United States Office of
Environmental Protection Emergency and
Agency Remedial Response
EPA/ROD/R05-92/210
September 1992
£EPA Superfund
Record of Decision:
New Brighton/Arden Hills, MN
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NOTICE
The appendices listed in the index that are not found in this document have been removed at the request of
the issuing agency. They contain material which supplement but adds no further applicable information to
the content of the document All supplemental material is, however, contained in the administrative record
for this site.
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50272-101
REPORT DOCUMENTATION 1. REPORT NO. 2.
PAGE EPA/ROD/R05-92/210
4. Title and Subtitle
SUPERFUND RECORD OF DECISION
New Bright on /Arden Hills, MN
Eighth Remedial Action - Subsequent to follow
7. Author(»)
9. Performing Organization Name and Address
12. Sponsoring Organization Name and Address
U.S. Environmental Protection Agency
401 M Street, S.W.
Washington, D.C. 20460
3. Recipient's Accession No.
5. Report Date
09/30/92
6.
a Performing Organization Rept No.
10. Project/Taskwork Unit No.
11. Contract(C) or Grant(G) No.
(C)
(G)
13. Type of Report » Period Covered
800/000
14.
15. Supplementary Notes
PB93-964131
16. Abstract (Limit: 200 words)
The 25-square-mile New Brighton/Arden Hills site includes the 4-square-mile Twin
Cities Army Ammunition Plant (TCAAP) in Ramsey County, Minnesota. Land use in the
area is predominantly residential with commercial and industrial sectors. The
estimated 100,000 residences, located within 2 miles of the site, along with adjacent
townships use various glacial and bedrock aquifers as their drinking water supply.
The TCAAP facility, a small arms manufacturing facility, is currently operated by the
Federal Cartridge Company (FCC) and used by two manufacturing lessees, Alliant
Techsystems and 3M Corporation. Since 1941, the plant has manufactured, stored, and
tested small arms ammunition and related materials. From 1941 to 1981, waste
materials, which included VOCs, heavy metals, corrosive materials, and explosives,
were disposed of at 14 source areas located within TCAAP. In addition, breaks and
leaks in sewer lines, where other disposal occurred, may have contributed to onsite
and offsite ground water and soil contamination. In 1981, state investigations of
municipal and private drinking water wells in and around TCAAP identified
contamination of ground water, onsite soil, sediment, and surface water by VOCs, other
(See Attached Page)
17. Document Analysis a. Descriptors
Record of Decision - New Brighton/Arden Hills, MN
Eighth Remedial Action - Subsequent to follow
Contaminated Medium: gw
Key Contaminants: VOCs (benzene, TCE, xylenes), other organics (phenols), metals
(chromium, lead)
b. Mentffiera/Open-Ended Terms
c. COSATI Held/Group
18. Availability Statement
19. Security Class (This Report)
None
20. Security Class (Thia Page)
None
21. No. of Pages
140
22. Price
(See ANSI-Z39.18)
See Instructions on Reverse
OPTIONAL FORM 272 (4-77)
(Formerly NTIS-35)
DepATtmcnt of Commerce
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EPA/ROD/R05-92/210
New Brighton/Arden Hills, MN
Eighth Remedial Action - Subsequent to follow
Abstract (Continued)
organics, and metals. Past removal actions and seven previous RODs, signed from 1983 to
1989, addressed interim remedial actions conducted by the Army and Alliant Techsystems
and provided for the establishment of alternate drinking water supplies for surrounding
communities, onsite in-situ soil vapor extraction; installing ground water pump and treat
systems to remediate ground water onsite; boundary ground water recovery systems to
prevent further migration of VOCs; thermal treatment of PCB-contaminated soil, and the •
cleaning, repairing, and testing of contaminated sewer lines. This ROD addresses
remediation of the south plume of offsite contaminated ground water, as OU3. Future RODs
will address the offsite north plume of contaminated ground water, as OU1, and the onsite
soil, sediment, surface water, and ground water, as OU2. The primary contaminants of
concern affecting the ground water are VOCs, including benzene, TCE, and xylenes; other
organics, including phenols; and metals, including chromium and lead.
