whether emissions from those
sources would interfere with maintenance of the SO2 NAAQS in
other states.
Based on the analysis provided by the State in its November 2, 2015
SIP submission and EPA's assessment of the information discussed at
length below, EPA proposes to find that sources or other emissions
activity within Vermont will not contribute significantly to
nonattainment, nor will they interfere with maintenance of the 2010
primary SO2 NAAQS in any other state.
IV. Section 110(a)(2)(D)(i)(I)--Interstate Transport
A. General Requirements and Historical Approaches for Criteria
Pollutants
Section 110(a)(2)(D)(i)(I) requires SIPs to include provisions
prohibiting any source or other type of emissions activity in one state
from emitting any air pollutant in amounts that will contribute
significantly to nonattainment, or interfere with maintenance, of the
NAAQS in another state. The two clauses of this section are referred to
as prong 1 (significant contribution to nonattainment) and prong 2
(interference with maintenance of the NAAQS).
EPA's most recent infrastructure SIP guidance, the September 13,
2013 ``Guidance on Infrastructure State Implementation Plan (SIP)
Elements under Clean Air Act Sections 110(a)(1) and 110(a)(2),'' did
not explicitly include criteria for how the Agency would evaluate
infrastructure SIP submissions intended to address section
110(a)(2)(D)(i)(I).\4\ With respect to certain pollutants, such as
ozone and particulate matter, EPA has addressed interstate transport in
eastern states in the context of regional rulemaking actions that
quantify state emission reduction obligations.\5\ In other actions,
such as EPA action on western state SIPs addressing ozone and
particulate matter, EPA has considered a variety of factors on a case-
by-case basis to determine whether emissions from one state interfere
with the attainment and maintenance of the NAAQS in another state. In
such actions, EPA has considered available information such as current
air quality, emissions data and trends, meteorology, and topography.\6\
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\4\ At the time the September 13, 2013 guidance was issued, EPA
was litigating challenges raised with respect to its Cross State Air
Pollution Rule (``CSAPR''), 76 FR 48208 (August 8, 2011), designed
to address the CAA section 110(a)(2)(D)(i)(I) interstate transport
requirements with respect to the 1997 ozone and the 1997 and 2006
PM2.5 NAAQS. CSAPR was vacated and remanded by the D.C.
Circuit in 2012 pursuant to EME Homer City Generation, L.P. v. EPA,
696 F.3d 7. EPA subsequently sought review of the D.C. Circuit's
decision by the Supreme Court, which was granted in June 2013. As
EPA was in the process of litigating the interpretation of section
110(a)(2)(D)(i)(I) at the time the infrastructure SIP guidance was
issued, EPA did not issue guidance specific to that provision. The
Supreme Court subsequently vacated the D.C. Circuit's decision and
remanded the case to that court for further review. 134 S.Ct. 1584
(2014). On July 28, 2015, the D.C. Circuit issued a decision
upholding CSAPR, but remanding certain elements for reconsideration.
795 F.3d 118.
\5\ NOX SIP Call, 63 FR 57371 (October 27, 1998);
Clean Air Interstate Rule (CAIR), 70 FR 25172 (May 12, 2005); CSAPR,
76 FR 48208 (August 8, 2011).
\6\ See, e.g., Approval and Promulgation of Implementation
Plans; State of California; Interstate Transport of Pollution;
Significant Contribution to Nonattainment and Interference With
Maintenance Requirements, Proposed Rule, 76 FR 146516, 14616-14626
(March 17, 2011); Final Rule, 76 FR 34872 (June 15, 2011); Approval
and Promulgation of State Implementation Plans; State of Colorado;
Interstate Transport of Pollution for the 2006 24-Hour
PM2.5 NAAQS, Proposed Rule, 80 FR 27121, 27124-27125 (May
12, 2015); Final Rule, 80 FR 47862 (August 10, 2015).
