[Federal Register Volume 76, Number 229 (Tuesday, November 29, 2011)]
[Notices]
[Pages 73721-73727]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2011-30733]
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NUCLEAR REGULATORY COMMISSION
[Docket No. 50-410; NRC-2010-0117]
Nine Mile Point Nuclear Station, LLC, Nine Mile Point Nuclear
Station, Unit No. 2, Environmental Assessment and Finding of No
Significant Impact Related to the Proposed License Amendment To
Increase the Maximum Reactor Power Level
The U.S. Nuclear Regulatory Commission (NRC) is considering
issuance of an amendment for Renewed Facility Operating License No.
NPF-069, issued to Nine Mile Point Nuclear Station, LLC (NMPNS, the
licensee) for operation of the Nine Mile Point, Unit No. 2 (NMP2),
located in Oswego, NY, in accordance with Title 10 of the Code of
Federal Regulations (10 CFR) Section 50.90. Therefore, as required by
10 CFR 51.21, the NRC performed an environmental assessment (EA). Based
on the results of the environmental assessment, the NRC is issuing a
finding of no significant impact.
The NRC published a draft EA and finding of no significant impact
on the proposed action for public comment in the Federal Register on
March 22, 2010 (75 FR 13600). No comments were received on the draft
EA. The NRC staff did not identify any significant impact from the
information provided in the licensee's Extended Power Uprate (EPU)
application for NMP2 or during the NRC staff's review of other
available information; therefore, the NRC staff is documenting its
environmental review in this final EA.
Environmental Assessment
Plant Site and Environs
The NMPNS site is in the town of Scriba, in the northwest corner of
Oswego County, New York, on the south shore of Lake Ontario. The site
is comprised of approximately 900 acres that includes two nuclear
reactors and ancillary facilities. NMP2 uses a boiling-water reactor
and a nuclear steam supply system designed by General Electric.
Identification of the Proposed Action
By application dated May 27, 2009, the licensee requested an
amendment for an EPU for NMP2 to increase the licensed thermal power
level from 3,467 MWt to 3,988 MWt, which represents an increase of
approximately 15% above the current licensed thermal power and
approximately 20% over the original licensed thermal power level. This
change in core thermal level requires the NRC to amend the facility's
operating license. The operational goal of the proposed EPU is a
corresponding increase in electrical output from 1,211 MWe to 1,369
MWe. The proposed action is considered an EPU by NRC because it exceeds
the typical 7% power increase that can be accommodated with only minor
plant changes. EPUs typically involve extensive modifications to the
nuclear steam supply system.
The licensee has implemented several physical changes and upgrades
to plant components needed to implement the proposed EPU during the
2010 refueling outage; and it plans to complete all remaining physical
modifications during the upcoming refueling outage currently scheduled
for spring 2012. The actual power uprate, if approved by the NRC, would
occur in a single increase following the 2012 refueling outage.
The Need for the Proposed Action
The proposed action would provide NMPNS with the flexibility to
increase the potential electrical output of NMP2 and to supply low
cost, reliable, and efficient electrical generation to New York State
and the region. The additional 158 MWe would be enough to power
approximately 174,000 homes. The proposed EPU at NMP2 would contribute
to meeting the goals and recommendations of the New York State Energy
Plan for maintaining the reserve margin and reducing greenhouse gas
emissions with low cost, efficient, and reliable electrical generation.
The proposed action provides the licensee with the flexibility to
increase the potential electrical output of NMP2 to New York State and
the region from its existing power station without building a new
electric power generation station or importing energy from outside the
region.
Environmental Impacts of the Proposed Action
As part of the licensing process for NMP2, the NRC published a
Final Environmental Statement (FES) in May 1985. The NRC staff noted
that the impact of any activity authorized by the license would be
encompassed by the overall action evaluated in the FES for the
operation of NMP2. In addition, the NRC evaluated the environmental
impacts of operating NMP2 for an additional 20 years beyond its current
operating license, and determined that the environmental impacts of
license renewal were small. The NRC staff's evaluation is contained in
NUREG-1437, ``Generic Environmental Impact Statement for License
Renewal of Nuclear Plant, Supplement 24,
[[Page 73722]]
Regarding Nine Mile Point Nuclear Station, Units 1 and 2'' (SEIS-24)
issued in May 2006 (Agencywide Documents Access and Management System
(ADAMS) Accession No. ML061290310). The NRC staff used information from
the licensee's license amendment request, the FES, and the SEIS-24 to
perform its EA for the proposed EPU.