The selected remedial action for this site includes pumping and offsite treatment of
contaminated ground water at the leading edge of the south plume using precipitation and
filtration to remove inorganic solids and a pressurized granular activated carbon system
to remove VOCs; discharging the treated ground water offsite to the potable water supply
of the City of New Brighton; disposing of filtration residuals and spent carbon offsite;
implementing institutional controls including ground water use restrictions; and
monitoring ground water. The estimated present worth cost for this remedial action is
$4,851,000, which includes an annual O&M cost of $276,000 for 30 years.
PERFORMANCE STANDARDS OR GOALS:
Chemical-specific ground water clean-up standards, which are based on state Standards and
SDWA MCLs and MCLGs, include 1,1-dichloroethane 70 ug/1; (state); l,1-dichloroethene
6 ug/1 (state); cis-l,2-dichloroethene 70 ug/1 (MCL); 1,1,1-trichloroethane 200 ug/1
(MCL); l,1,2-trichloroethane 3 ug/1 (proposed MCLG); and TCE 5 ug/1 (MCL).
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RECORD OF DECISION
GROUND WATER REMEDIATION
OPERABLE UNIT 3
AT NEW BRIGHTON/ARDEN HILLS
SUPERFUND SITE
September 1992
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TABLE OF CONTENTS
Section Page
I. DECLARATION FOR THE RECORD OF DECISION 1
A. Site Name and Location 1
B. Statement of Basis and Purpose 1
C. Assessment of the Site 1
D. Description of the Selected Remedy 1
E. Statutory Determinations 2
II. DECISION SUMMARY 3
A. Site Name, Location, and Description 3
B. Site History and Enforcement Activities 4
C. Highlights of Community Participation 10
D. Scope and Role of Operable Unit Within Site
Strategy 10
E. Summary of Site Characteristics 11
F. Summary of OU-3 Risks 13
G. Description of Alternatives . 16
H. Summary of the Comparative Analysis of
Alternatives 20
I. The Selected Remedy 25
J. Statutory Determinations 27
K. Documentation of Significant Changes 29
Appendices .^
A TABLES
B FIGURES
C ADMINISTRATIVE RECORD INDEX
D RESPONSIVENESS SUMMARY
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I. DECLARATION FOR THE RECORD OF DECISION
A. site Name and Location
New Brighton/Arden Hills (NB/AH) Superfund Site (also known as
Twin Cities Army Ammunition Plant or TCAAP) Ramsey County,
Minnesota.
B. Statement of Basis and Purpose
This decision document presents the selected remedial action for
the ground water contamination at operable unit 3 (OU-3) of the
New Brighton/Arden Hills Superfund site (TCAAP) in Ramsey County,
Minnesota, which was chosen in accordance with the requirements
of the Comprehensive Environmental Response, Compensation, and
Liability Act of 1980 (CERCLA), as amended by the Superfund
Amendments and Reauthorization Act of 1986 (SARA) and, to the
extent practicable, the National Oil and Hazardous Substances
Pollution Contingency plan (NCF). This decision document
explains the factual and legal basis for selecting the remedy for
this site. The information supporting this remedial action
decision is contained in the Administrative Record for this site.
The Minnesota Pollution Control Agency (MPCA) and the U.S. Army
(Army) concur with the selected remedy.
C. Assessment of the site
Actual or threatened releases of hazardous substances from this
site, if not addressed by implementing this Record of Decision
(ROD), may present an imminent and substantial endangerment to
public health, welfare, or the environment.
D. Description of the Selected Remedy
The NB/AH Site has been divided into three operable units. The
first operable unit, OU-l, consists of the large north plume of
contaminated groundwater in aquifer units 3 and 4 off-TCAAP. A
remedy for OU-l will be proposed in 1993. The second operable
unit, OU-2, consists of the on-TCAAP soils, sediments, surface
waters, and ground water. A remedy for OU-2 is expected to be
proposed in mid 1994. OU-3, addressed by the remedy selected in
this Record of Decision, consists of the South Plume of off-TCAAP
ground-water contamination. Implementation of the remedies for
the three operable units, as well as continued operation of the
Interim Remedial Action consisting of ground water extraction and
treatment on the TCAAP facility and at the TCAAP facility
boundary, will comprise the final remedy for this site.