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For other pollutants such as Pb, EPA has suggested the applicable
interstate transport requirements of section 110(a)(2)(D)(i)(I) can be
met through a state's assessment as to whether or not emissions from Pb
sources located in close proximity to its borders have emissions that
impact a neighboring state such that they contribute significantly to
nonattainment or interfere with maintenance in that state. For example,
EPA noted in an October 14, 2011 memorandum titled, ``Guidance on
Infrastructure SIP Elements Required Under Sections 110(a)(1) and
110(a)(2) for the 2008 Pb NAAQS,'' \7\ that the physical properties of
Pb prevent its emissions from experiencing the same travel or formation
phenomena as PM2.5 or ozone, and there is a sharp decrease
in Pb concentrations, at least in the coarse fraction, as the distance
from a Pb source increases. Accordingly, while it may be possible for a
source in a state to emit Pb in a location and in quantities that may
contribute significantly to nonattainment in, or interfere with
maintenance by, any other state, EPA anticipates that this would be a
rare situation, e.g., where large sources are in close proximity to
state boundaries.\8\ Our rationale and explanation for approving the
applicable interstate transport requirements under section
110(a)(2)(D)(i)(I) for the 2008 Pb NAAQS, consistent with EPA's
interpretation of the October 14, 2011 guidance document, can be found
in, among other instances, the proposed approval and a subsequent final
approval of interstate transport SIPs submitted by Illinois, Michigan,
Minnesota, and Wisconsin.\9\
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\7\ https://www3.epa.gov/ttn/naaqs/aqmguide/collection/cp2/20111014_page_lead_caa_110_infrastructure_guidance.pdf.
\8\ Id. at pp 7-8.
\9\ See 79 FR 27241 at 27249 (May 13, 2014) and 79 FR 41439
(July 16, 2014).
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B. Approach for Addressing the Interstate Transport Requirements of the
2010 Primary SO2 NAAQS in Vermont
This document describes EPA's evaluation of Vermont's conclusion
contained in the State's November 2, 2015 infrastructure SIP submission
that the State satisfies the requirements of CAA section
110(a)(2)(D)(i)(I) for the 2010 SO2 NAAQS.\10\
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\10\ EPA notes that the evaluation of other states' satisfaction
of section 110(a)(2)(D)(i)(I) for the 2010 SO2 NAAQS can
be informed by similar factors found in this proposed rulemaking,
but may not be identical to the approach taken in this or any future
rulemaking for Vermont, depending on available information and
state-specific circumstances.
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As previously noted, section 110(a)(2)(D)(i)(I) requires an
evaluation of any source or other type of emissions activity in one
state and how emissions from these sources or activities may impact air
quality in other states. As the analysis contained in Vermont's
submittal demonstrates, a state's obligation to demonstrate that it is
meeting section 110(a)(2)(D)(i)(I) cannot
[[Page 15339]]
be based solely on the fact that there are no data requirements rule
(DRR) sources within the state. Therefore, EPA believes that a
reasonable starting point for determining which sources and emissions
activities in Vermont are likely to impact downwind air quality with
respect to the SO2 NAAQS is by using information in the
NEI.\11\ The NEI is a comprehensive and detailed estimate of air
emissions of criteria pollutants, criteria precursors, and hazardous
air pollutants from air emissions sources, and is updated every three
years using information provided by the states. At the time of this
rulemaking, the most recently available dataset is the 2014 NEI, and
the state summary for Vermont is included in the table below.
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\11\ https://www.epa.gov/air-emissions-inventories/national-emissions-inventory.
Table 1--Summary of 2014 NEI SO2 Data for Vermont
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Emissions
Category (tons per
year)
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Fuel Combustion: Electric Utilities......................... 2
Fuel Combustion: Industrial................................. 442
Fuel Combustion: Other...................................... 891
Waste Disposal and Recycling................................ 61
Highway Vehicles............................................ 65
Off-Highway................................................. 30
Miscellaneous............................................... 10
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Total..................................................... 1,501
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The EPA observes that according to the 2014 NEI, the vast majority
of SO2 emissions in Vermont originate from fuel combustion
at point and nonpoint sources. Therefore, an assessment of Vermont's
satisfaction of all applicable requirements under section
110(a)(2)(D)(i)(I) of the CAA for the 2010 SO2 NAAQS may
reasonably be based upon evaluating the downwind impacts of emissions
from the combined fuel combustion categories (i.e., electric utilities,
industrial processes, and other sources \12\).