The NMP2 EPU is expected to be implemented without making extensive
changes to buildings or plant systems that directly or indirectly
interface with the environment. All necessary modifications would be
performed in existing buildings at NMP2. With the exception of the
high-pressure turbine rotor replacement, the required modifications are
generally small in scope. Other modifications include providing
additional cooling for some plant systems, modifications to feedwater
pumps, modifications to accommodate greater steam and condensate flow
rates, and instrumentation upgrades that include minor items such as
replacing parts, changing setpoints and modifying software.
The sections below describe the non-radiological and radiological
impacts in the environment that may result from the proposed EPU.
Non-Radiological Impacts
Land Use and Aesthetic Impacts
Potential land use and aesthetic impacts from the proposed EPU
include impacts from plant modifications at NMP2. While some plant
components would be modified, most plant changes related to the
proposed EPU would occur within existing structures, buildings, and
fenced equipment yards housing major components within the developed
part of the site. No new construction would occur outside of existing
facilities and no expansion of buildings, roads, parking lots,
equipment lay-down areas, or transmission facilities would be required
to support the proposed EPU.
Existing parking lots, road access, equipment lay-down areas,
offices, workshops, warehouses, and restrooms would be used during
plant modifications. Therefore, land use conditions would not change at
NMP2. Also, there would be no land use changes along transmission lines
(no new lines would be required for the proposed EPU), transmission
corridors, switch yards, or substations.
Since land use conditions would not change at NMP2, and because any
land disturbance would occur within previously disturbed areas, there
would be little or no impact to aesthetic resources in the vicinity of
NMP2. Therefore, there would be no significant impact from EPU-related
plant modifications on land use and aesthetic resources in the vicinity
of NMP2.
Air Quality Impacts
Air quality within the Nine Mile Point area is generally considered
good, with exceptions occurring for designated ozone nonattainment
areas. NMPNS is located in Oswego County which is part of the Central
Air Quality Control Region covered by Region 7 of the New York State
Department of Environmental Conservation. With the exception of ozone,
this region is designated as being in attainment or unclassifiable for
all criteria pollutants in the Environmental Protection Agency's
(EPA's) 40 CFR 81.333.
There are approximately 1,000 people employed on a full-time basis.
This workforce is typically augmented by an additional 1,000 persons on
average during regularly scheduled refueling outages. For the EPU work
in 2012, the workforce numbers would be somewhat larger than a routine
outage, but this increase would be of short duration. During
implementation of the EPU at NMP2, some minor and short duration air
quality impacts would occur. The main source of the air emissions would
be from the vehicles of the additional outage workers needed for the
EPU work. The majority of the EPU work would be performed inside
existing buildings and would not impact air quality. Operation of the
reactor at the increased power level would not result in increased non-
radioactive emissions that would have a significant impact on air
quality in the region. Therefore, there would be no significant impact
on air quality during and following implementation of the proposed EPU.
Water Use Impacts
Groundwater
NMP2 does not use groundwater in any of its water systems and has
no plans for direct groundwater use in the future. There are no
production wells on the site for either domestic-type water uses or
industrial use. Potable water in the area is supplied to residents
either through the Scriba Water District, which receives its water from
the City of Oswego, or from private wells.
Because of variations in the hydrogeological characteristics of the
ground under the reactor building foundation, a permanent dewatering
system is required for NMP2. The system consists of perimeter drains
and two sumps located below the NMP2 reactor building. The dewatering
system is designed to maintain the water table below the reactor
building foundation at a stable level. The licensee asserts that
implementation of the proposed EPU will not result in a change to the
groundwater use program at NMP2. Therefore, there would be no
significant impact on groundwater resources following implementation of
the proposed EPU.
Surface Water
NMP2 uses surface water from Lake Ontario for the service water
system and for a fish diversion system. As described in the licensee's
application, the cooling water system for NMP2 consists of a
circulating water system, which circulates cooling water through the
main condensers to condense steam after it passes through the turbine,
and a service water system which circulates cooling water through heat
exchangers that serve various plant components. The service water
system for NMP2 is a once-through system withdrawing water from Lake
Ontario. However, the circulating water system is a closed-cycle system
that uses a natural draft cooling tower. A portion of the cooling water
from the service water discharge is used to replace evaporative and
drift losses from the cooling tower. NMP2 has its own cooling water
intake and discharge structures located offshore in Lake Ontario. The
intake and discharge structures are located approximately 950 feet and
1,050 feet offshore. The discharge structure is a two-port diffuser
located 3 feet above the bottom approximately 1,500 feet offshore.