The major components of the selected remedy include the
following:
• extraction of ground water at the leading edge of the
South Plume
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• treatment of extracted ground water for the removal of
volatile organic compounds (VOCs) by a pressurized
granular activated carbon (GAG) system
• discharge of treated ground water to the potable water
supply of the City of New Brighton
• monitoring of the ground water to verify the
effectiveness of the remedy.
E. Statutory Determinations
The selected remedy is protective of human health and the
environment, complies with Federal and State requirements that
are legally applicable or relevant and appropriate to the
remedial action, and is cost effective. This remedy utilizes
permanent solutions and alternative treatment or resource
recovery technologies, to the maximum extent practicable, and
satisfies the statutory preference for remedies that employ
treatment that reduces toxicity, mobility, or volume as a
principal element. Because this remedy will result in hazardous
substances remaining on-site above health-based levels, a review
will be conducted within five years after commencement of the
remedial action to ensure that the remedy continues to provide
adequate protection of human health and the environment.
A^Valdas V. AdamJcus 7 o&te
/ Regional Administrator
^ U. S. Environmental Protection Agency
Region V
Charles W. Williams Date
Commissioner
Minnesota Pollution Control Agency
Lewis 0. Walker Date
Deputy Assistant Secretary
of Army for Environment,
Safety and Occupational Health
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• treatment of extracted ground water for the removal of
volatile organic compounds (VOCs) by a pressurized
granular activated carbon (GAC) system
• discharge of treated ground water to the potable water
supply of the City of New Brighton
• monitoring of the ground water to verify the
effectiveness of the remedy.
E. Statutory Determinations
The selected remedy is protective of human health and the
environment, complies with Federal and State requirements that
are legally applicable or relevant and appropriate to the
remedial action, and is cost effective. This remedy utilizes
permanent solutions and alternative treatment or resource
recovery technologies, to the maximum extent practicable, and
satisfies the statutory preference for remedies that employ
treatment that reduces toxicity, mobility, or volume as a
principal element. Because this remedy will result in hazardous
substances remaining on-site above health-based levels, a review
will be conducted within five years after commencement of the
remedial action to ensure that the remedy continues to provide
adequate protection of human health and the environment.
ORIGINAL SIGNED BY t n QPP
DAVID A, ULLRICH • ». atr
valdas V. Adamkus Date
Regional Administrator
U. s. Environmental Protection Agency
Region V
Charles W. Williams Date
commissioner
Minnesota Pollution Control Agency
Lewis D . Walker Date
Deputy Assistant Secretary
of Army for Environment,
Safety and Occupational Health
TOTflL P.03
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• treatment of extracted ground water for the removal of
volatile organic compounds (VOCs) by a pressurized
granular activated carbon (GAC) system
• discharge of treated ground water to the potable water
supply of the city of New Brighton
• monitoring of the ground water to verify the
effectiveness of the remedy.
X. statutory Determinations
The selected remedy is protective of human health and the
environment, complies with Federal and State requirementa that
are legally applicable or relevant and appropriate to the
remedial action, and is cost effective. This remedy utilizes
permanent solutions and alternative treatment or resource
recovery technologies, to the maximum extent practicable, and
satisfies the statutory preference for remedies that employ
treatment that reduces toxicity, mobility, or volume aa a
principal element. Because this remedy will result in hazardous
substances remaining on-eite above health-based levels, a review
will be conducted within five years after commencement of the
remedial action to ensure that the remedy continues to provide
adequate protection of human health and the environment.