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\12\ The ``other'' category of fuel combustion in Vermont is
comprised almost entirely of residential heating through fuel oil
and wood combustion.
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The definitions contained in Appendix D to 40 CFR part 58 are
helpful indicators of the travel and formation phenomenon for
SO2 originating from stationary sources in its
stoichiometric gaseous form in the context of the 2010 primary
SO2 NAAQS. Notably, section 4.4 of Appendix D titled,
``Sulfur Dioxide (SO2) Design Criteria'' provides
definitions for SO2 Monitoring Spatial Scales for
microscale, middle scale, neighborhood, and urban scale monitors. The
microscale includes areas in close proximity to SO2 point
and area sources, and those areas extend approximately 100 meters from
a facility. The middle scale generally represents air quality levels in
areas 100 meters to 500 meters from a facility, and may include
locations of maximum expected short-term concentrations due to the
proximity of major SO2 point, area, and non-road sources.
The neighborhood scale characterizes air quality conditions between 0.5
kilometers and 4 kilometers from a facility, and emissions from
stationary and point sources may under certain plume conditions, result
in high SO2 concentrations at this scale. Lastly, the urban
scale is used to estimate concentrations over large portions of an
urban area with dimensions of 4 to 50 kilometers from a facility, and
such measurements would be useful for assessing trends and
concentrations in area-wide air quality, and hence, the effectiveness
of large-scale pollution control strategies. Based on these definitions
contained in EPA's own regulations, we believe that it is appropriate
to examine the impacts of emissions from electric utilities and
industrial processes in Vermont in distances ranging from 0 km to 50 km
from the facility. In other words, SO2 emissions from
stationary sources in the context of the 2010 primary NAAQS do not
exhibit the same long-distance travel, regional transport or formation
phenomena as either ozone or PM2.5, but rather, these
emissions behave more like Pb with localized dispersion. Therefore, an
assessment up to 50 kilometers from potential sources would be useful
for assessing trends and SO2 concentrations in area-wide air
quality.\13\
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\13\ EPA recognizes in Appendix A.1 titled, ``AERMOD (AMS/EPA
Regulatory Model)--'' of Appendix W to 40 CFR part 51 that the model
is appropriate for predicting SO2 up to 50 kilometers.
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The largest category of SO2 emissions in Table 1 is for
``other'' fuel combustion sources. The majority of emissions in this
category is from residential fuel combustion (758 tons per year), or
50% of the total statewide SO2 emissions for 2014.
Residential homes combusting fuel are considered nonpoint sources. For
any state where the SO2 contribution from nonpoint sources
make up a majority of all statewide SO2 emissions, EPA
believes it is reasonable to evaluate any regulations intended to
address fuel oil, specifically with respect to the sulfur content in
order to determine interstate transport impacts from the category of
``other'' sources of fuel combustion.
Our current implementation strategy for the 2010 primary
SO2 NAAQS includes the flexibility to characterize air
quality for stationary sources via either data collected at ambient air
quality monitors sited to capture the points of maximum concentration,
or air dispersion modeling.\14\ Our assessment of SO2
emissions from fuel combustion categories in the State and their
potential impacts on neighboring states are informed by all available
data at the time of this rulemaking, and include: SO2
ambient air quality; SO2 emissions and SO2
emissions trends; SIP-approved SO2 regulations and
permitting requirements; and, other SIP-approved or federally
promulgated regulations which may yield reductions of SO2.
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\14\ https://www.epa.gov/so2-pollution/2010-1-hour-sulfur-dioxide-so2-primary-national-ambient-air-quality-standards-naaqs.