Because the NMP2 circulating water system is closed-cycle, flows are
substantially less than for a typical open-cycle system. During normal
operation, an average total flow of 53,600 gallons per minute (gpm) is
withdrawn from Lake Ontario, 38,675 gpm for the service water system
and, through the plant's service water discharge, makeup to the
circulating water system to replace evaporation and drift losses from
the cooling tower, and 14,925 gpm for operation of the fish diversion
system. Discharge flow from NMP2 ranges from 23,055 gpm to 35,040 gpm
during operation.
The licensee estimates that cooling tower makeup water flow post-
EPU would increase by approximately 2,000-2,500 gpm; from approximately
18,000 gpm to approximately 20,000 gpm. This increase represents
consumptive use of water from Lake Ontario (e.g., due to increased
evaporative losses). Because the cooling tower makeup water flow comes
from the service water discharge, this number represents water that
will
[[Page 73723]]
not be returned to Lake Ontario. This loss is not significant when
compared to the large amount of water that routinely flows out of Lake
Ontario (approximate long-term average of 107,700,000 gpm). Therefore,
there would be no significant impact on surface water resources
following implementation of the proposed EPU.
Aquatic Resources Impacts
The potential impacts to aquatic biota from the proposed action
could include impingement, entrainment, and thermal discharge effects.
NMP2 has a fish diversion system at the onshore facility to reduce
potential impingement of fish on the intake screens. The proposed EPU
is expected to result in a 2,000-2,500 gpm increase in cooling tower
makeup. However, this makeup water is drawn entirely from the plant's
service water discharge, and service water intake flows would remain
unchanged by the EPU. As a result, there would be no increase in
cooling water withdrawn from the NMP2 intake structure. Therefore,
there would be no increase in impingement from the proposed EPU and the
increase in entrainment losses, if any, would be very small, and would
remain consistent with the NRC's conclusion in the SEIS-24, that the
aquatic impacts as a result of NMP2 operation during the term of
license renewal would be small.
The issues of discharge water temperature and chemical discharges
are regulated by the State of New York with limits specified in the
State Pollutant Discharge Elimination System (SPDES) permit. According
to the licensee, the temperature of the discharge water is expected to
increase by a maximum of 2 [deg]F as a result of the EPU. In addition,
a modeling study performed by the licensee in 2007 of the thermal plume
of NMP2 indicated only a minor increase in thermal discharge would be
expected from the EPU. Technical reviews and analyses performed by the
licensee indicate that the combined service water and blowdown
discharge from NMP2 would remain compliant with current limits in the
SPDES permit for thermal and physical parameters during both normal
operation and normal shutdown conditions.
The circulating water system and service water system for NMP2 are
treated with biocides to control biofouling from zebra mussels
(Dreissena polymorpha) and other organisms, and with other chemical
additives to control scaling and corrosion of system components. The
licensee's application notes that several of the chemicals used for the
above treatments are subject to specific limits in the NMP2 SPDES
permit.
Therefore, there would be no significant adverse impacts to the
aquatic biota from entrainment, impingement, and from thermal
discharges for the proposed action.
Terrestrial Resources Impacts
The NMPNS site consists of approximately 900 acres, with over 1
mile of shoreline on Lake Ontario. Approximately 188 acres are used for
power generation and support facilities. Much of the remaining area is
undeveloped, consisting largely of deciduous forest with some old field
and shrub land areas that reflect continuing succession of old fields
to secondary forest. As previously discussed in the land use and
aesthetic section, the proposed action would not affect land use at
NMP2. Therefore, there would be no significant impacts on terrestrial
biota associated with the proposed action.