ORIGINAL aio,,tu BY „ „ ,-0 ,~
DAVID A. ULLRICH * 0 «P tttt
Valdas v. Adamteus Date
Regional Administrator
u. s. Environmental Protection Agency
Region V
flee w. Williams' Date
Commiseioner
Minnesota pollution control Agency
Lewis o. Walker Date
Deputy Assistant Secretary
of Army for Environment,
Safety and Occupational Health
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II. DECISION SUMMARY
A. site Name, Location, and Description
The New Brighton/Arden Hills (NB/AH) Superfund Site consists of a
25-square mile area located in Ramsey County, Minnesota just
north of the Minneapolis-St. Paul metropolitan area. It includes
the 4-square-mile Twin Cities Army Ammunition Plant (TCAAP) and
portions of seven nearby communities. These communities are New
Brighton, St. Anthony, Arden Hills, Shoreview, Mounds View,
Columbia Heights, and Minneapolis, with the predominant land uses
being mixed residential, commercial and industrial. As presently
defined, the site covers much of the U.S. Geological Survey's New
Brighton, Minnesota 7.5-minute quadrangle (Figure 1).
Within the New Brighton/Arden Hills study area, ground water is
found in both bedrock and glacial deposit aquifers. In general,
there are four aquifer units at the site. The first consists of
the surficial lacustrine deposits that form a shallow, unconfined
aquifer. The second is composed of glacial Twin Cities Till,
which acts as an aquitard, preventing hydraulic communication
between the surface and the underlying major glacial aquifer.
The third is composed of the Hillside and Arsenal Sands and is
the major glacial aquifer in the area. The fourth is the Prairie
du Chien/Jordan bedrock aquifer, which is hydraulically connected
to the overlying Hillside Sand.
The site consists of gently rolling, postglacial terrain with
several hills and surface water bodies, including lakes and
streams, but no extreme relief. The site is located within the
Rice Creek watershed. Rice Creek and its surrounding marshes and
woodlands provide cover for a variety of vegetation and wildlife.
Much of the lowland area adjacent to Rice Creek has lush and
vigorous vegetation creating a wildlife habitat well suited to
small animals.
Rice Creek meanders across the northwestern portion of TCAAP and
leaves TCAAP at the western boundary. Among the many small lakes
located in the Rice Creek Basin, several are located on and near
the TCAAP facility (Figure 2). Surface waters in the Rice Creek
watershed are not currently used for drinking water, but they are
used for recreational purposes.
The TCAAP facility is currently operated by Federal Cartridge
Company (FCC) and used by two manufacturing lessees, Alliant
Techsystems (previously a branch of Honeywell, Inc.) and 3M
Corporation. Approximately 1,500 people are currently employed
at TCAAP. Access to TCAAP is controlled by a 6-foot-high chain-
link fence. The boundary is patrolled by guards.
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In general, the off-TCAAP area is suburban in character, is
becoming increasingly urban to the south, and is rural to the
northeast. According to the 1990 census, the population in the
New Brighton quadrangle area is approximately 100,000.
Residential areas virtually surround TCAAP with the heaviest
developments to the west-southwest and east-southeast. Many
schools are located within 2 miles of the TCAAP facility.
The TCAAP facility contains a large number of source areas with
resulting soil, sediment, surface, and ground water
contamination. The source areas associated with on-TCAAP will be
addressed by OU-2.
B. site History and Enforcement Activities
TCAAP has been use to manufacture, store, and test small arms
ammunition and related materials since 1941. Between 1941 and
1981, waste material, including volatile organic compounds
(VOCs), heavy metals, corrosive materials, and explosives, were
used and/or disposed of at the 14 source areas within TCAAP
(Figure 3). In 1981, the Minnesota Pollution Control Agency
(MPCA) and the Minnesota Department of Health (MDH) began ground
water sampling and analysis from wells in the TCAAP area. The
analytical results from these samples indicated that private
drinking water wells and wells at TCAAP were contaminated by
VOCs. As a result, the following actions were taken:
• The City of New Brighton abandoned several municipal wells
and either placed on standby or deepened several others.
• The Village of St. Anthony decommissioned one well and
connected a portion of the village with Roseville water
supplies for an indefinite, but temporary period.
• A number of New Brighton/Arden Hills residents drawing
contaminated drinking water were provided municipal water
through construction of a water main extension.