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V. Interstate Transport Demonstration for SO2 Emissions
A. Prong 1 Analysis--Significant Contribution to SO2 Nonattainment
Prong 1 of the good neighbor provision requires state plans to
prohibit emissions that will significantly contribute to nonattainment
of a NAAQS in another state. In order to evaluate Vermont's
satisfaction of prong 1, EPA evaluated the State's SIP submission in
relation to the following five factors: (1) The impact on the Central
New Hampshire Nonattainment Area; (2) SO2 emission trends
for Vermont and neighboring states; (3) SO2 ambient air
quality data; (4) SIP-approved regulations specific to SO2
emissions and permit requirements; and (5) other SIP-approved or
federally-enforceable regulations that, while not directly intended to
address or reduce SO2 emissions, may yield reductions of the
pollutant. A detailed discussion of each of these factors is below.
1. Impact on the Central New Hampshire Nonattainment Area
The nearest nonattainment area to Vermont for the 2010
SO2 NAAQS is in New Hampshire. On August 5, 2013, EPA
designated the Central New Hampshire Nonattainment Area, an area
surrounding Merrimack Station, a coal-fired power plant, as
nonattainment for the 2010 SO2 NAAQS. See 78 FR 47191. On
September 28, 2017, EPA proposed approval of New Hampshire's attainment
plan for this nonattainment area. See 82 FR45242. The State's plan did
not rely on any reductions in SO2 emissions from sources in
Vermont to demonstrate the Central New Hampshire Nonattainment Area
will attain the 2010 SO2 NAAQS by the 2018
[[Page 15340]]
attainment date. Furthermore, no comments received on EPA's proposed
approval of the State's plan suggest SO2 emissions from
sources in Vermont should be considered in any attainment
demonstration.\15\
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\15\ See docket for Air Plan Approval; NH; Attainment Plan for
the Central New Hampshire 2010 1-Hour SO2 Nonattainment
Area at https://www.regulations.gov/docket?D=EPA-R01-OAR-2017-0083.
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2. SO2 Emissions Trends
As noted above, EPA's approach for addressing the interstate
transport of SO2 in Vermont is based upon emissions from
fuel combustion at electric utilities, industrial sources, and
residential heating. As part of the SIP submittal, Vermont observed
that, in accordance with the most recently available designations
guidance at the time,\16\ there were no facilities in Vermont with
reported actual emissions greater than or equal to 500 tons per year of
SO2 in 2014.
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\16\ March 24, 2011 guidance document titled, ``Area
Designations for the 2010 Revised Primary Sulfur Dioxide National
Ambient Air Quality Standards.'' See, e.g., http://dnr.wi.gov/topic/AirQuality/documents/SO2DesignationsGuidance2011.pdf.
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According to the 2014 NEI data, the highest SO2
emissions from a single point source was 158 tons from Agrimark in
Middlebury, Vermont and the next largest emitter of SO2 from
an industrial or electric generating facility in Vermont was Fibermark,
located in Brattleboro, which emitted 12 tons of SO2.
As demonstrated by the data in Table 2, statewide SO2
emissions in Vermont and in its three neighboring states, New
Hampshire, Massachusetts and New York, have significantly decreased
over time. This decreasing trend should continue into the near future
in Vermont, New York, and Massachusetts as these three states have
adopted strategies to lower the sulfur content (by weight) of fuel
oil.\17\ By July 1, 2018, the home heating oil in these three states
will be limited to 15 parts per million (ppm) of sulfur by weight.
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\17\ On May 22, 2012, EPA approved Vermont's low sulfur fuel
regulation. See 77 FR 30212. On September 19, 2013, EPA approved
Massachusetts' low sulfur fuel regulation. See 78 FR 57487. On
August 8, 2012, EPA approved New York's low sulfur fuel statute. See
77 FR 51915.
Table 2--Statewide SO2 Data (Tons per Year) for Vermont, New Hampshire, New York, and Massachusetts \18\
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% Change from
State 2000 2005 2010 2016 2000 to 2016
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Vermont......................... 9,438 7,038 3,659 1,455 -85
New Hampshire................... 68,768 63,634 35,716 5,462 -92
Massachusetts................... 208,146 139,937 57,892 13,518 -94
New York........................ 543,868 386,568 170,247 59,520 -89
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3. SO2 Ambient Air Quality
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\18\ See Air Pollution Emissions Trend Data at https://www.epa.gov/air-emissions-inventories/air-pollutant-emissions-trends-data.