Threatened and Endangered Species Impacts
Animal species found on the NMP2 site are representative of those
found within disturbed landscapes of the lower Great Lakes region, and
include white-tailed deer and a variety of smaller mammals, reptiles
and amphibians. Correspondence between the licensee and the U.S. Fish
and Wildlife Service (FWS) in connection with the NMPNS license renewal
environmental review indicated that no federally endangered,
threatened, or candidate aquatic species are likely to reside in the
vicinity of the NMP2 site. According to the licensee's application and
information in the SEIS-24, with the exception of the Indiana bat
(Myotis sodalis) and occasional transient individuals of the piping
plover (Charadrius melodus) and the bald eagle (Haliaeetus
leucocephalus) (now delisted), no other species listed by the FWS as
endangered or threatened are likely to reside on the NMPNS site or
along Nine Mile Point to the Clay transmission corridor. However,
recent onsite surveys conducted by the licensee indicate that there is
low likelihood of occurrence for Indiana bat and piping plover because
there is no suitable habitat on the site or along the transmission
corridor. Regardless, planned construction-related activities related
to the proposed EPU primarily involve changes to existing structures,
systems, and components internal to existing buildings, would not
involve earth disturbance. While traffic and worker activity in the
developed parts of the plant site during the 2012 refueling outage
would be somewhat greater than a normal refueling outage, the potential
impact on terrestrial wildlife would be minor and temporary.
Since there are no planned changes to the terrestrial wildlife
habitat on the NMPNS site from the proposed EPU and the potential
impacts from worker activity would be minor and temporary, there would
be no significant impacts to any threatened or endangered species for
the proposed action.
Historic and Archaeological Resources Impacts
As reported in the SEIS-24, the NRC reviewed historic and
archaeological site files in New York, and confirmed that historic and
archaeological resources have been identified in the vicinity of NMP2,
but no archaeological and historic architectural sites have been
recorded on the licensee's site. In addition, the New York State
Historic Preservation Office confirmed that while there are no known
archaeological sites within the plant site, the Preservation Office
considers Nine Mile Point to be an area that is sensitive for cultural
resources because of its environmental setting. However, as reported in
the SEIS-24, a site visit performed by NRC staff in 2004 found the
presence of archaeological remains associated with several mapped
historic locations within the plant lands. For the proposed EPU, the
licensee asserts that there would be no new land disturbance activities
and there are no plans to construct new facilities or modify existing
access roads, parking areas, or equipment lay-down areas. Therefore,
there would be no significant impact from the proposed EPU on historic
and archaeological resources at NMP2.
Socioeconomic Impacts
Potential socioeconomic impacts from the proposed EPU include
temporary increases in the size of the workforce at NMP2 and associated
increased demand for public services and housing in the region. The
proposed EPU could also increase tax payments due to increased power
generation.
Currently, there are approximately 1,000 full-time workers employed
at NMPNS, residing primarily in Oswego County and Onondaga County, New
York. During refueling outages approximately every 12 months at NMPNS
(every 24 months for each unit) the number of workers at NMPNS
increases by as many as 1,000 workers for 30 to 40 days.
As stated in the licensee's application dated May 27, 2009, the
proposed EPU was expected to temporarily increase the size of the
workforce at NMPNS
[[Page 73724]]
during the spring 2010 and 2012 refueling outages. The greatest
increase would occur during the spring 2012 outage when the majority of
the EPU-related modifications would take place. Once completed, the
size of the refueling outage workforce at NMPNS would return to normal
levels and would remain relatively the same during future refueling
outages. The size of the regular plant operations workforce would be
unaffected by the proposed EPU.
Most of the EPU plant modification workers would be expected to
relocate temporarily to Oswego and Onondaga counties, resulting in
short-term increases in the local population along with increased
demands for public services and housing. Because plant modification
work would be short-term, most workers would stay in available rental
homes, apartments, mobile homes, and camper-trailers. Therefore, a
temporary increase in plant employment for a short duration would have
little or no noticeable effect on the availability of housing in the
region.
NMPNS currently pays annual real estate property taxes to the City
of Oswego School District, Oswego County, and the Town of Scriba. The
annual amount of property taxes paid by NMPNS could increase due to
``incentive payments'' should NMP2 megawatt production exceed
negotiated annual benchmarks as power generation increases. Future
property tax agreements with Oswego County, the Town of Scriba, and the
City of Oswego could also take into account the increased value of NMP2
as a result of the EPU implementation and increased power generation.
Due to the short duration of EPU-related plant modification
activities, there would be little or no noticeable effect on tax
revenues generated by temporary workers residing in Oswego County and
Onondaga County. Therefore, there would be no significant adverse
socioeconomic impacts from EPU-related plant modifications and
operations under EPU conditions in the vicinity of NMP2.
Environmental Justice Impacts
The environmental justice impact analysis evaluates the potential
for disproportionately high and adverse human health and environmental
effects on minority and low-income populations that could result from
activities associated with EPU operation at NMP2. Environmental effects
may include biological, cultural, economic, or social impacts. Minority
and low-income populations are subsets of the general public residing
in the vicinity of NMP2, and all are exposed to the same health and
environmental effects generated from activities at NMP2.