• Residents of the Arden Manor Trailer Park drawing
contaminated drinking water were provided with new wells
finished in an aquifer with potable water. The wells were
provided by Arden Manor Trailer Park, which was later
reimbursed by the Army.
The MB/AH Site was proposed for inclusion on the National
Priorities List (NFL) in July 1982 and finalized in September
1983, with a Hazard Ranking System (HRS) score of 59 and a
ranking of 43 on the (NFL).' In 1981 the Army began a Phase I
investigation at TCAAP which involved a significant quantity of
monitoring wells and sampling efforts designed to identify the
overall contribution of TCAAP to the NB/AH Site contamination.
In 1983, EPA's Field Investigation Team (FIT) completed a
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documentation record and site assessment for the site. The
assessment documented high concentrations of synthetic organic
compounds in ground water at the site. Releases of these
compounds from the site to surface water and direct human contact
with the compounds were also documented. The elevated HRS score
and correspondingly high NPL ranking reflect the following site
conditions: 1) the relatively large number of individuals
exposed to contaminated ground water through their potable water
supplies, and 2) the potentially carcinogenic nature of the
compounds.
The NB/AH site, as currently defined, consists primarily of
portions of several regional aquifers that are contaminated to
differing degrees with volatile organic compounds (VOCs).
Concentrations for several of these compounds exceed current
health based criteria. The affected aquifers supply water to
TCAAP and the municipalities of New Brighton, St. Anthony,
Fridley and Moundsview. On TCAAP itself, contamination of soils,
sediments and surface waters is also of concern.
PROBLEM DEFINITION
Ground water contamination emanating from TCAAP, identified as
the primary source of ground water contamination within the area
of the NB/AH site, has posed a potential health hazard. This
hazard potentially results from direct human contact (dermal
contact,inhalation or ingestion) of ground water with industrial
solvents including trichlorethene (TCE), dichlorethene (DCE),
trichlorethane (TCA) and dichloroethane (DCA). Studies
concerning volatile organic compounds (VOCs) in ground water
within the study area have been undertaken primarily by the Army,
Alliant Techsystems, MPCA, EPA, and private entities. These
studies have largely involved the installation and sampling of
monitoring wells and water quality surveys of production,
municipal, and residential wells. The objectives and results of
the studies are summarized as follows.
PREVIOUS STUDIES
Army reports of investigations and studies at TCAAP in 1983 and
1984 identified major and minor disposal areas on the facility
that were sources of release or threatened release of hazardous
substances (mainly VOCs). In their review of these reports, EPA
and MPCA.noted that additional information was needed to address
the extent and magnitude of contaminated ground water, to fill
data gaps relative to off-site contamination, and to complete an
assessment of the disposal areas identified on TCAAP.
In 1984 and 1985 the Army submitted investigative reports
addressing VOC contamination at Alliant-TCAAP buildings 103 and
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6
502 (Sites I and K). The reports indicated that the buildings'
operations were a source of VOC-contaminated ground water
migrating toward Rice Creek from Building 103 and also to the
west or southwest from the Building 502 area. As a result of
these findings, Alliant announced a three-phase off-TCAAP
investigation on July 28, 1984, to supplement work being
conducted by MPCA to identify off-TCAAP sources of release.
In the spring of 1985, EPA initiated an investigation of the
force mains off-TCAAP because a number of documented breaks had
occurred in the line in the study area and because VOCs and other
hazardous wastes and metals had been detected in the sewer
sediments on-TCAAP.
Also in 1985, MPCA released the Phase I Final Report. New
Brighton/Arden Hills. Minnesota Multi-Point Source Remedial
Investigation. The report identified four potential source areas
of VOC release in the study area that had possibly contaminated
the ground water. The source areas included two areas at TCAAP
and two areas adjacent to TCAAP. A second phase of the off-TCAAP
RI, Phase IA, was initiated in July, 1986 and completed in
February, 1991. The purpose of the Phase IA RI was to further
define the nature and extent of ground water contamination in
off-TCAAP. areas.
In 1988, the Army initiated an on-TCAAP RI designed to
characterize the nature and extent of contamination within the
facility boundary, addressing soils, sediments, surface and
ground water. The on-TCAAP RI was completed in April, 1991.