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Data collected at an ambient air quality monitor located in
Rutland, Vermont indicates that the monitored values of SO2
in the State have remained below the NAAQS. Relevant data from Air
Quality Standards (AQS) Design Value (DV) \19\ reports for recent and
complete 3-year periods are summarized in Table 3.
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\19\ A ``Design Value'' is a statistic that describes the air
quality status of a given location relative to the level of the
NAAQS. The interpretation of the 2010 primary SO2 NAAQS
(set at 75 parts per billion [ppb]) including the data handling
conventions and calculations necessary for determining compliance
with the NAAQS can be found in Appendix T to 40 CFR part 50.
Table 3--Trend in SO2 Design Values for the AQS Monitor in Vermont
----------------------------------------------------------------------------------------------------------------
2012-2014 DV 2013-2015 DV 2014-2016 DV
AQS monitor site Monitor location (ppb) (ppb) (ppb)
----------------------------------------------------------------------------------------------------------------
50-021-0002.............................. Rutland.................... 13 9 6
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As shown in Table 3 above, the DVs at the Rutland monitor for all
periods between 2012 and 2016 have decreased. The most recent DV for
the Rutland monitor, covering the years 2014-2016, is 6 ppb, which is
92% below the NAAQS.\20\
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\20\ There is another ambient monitor in Underhill, Vermont that
only had a valid DV for 2014-2016. The DV was 2 ppb.
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However, the absence of a violating ambient air quality monitor
within the State is insufficient to demonstrate that Vermont has met
its interstate transport obligation. While the decreasing DVs may help
to assist in characterizing air quality within Vermont, prong 1 of
section 110(a)(2)(D)(i)(I) specifically addresses what effects sources
within Vermont may have on air quality in neighboring states.
Therefore, an evaluation and analysis of SO2 emissions data
from facilities within the State, together with the potential effects
of such emissions on ambient air quality in neighboring states, is
appropriate.
As previously discussed, EPA's definitions of spatial scales for
SO2 monitoring networks indicate that the maximum impacts
from stationary sources can be expected within 4 kilometers of such
sources, and that distances up to 50 kilometers would be useful for
assessing trends and concentrations in area-wide air quality. The only
neighboring states within 50 km of an SO2 source in Vermont
are Massachusetts, New Hampshire, and New York. As a result, no further
analysis of other Northeast states was conducted for assessing the
impacts of the interstate transport of SO2 pollution from
facilities located in Vermont.
There are four ambient SO2 monitors operating in
Massachusetts, New Hampshire, and New York within 50 km of Vermont's
border. These monitors are identified in Table 4, along with those
monitors' DVs for SO2 in the last three, three-year periods.
As shown in Table 4, SO2 DVs for these monitors are
decreasing, with the exception of Wilmington, NY which increased 1 ppb
between the 2013-2015 and 2014-2016
[[Page 15341]]
periods. The highest DV for the most recent DV period (between 2014-
2016) is 8% of the NAAQS.
Table 4--Trend in SO2 Design Values for AQS Monitors Within 50 km of Vermont
----------------------------------------------------------------------------------------------------------------
2012-2014 DV 2013-2015 DV 2014-2016 DV
AQS monitor site Monitor location (ppb) (ppb) (ppb)
----------------------------------------------------------------------------------------------------------------
25-015-4002........................... Quabbin Summit, MA...... 6 5 4
33-011-5001........................... Pack Monadock, NH....... 5 5 3
36-001-00012.......................... Loudonville Reservoir, 8 8 6
NY.