Environmental Justice Impact Analysis
The NRC staff considered the demographic composition of the area
within a 50-mile (80-km) radius of NMP2 to determine the location of
minority and low-income populations and whether they may be affected by
the proposed action.
Minority populations in the vicinity of NMP2, according to the U.S.
Census Bureau data for 2000, indicate that 11.8% of the population
(approximately 908,000 individuals) residing within a 50-mile (80-km)
radius of NMP2 identified themselves as minority individuals. The
largest minority group was Black or African American (approximately
63,000 persons or 7.0%), followed by Hispanic or Latino (approximately
22,000 persons or about 2.4%). According to the U.S. Census Bureau,
about 3.5% of the Oswego County population identified themselves as
minorities, with persons of Hispanic or Latino origin comprising the
largest minority group (1.3%). According to census data, the 3-year
average estimate for 2006-2008 for the minority population of Oswego
County, as a percent of total population, increased to 4.4%.
According to 2000 census data, approximately 19,600 families and
105,000 individuals (approximately 8.4 and 11.5%, respectively)
residing within a 50-mi (80-km) radius of NMP2 were identified as
living below the Federal poverty threshold in 1999. The 1999 Federal
poverty threshold was $17,029 for a family of four.
According to census data in the 2006-2008 American Community Survey
3-Year Estimates, the median household income for New York was $55,401,
while 13.8% of the State population and 10.5% of families were
determined to be living below the Federal poverty threshold. Oswego
County had a lower median household income average ($43,643) and higher
percentages (16.0%) of individuals and families (11.2%) living below
the poverty level, respectively.
Potential impacts to minority and low-income populations would
mostly consist of environmental and socioeconomic effects (e.g., noise,
dust, traffic, employment, and housing impacts). However, noise and
dust impacts would be short-term and limited to onsite activities.
Minority and low-income populations residing along site access roads
could experience increased commuter vehicle traffic during shift
changes. Increased demand for inexpensive rental housing during the
refueling outages that include EPU-related plant modifications could
disproportionately affect low-income populations, however, due to the
short duration of the EPU-related work and the expected availability of
rental properties, impacts to minority and low-income populations would
be short-term and limited.
Based on this information and the analysis of human health and
environmental impacts presented in this EA, there would be no
disproportionately high and adverse human health and environmental
effects on minority and low-income populations residing in the vicinity
of NMP2.
Non-radiological Impacts Summary
As discussed above, the proposed EPU would not result in any
significant non-radiological impacts. Table 1 summarizes the non-
radiological environmental impacts of the proposed EPU at NMP2.
Table 1--Summary of Non-radiological Environmental Impacts
------------------------------------------------------------------------
------------------------------------------------------------------------
Land Use..................... No significant impact on land use
conditions and aesthetic resources in
the vicinity of NMP2.
Air Quality.................. Temporary short-term air quality impacts
from vehicle emissions related to the
workforce. No significant impacts to air
quality.
Water Use.................... Water use changes resulting from the EPU
would be relatively minor. No
significant impact on groundwater or
surface water resources.
Aquatic Resources............ No significant impact to aquatic
resources due to impingement,
entrainment, or thermal discharge.
Terrestrial Resources........ No significant impact to terrestrial
resources.
Threatened and Endangered No significant impact to Federally listed
Species. species.
Historic and Archaeological No significant impact to historic and
Resources. archaeological resources on site or in
the vicinity of NMP2.
[[Page 73725]]
Socioeconomics............... No significant socioeconomic impacts from
EPU-related temporary increase in
workforce.
Environmental Justice........ No disproportionately high and adverse
human health and environmental effects
on minority and low-income populations
in the vicinity of NMP2.
------------------------------------------------------------------------
Radiological Impacts
Radioactive Gaseous and Liquid Effluents, Direct Radiation Shine, and
Solid Waste
Nuclear power plants use waste treatment systems to collect,
process, recycle, and dispose of gaseous, liquid, and solid wastes that
contain radioactive material in a safe and controlled manner within NRC
and EPA radiation safety standards. Operation at the proposed EPU
conditions would not require any physical changes to the gaseous,
liquid, or solid waste systems.
Radioactive Gaseous Effluents
Radioactive gaseous wastes principally include radioactive gases
extracted from the steam condenser offgas system and the turbine gland
seal. The radioactive gaseous waste management system uses holdup
(i.e., time delay to achieve radioactive decay) and filtration (i.e.,
high efficiency filters) to reduce the gaseous radioactivity that is
released into the environment. The licensee's evaluation concluded that
the proposed EPU would not change the radioactive gaseous waste
licensing basis and the system's design criteria. In addition, the
existing equipment and plant procedures that control radioactive
releases to the environment will continue to be used to maintain
radioactive gaseous releases within the dose limits of 10 CFR 20.1302,
Appendix I to 10 CFR part 50, and 40 CFR part 190.
Radioactive Liquid Effluents
Radioactive liquid wastes include liquids from various equipment
drains, floor drains, containment sumps, chemistry laboratory, laundry
drains, and other sources. An evaluation performed by the licensee
demonstrates that implementation of the proposed EPU would not
significantly increase the inventory of liquid normally processed by
the liquid waste management system. This conclusion is based on the
fact that the radioactive liquid waste system functions are not
changing and the volume inputs would increase less than 10%, which is
not an appreciable increase when compared to the liquid radioactive
waste system capacity. The proposed EPU would result in a small
increase in the equilibrium radioactivity in the reactor coolant which
in turn would impact the concentrations of radionuclides entering the
waste disposal systems.
Since the liquid volume does not increase appreciably, and the
radiological sources remain bounded by the existing design basis, the
current design and operation of the radioactive liquid waste system
will accommodate the effects of EPU with no changes. In addition, the
existing equipment and plant procedures that control radioactive
releases to the environment will continue to be used to maintain
radioactive liquid releases within the dose limits of 10 CFR 20.1302,
Appendix I to 10 CFR part 50, and 40 CFR part 190.
Occupational Radiation Dose at EPU Conditions
In-plant radiation levels and associated occupational doses are
controlled by the NMPNS Radiation Protection Program to ensure that
internal and external radiation exposures to station personnel,
contractor personnel, and the general population will be as low as is
reasonably achievable (ALARA). For plant workers, the program monitors
radiation levels throughout the plant to establish work controls,
training, temporary shielding, and protective equipment requirements so
that worker doses will remain within the dose limits of 10 CFR Part 20
and ALARA.
The licensee's analysis indicate that in-plant radiation sources
are anticipated to increase linearly with the increase in core power
level (approximately 15% greater than the current licensed thermal
power), except for nitrogen-16 (N-16) which is expected to increase
approximately 30% due to increased steam flow and pressure in some
components. Shielding is used throughout NMP2 to protect personnel
against radiation emanating from the reactor and the auxiliary systems.
For conservatism, many aspects of NMP2 were originally designed for
higher-than-expected radiation sources. NMPNS has determined that the
current shielding design is adequate for the increase in radiation
levels that may occur after the proposed EPU. Thus, the increase in
radiation levels would not affect radiation zoning or shielding in the
various areas of NMP2 because of the conservatism in the original
design. Therefore, no changes are planned to the plant's shielding
design and the ALARA program would continue in its current form.
Offsite Doses at EPU Conditions
The primary sources of normal operation offsite dose to members of
the public at NMP2 are airborne releases from the Offgas System and
direct dose from gamma radiation (skyshine) from the plant turbines
containing radioactive material. During reactor operation, the reactor
coolant passing through the core region becomes radioactive as a result
of nuclear reactions. The dominant radiation source in the coolant
passing through the turbine is N-16. The activation of the water in the
reactor core is in approximate proportion to the increase in thermal
power. However, while the magnitude of the radioactive source
production increases in proportion to reactor power, the concentration
in the steam remains nearly constant. This is because the increase in
activation production is balanced by the increase in steam flow. The
implementation of the proposed EPU could increase components of offsite
dose due to releases of gaseous and liquid effluents by up to 20%. The
component of offsite dose due to N-16 radiation emanating from the
turbine could increase by as much as 30%. The licensee calculated that
the increase in offsite dose from radioactive gaseous and liquid
effluents, and skyshine from NMP2 under EPU operating conditions is
expected to be less than 1 mrem (0.01mSv) per year. The historical
(2003-2007) annual doses to a member of the public located outside the
NMPNS site boundary from NMP2's radioactive emissions ranged from 0.18
mrem (0.0018 mSv) to 2.01 mrem (0.0201 mSv). These doses are well below
the 10 CFR part 20 annual dose limit of 100 mrem (1.0 mSv) for members
of the public and the EPA's 40 CFR part 190 annual dose standard of 25
mrem (0.25 mSv). Therefore, while the offsite dose to members of the
public under EPU conditions is expected to increase slightly, it is
expected to remain within regulatory limits. Based on the above, the
potential increase in offsite radiation dose to members of the public
would not be significant.