36-031-0003........................... Wilmington, NY.......... 3 3 4
----------------------------------------------------------------------------------------------------------------
4. Federally Enforceable Regulations Specific to SO2 and
Permitting Requirements
The State has various regulations to ensure that SO2
emissions are not expected to substantially increase in the future. One
notable example consists of the federally-enforceable conditions
contained in Vermont's Air Pollution Control Regulation (APCR),
Subchapter II, Section 5-221, ``Prohibition of Pollution Potential
Materials in Fuel.'' This regulation, last approved by EPA into the SIP
on May 22, 2012 (77 FR 30212) limits the amount of sulfur by weight in
fuel oil. As discussed earlier in this document, the 2014 NEI indicates
that the single largest, albeit diffuse, source category of
SO2 emissions in Vermont is from fuel combustion for
residential heating (891 tons). Starting on July 1, 2014 the sulfur
content for home heating oil in Vermont was lowered to 500 parts per
million (ppm), or 0.05% by weight. An additional reduction in the
amount of SO2 emissions from the use of home heating oil
will occur after July 1, 2018 when the sulfur content will be reduced
from 500 ppm to 15 ppm or 0.0015% by weight, representing a 97%
decrease in SO2 emissions from residential oil combustion.
In addition, for the purposes of ensuring that SO2
emissions at new or modified stationary sources in Vermont do not
adversely impact air quality, the State's SIP-approved nonattainment
new source review (NNSR) and prevention of significant deterioration
(PSD) programs are contained in APCR, Subchapter V ``Review of New Air
Contaminant Sources.'' This regulation ensures that SO2
emissions due to new facility construction or to modifications at
existing facilities will not adversely impact air quality in Vermont
and will likely not adversely impact air quality in neighboring states.
Finally, in addition to the State's SIP-approved regulations, EPA
observes that facilities in Vermont are also subject to the federal
requirements contained in regulations such as the National Emission
Standards for Hazardous Air Pollutants for Major Sources: Industrial,
Commercial, and Institutional Boilers and Process Heaters. This
regulation reduces acid gases, which have a co-benefit of reducing
SO2 emissions.
5. Conclusion
As discussed, EPA has considered the following information in
evaluating the State's satisfaction of the requirements of prong 1 of
CAA section 110(a)(2)(D)(i)(I):
(1) Past and projected SO2 emission trends demonstrate
that ambient SO2 air quality issues in neighboring states
are unlikely to occur due to SO2 emissions from sources in
Vermont; and
(2) Current SIP provisions and other federal programs will further
reduce SO2 emissions from sources within Vermont.
Based on the analysis provided by the State in its November 2, 2015
SIP submission and based on each of the factors listed above, EPA
proposes to find that any sources or other emissions activity within
the State will not contribute significantly to nonattainment of the
2010 primary SO2 NAAQS in any other state.
B. Prong 2 Analysis--Interference With Maintenance of the
SO2 NAAQS
Prong 2 of the good neighbor provision requires state plans to
prohibit emissions that will interfere with maintenance of a NAAQS in
another state. Given the continuing trend of decreased SO2
emissions from sources within Vermont, EPA believes that a reasonable
criterion to ensure that sources or other emissions activity
originating within Vermont do not interfere with its neighboring
states' ability to maintain the NAAQS consists of evaluating whether
these decreases in emissions can be maintained over time.
As shown in Table 2, above, state-wide SO2 emissions in
Vermont, and the three neighboring states of Massachusetts, New
Hampshire, and New York, have significantly decreased since 2000. Three
of these states (Massachusetts, New York, and Vermont) have EPA-
approved low sulfur fuel oil requirements in their SIPs, requiring the
sulfur content in home heating oil and other sources using distillate
oil to be lowered by an additional 97% no later than July 1, 2018.\21\
According to 2014 NEI data, home heating oil is the largest category of
SO2 emissions in three of the states, Vermont,
Massachusetts, and New Hampshire. In New York, home heating oil was not
the largest category of SO2 emissions in the 2014 NEI
because the sulfur content in home heating oil was reduced by the State
to 15 ppm on July 1, 2012.
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\21\ See 77 FR 30212 (May 22, 2012) for Vermont, 78 FR 57487
(September 19, 2013) for Massachusetts, and 77 FR 51915 (August 8,
2012), for New York.