Radioactive Solid Wastes
The radioactive solid waste system collects, processes, packages,
monitors,
[[Page 73726]]
and temporarily stores radioactive dry and wet solid wastes prior to
shipment offsite for disposal. Solid radioactive waste streams include
filter sludge, spent ion exchange resin, and dry active waste (DAW).
DAW includes paper, plastic, wood, rubber, glass, floor sweepings,
cloth, metal, and other types of waste routinely generated during site
maintenance and outages. The EPU does not generate a new type of waste
or create a new waste stream. Therefore, the types of radioactive waste
that require shipment are unchanged. The licensee's evaluation
indicates that the effect of the EPU on solid waste is primarily from
increased input to the reactor water cleanup system (WCS) and
condensate demineralizers. The increased use of the WCS and condensate
demineralizers is expected to increase the volume of spent ion exchange
resins and filter sludge. The licensee's analysis indicates that the
estimated increase in solid radioactive waste is approximately 7%, and
can be handled by the existing solid waste management system without
modification. Therefore, the impact from the increased volume of solid
radioactive waste generated under conditions of the proposed EPU would
not be significant.
Spent Nuclear Fuel
Spent fuel from NMP2 is stored in the plant's spent fuel pool. The
additional energy requirements for the proposed EPU would be met by an
increase in fuel enrichment, an increase in the reload fuel batch size,
and/or changes in the fuel loading pattern to maintain the desired
plant operating cycle length. NMP2 is currently licensed to use
uranium-dioxide fuel that has a maximum enrichment of 4.95% by weight
uranium-235. The typical average enrichment is approximately 4.20% by
weight uranium-235. For the proposed action, the core design would use
a somewhat higher fuel enrichment (4.36%), which remains within the
licensed maximum enrichment. The EPU fuel batch size would increase
from 276 bundles to 352 bundles. The licensee's fuel reload design
goals would maintain the NMP2 fuel cycles within the limits bounded by
the impacts analyzed in 10 CFR Part 51, Table S-3--Table of Uranium
Fuel Cycle Environmental Data and Table S--4 Environmental Impact of
Transportation of Fuel and Waste to and from One Light-Water-Cooled
Nuclear Power Reactor, as supplemented by NUREG-1437, Volume 1,
Addendum 1, ``Generic Environmental Impact Statement for License
Renewal of Nuclear Plants, Main Report, Section 6.3--Transportation
Table 9.1, Summary of findings on NEPA issues for license renewal of
nuclear power plants.'' Therefore, there would be no significant
impacts resulting from spent nuclear fuel.
Postulated Design-Basis Accident Doses
Postulated design-basis accidents are evaluated by both the
licensee and the NRC staff to ensure that NMP2 can withstand normal and
abnormal transients and a broad spectrum of postulated accidents,
without undue hazard to the health and safety of the public. The NRC
staff previously evaluated and approved an amendment to the NMP2
license (Technical Specification Amendment No. 125, dated May 29, 2008,
ADAMS Accession No. ML081230439) which permitted full implementation of
the Alternative Source Term (AST) as described in NRC Regulatory Guide
1.183, ``Alternative Radiological Source Terms for Evaluating Design
Basis Accidents at Nuclear Power Reactors.'' The licensee's AST
analysis was performed at the proposed EPU power level of 3,988 MWt so
that the design-basis accident analyses would be applicable to the
proposed EPU being evaluated here. In its approval of TS Amendment No.
125, the NRC staff concluded that (1) There is reasonable assurance
that the health and safety of the public will not be endangered by
operation in the proposed manner, (2) such activities will be conducted
in compliance with the NRC's regulations, and (3) the issuance of the
amendments will not be inimical to the common defense and security or
to the health and safety of the public. Therefore, there would be no
significant increase in the impact resulting from a postulated
accident.
Radiological Impacts Summary
As discussed above, the proposed EPU would not result in any
significant radiological impacts. Table 2 summarizes the radiological
environmental impacts of the proposed EPU at NMP2.
Table 2--Summary of Radiological Environmental Impacts
------------------------------------------------------------------------
------------------------------------------------------------------------
Radioactive Gaseous Effluents Amount of additional radioactive gaseous
effluents generated would be handled by
the existing system.
Radioactive Liquid Effluents. Amount of additional radioactive liquid
effluents generated would be handled by
the existing system.