---------------------------------------------------------------------------
Utilizing home heating oil usage data from the U. S. Energy
Information Administration and SIP-approved limits on the sulfur
content of home heating oil, future SO2 emissions from home
heating oil can be forecasted in Massachusetts and Vermont where the
reduction in sulfur content to 15 ppm will not take effect until July
1, 2018. According to EPA's guidance titled ``Compilation of Air
Pollutant Emission Factors (AP42)'' Chapter 1.3 titled, ``Fuel Oil
Combustion,'' \22\ more than 95% of the sulfur in fuel is converted to
SO2. Table 5 provides the estimated SO2 emissions
from Massachusetts and Vermont based on home heating oil usage in 2016
and using the average annual home heating oil usage over a five-year
period (2012-2016) \23\ to estimate the SO2 emissions in
2019, when the sulfur content limit of 15 ppm will be in place for the
entire calendar year heating season.
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\22\ See emission factors at https://www3.epa.gov/ttn/chief/ap42/ch01/final/c01s03.pdf.
\23\ See residential fuel oil usage at https://www.eia.gov/dnav/pet/pet_cons_821usea_a_epd0_var_mgal_a.htm.
[[Page 15342]]
Table 5--Estimated SO2 Emissions From Home Heating Oil
----------------------------------------------------------------------------------------------------------------
Estimate of Estimate of
Average home SO2 emissions SO2 emissions
heating oil (tons) from (tons) from
State usage 2012- households households
2016 (1,000 using oil using oil
gal) (2016) (2019)
----------------------------------------------------------------------------------------------------------------
Vermont......................................................... 70,701 254 8
Massachusetts................................................... 545,075 1,643 58
----------------------------------------------------------------------------------------------------------------
While EPA does not currently have a way to quantify the impacts of
multiple small, diffuse sources of SO2 on air quality in
neighboring states, the drastic decrease in the allowable sulfur
content in fuel oil in Vermont and the associated reductions in
SO2 emissions, combined with the diffuse nature of these
emissions, makes it unlikely that the current and future emissions from
residential combustion of fuel oil are likely to lead to interference
of maintenance of the NAAQS in a neighboring state. Specifically, by
2018, in both Massachusetts and Vermont, the yearly SO2
emissions from a household using 1,000 gallons of fuel oil will drop to
under 0.21 pounds per year.
As shown in Table 2, statewide SO2 emissions in Vermont
have decreased over time. Several factors have caused this decrease in
emissions, including the effective date of APCR Subchapter II, Section
5-221 and industrial boilers switching to lower sulfur emitting fuels
due to economics. According to emission trends data,\24\ SO2
emissions from industrial sources decreased in Vermont by almost 90%
from 2000 to 2016. The EPA believes that since actual SO2
emissions from the facilities currently operating in Vermont have
decreased between 2000 and 2016, this trend shows that emissions
originating in Vermont are not expected to interfere with the
neighboring states' ability to maintain the 2010 SO2 NAAQS.
---------------------------------------------------------------------------
\24\ See Air Pollution Emissions Trend Data at https://www.epa.gov/air-emissions-inventories/air-pollutant-emissions-trends-data.
---------------------------------------------------------------------------
As discussed above, EPA expects SO2 from point sources
combusting fuel oil in Vermont will be lower in the future due to the
lowering of the sulfur content in fuels as required by APCR Subchapter
II, Section 5-221.
Lastly, any future large sources of SO2 emissions will
be addressed by Vermont's SIP-approved Prevention of Significant
Deterioration (PSD) program. Future minor sources of SO2
emissions will be addressed by the State's minor new source review
permit program. The permitting regulations contained within these
programs, along with the other factors already discussed, are expected
to help ensure that ambient concentrations of SO2 in
Massachusetts, New Hampshire or New York are not exceeded as a result
of new facility construction or modification occurring in Vermont.
It is also worth noting the air quality trends for ambient
SO2 in the Northeastern United States.\25\ This region has
experienced a 77% decrease in the annual 99th percentile of daily
maximum 1-hour averages between 2000 and 2015 based on 46 monitoring
sites, and the most recently available data for 2015 indicates that the
mean value at these sites was 17.4 ppb, a value less than 25% of the
NAAQS. When this trend is evaluated alongside the monitored
SO2 concentrations within the State of Vermont as well as
the SO2 concentrations recorded at monitors in
Massachusetts, New York, and New Hampshire within 50 km of Vermont's
border, EPA does not believe that sources or emissions activity from
within Vermont are significantly different than the overall decreasing
monitored SO2 concentration trend in the Northeast region.
As a result, EPA finds it unlikely that sources or emissions activity
from within Vermont will interfere with other states' ability to
maintain the 2010 primary SO2 NAAQS.
---------------------------------------------------------------------------
\25\ See https://www.epa.gov/air-trends/sulfur-dioxide-trends.
---------------------------------------------------------------------------
Based on each of factors contained in the prong 2 maintenance
analysis above, EPA proposes to find that sources or other emissions
activity within the State will not interfere with maintenance of the
2010 primary SO2 NAAQS in any other state.
VI. Proposed Action
Considering the above analysis, EPA is proposing to approve
Vermont's November 2, 2015 infrastructure submittal for the 2010
primary SO2 NAAQS as it pertains to Section
110(a)(2)(D)(i)(I) of the CAA. EPA is soliciting public comments on the
issues discussed in this document. These comments will be considered
before taking final action. Interested parties may participate in the
Federal rulemaking procedure by submitting comments to this proposed
rule by following the instructions listed in the ADDRESSES section of
this Federal Register.
VII. Statutory and Executive Order Reviews
Under the Clean Air Act, the Administrator is required to approve a
SIP submission that complies with the provisions of the Act and
applicable Federal regulations. 42 U.S.C. 7410(k); 40 CFR 52.02(a).
Thus, in reviewing SIP submissions, EPA's role is to approve state
choices, provided that they meet the criteria of the Clean Air Act.
Accordingly, this proposed action merely approves state law as meeting
Federal requirements and does not impose additional requirements beyond
those imposed by state law. For that reason, this proposed action:
Is not a significant regulatory action subject to review
by the Office of Management and Budget under Executive Orders12866 (58
FR 51735, October 4, 1993) and 13563 (76 FR 3821, January 21, 2011);
Does not impose an information collection burden under the
provisions of the Paperwork Reduction Act (44 U.S.C. 3501 et seq.);
Is certified as not having a significant economic impact
on a substantial number of small entities under the Regulatory
Flexibility Act (5 U.S.C. 601 et seq.);
Does not contain any unfunded mandate or significantly or
uniquely affect small governments, as described in the Unfunded
Mandates Reform Act of 1995 (Pub. L. 104-4);
Does not have Federalism implications as specified in
Executive Order 13132 (64 FR 43255, August 10, 1999);
is not an economically significant regulatory action based
on health or safety risks subject to Executive Order 13045 (62 FR
19885, April 23, 1997);
Is not a significant regulatory action subject to
Executive Order 13211 (66 FR 28355, May 22, 2001);
Is not subject to requirements of Section 12(d) of the
National Technology Transfer and Advancement Act of 1995 (15 U.S.C. 272
note) because
[[Page 15343]]
application of those requirements would be inconsistent with the Clean
Air Act; and
Does not provide EPA with the discretionary authority to
address, as appropriate, disproportionate human health or environmental
effects, using practicable and legally permissible methods, under
Executive Order 12898 (59 FR 7629, February 16, 1994).
In addition, the SIP is not approved to apply on any Indian
reservation land or in any other area where EPA or an Indian tribe has
demonstrated that a tribe has jurisdiction. In those areas of Indian
country, the rule does not have tribal implications and will not impose
substantial direct costs on tribal governments or preempt tribal law as
specified by Executive Order 13175 (65 FR 67249, November 9, 2000).
List of Subjects in 40 CFR Part 52
Environmental protection, Air pollution control, Incorporation by
reference, Intergovernmental relations, Reporting and recordkeeping
requirements, Sulfur oxides.
Dated: April 2, 2018.
Alexandra Dunn,
Regional Administrator, EPA Region 1.
[FR Doc. 2018-07231 Filed 4-9-18; 8:45 am]
BILLING CODE 6560-50-P