Occupational Radiation Doses. Occupational doses would continue to be
maintained within NRC limits.
Offsite Radiation Doses...... Radiation doses to members of the public
would remain below NRC and EPA radiation
protection standards.
Radioactive Solid Waste...... Amount of additional radioactive solid
waste generated would be handled by the
existing system.
Spent Nuclear Fuel........... The spent fuel characteristics will
remain within the bounding criteria used
in the impact analysis in 10 CFR Part
51, Table S-3 and Table S-4.
Postulated Design-Basis Calculated doses for postulated design-
Accident Doses. basis accidents would remain within NRC
limits.
------------------------------------------------------------------------
Alternatives to the Proposed Action
As an alternative to the proposed action, the NRC staff considered
denial of the proposed EPU (i.e., the ``no-action'' alternative).
Denial of the application would result in no change in the current
environmental impacts. However, if the EPU were not approved for NMP2,
other agencies and electric power organizations may be required to
pursue other means, such as fossil fuel or alternative fuel power
generation, to provide electric generation capacity to offset future
demand. Construction and operation of such a fossil-fueled or
alternative-fueled plant may create impacts in air quality, land use,
and waste management significantly greater than those identified for
the proposed EPU at NMP2. Furthermore, the proposed EPU does not
involve environmental impacts that are significantly different from
those originally identified in the NMP2 FES and the SEIS-24.
Alternative Use of Resources
This action does not involve the use of any different resources
than those previously considered in the FES for NMP2, NUREG-1085, dated
May 1985 and Final Supplemental Environmental
[[Page 73727]]
Impact Statement (NUREG-1437, Supplement 24) dated May 2006.
Agencies and Persons Consulted
In accordance with its stated policy, on March 2, 2010, the NRC
staff consulted with the State of New York official, Alyse L. Peterson
of the New York State Energy Research and Development Authority
regarding the environmental impact of the proposed action. The State
official had no comments.
Finding Of No Significant Impact
On the basis of the details provided in the EA, the NRC concludes
that the proposed action will not have a significant effect on the
quality of the human environment. Accordingly, the NRC has determined
not to prepare an environmental impact statement for the proposed
action.
For further details with respect to the proposed action, see the
licensee's application dated May 27, 2009,\1\ as supplemented by
additional letters.\2\ These documents may be examined, and/or copied
for a fee, at the NRC's Public Document Room (PDR), located at One
White Flint North, Public File Area O1 F21, 11555 Rockville Pike (first
floor), Rockville, Maryland. Publicly available documents created or
received at the NRC are accessible electronically through the
Agencywide Documents Access and Management System (ADAMS) in the NRC
Library at http://www.nrc.gov/reading-rm/adams.html. Persons who do not
have access to ADAMS or who encounter problems in accessing the
documents located in ADAMS should contact the NRC PDR Reference staff
by telephone at 1-800-397-4209 or 301-415-4737, or send an e-mail to
[email protected].
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\1\ Agencywide Documents Access and Management System (ADAMS)
Accession Package No. ML091610091.
\2\ August 28, 2009 (ML092460610); December 23, 2009
(ML100190089); February 19, 2010 (ML100550598); April 16, 2010
(ML101120658); May 7, 2010 (ML101380306); June 3, 2010
(ML101610222); June 30 (ML101900471); July 9, 2010 (ML101950502);
July 30, 2010 (ML102170191); October 8, 2010 (ML102920339); October
28, 2010 (ML103080208); November 5, 2010 (ML103130515); December 10,
2010 (ML103500520); December 13, 2010 (ML103500363); January 19,
2011 (ML110250723); January 31, 2011 (ML110400373): February 4, 2011
(ML110460158); March 23, 2011 (ML110880300); May 9, 2011
(ML111370654); June 13, 2011 (ML111710135); July 15, 2011
(ML11207A069); August 5, 2011 (ML11207A069); August 19, 2011
(ML11242A044); September 23, 2011 (ML112700199); October 27, 2011
(ML113050319); and November 1, 2011 (ML113120336).
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Dated at Rockville, Maryland, this 17th day of November 2011.
For the Nuclear Regulatory Commission.
Richard V. Guzman,
Senior Project Manager, Plant Licensing Branch I-1, Division of
Operating Reactor Licensing, Office of Nuclear Reactor Regulation.
[FR Doc. 2011-30733 Filed 11-28-11; 8:45 am]
BILLING CODE 7590-01-P