Additionally, in 1991, EPA completed the Human Health Risk
Assessment and Army completed the Environmental Risk Assessment.
The completion of these four documents has led to the development
of feasibility studies for final remedial actions at the NB/AH
site.
INTERIM REMEDIAL ACTIONS
Most of the interim remedial actions (IRAs) taken at TCAAP have
been implemented under the Army Installation Restoration Program
(IRP). These actions have been coordinated with federal and
state regulatory agencies prior to implementation. Alliant
Techsystems entered into an agreement with the Army in 1985 to
investigate and pursue the cleanup of sites at TCAAP associated
with Alliant operations. Industrial operations at TCAAP have
generated most of the contamination currently migrating from the
site. The interim remedial actions being conducted by the Army
and Alliant have concentrated on contaminant source control, with
a focus on individual site cleanups and ground water (aquifer)
remediation. Actions that have already been taken can be divided
into the categories of: a) alternate water supplies, b)
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unilateral actions by the Army, c) actions with EPA and state
concurrence and d) other actions initiated by EPA and/or Army.
a) Alternate Water supplies
In addition to the previously mentioned alternate water supplies
that were provided shortly after the discovery of contamination
at the site, the following systems have been completed:
• A temporary, followed by a permanent, GAG treatment system
constructed for the City of New Brighton by the Army as part
of a litigation settlement agreement. The permanent system,
completed in June 1990, presently treats water from New
Brighton Wells 3, 4, 5 and 6 and has a capacity of 3200
gallons per minute (gpm).
• A temporary, followed by a permanent, GAG system constructed
for the Village of St. Anthony by EPA/MPCA. The permanent
system is a remedial action pursuant to a Record of Decision
(ROD) signed in September 1986. The system, completed in
April 1991, treats water from St. Anthony Wells 3, 4 and 5
and has a capacity of 2400 gpm.
b) Unilateral Actions by the Army
Unilateral removal actions have been taken by the U.S. Army using
its own delegated removal authorities under CERCLA Section 104.
These actions have, included:
• In-situ soil vapor extraction (ISV) systems for the
remediation of contaminated soils at Sites D and G on-TCAAP.
The ISV systems were implemented in 1986 and, since then,
have removed over 114 tons of VOCs from site soils.
• A ground water pump-and-treat system at Site A, where the
surficial aquifer is contaminated with VOCs. The system,
installed by the Army in 1988, utilizes liquid-phase
activated carbon to treat extracted groundwater, which is
then surface-discharged.
• Ground water pump-and-treat systems installed in 1988 at
Sites I and K, Alliant operations buildings. Groundwater
underneath the buildings is contaminated with VOCs with the
likely source identified as leaks from floor drains and
sewer lines. The extracted ground water is treated by air
stripping. The treated ground water from Site K is
discharged to a sewer under a National Pollutant Discharge
Elimination System (NPDES) permit issued by the state. The
treated ground water from Site I is discharged to the TCAAP
Ground Water Recovery System (TGRS). The TGRS is more fully
described in the next section.
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c) Actions with EPA and state Concurrence
• In 1987 the Army implemented the Boundary Groundwater
Recovery System (BGRS), for which EPA signed a Record of
Decision (ROD) in September 1987. This system initially
consisted of a series of six groundwater extraction wells
located along the southwest boundary of TCAAP and designed
to prevent any further migration of contaminated ground
water off of TCAAP. After a period of performance
monitoring, the system was expanded in 1989 to twelve wells.
Eight of the BGRS wells draw water from the Hillside Sand
aquifer with the other four drawing from the Prairie du
Chien.
The BGRS operates at an extraction rate of approximately
2100 gpm. Extracted water is pumped to an air stripping
facility for the removal of VOCs. From there the treated
water is pumped to the Arsenal Sand and Gravel Pit in the
north-central portion of TCAAP, where it is discharged and
allowed to infiltrate back into the ground. Over 5 billion
gallons of water have been treated and 45 tons of VOCs
removed by this system.
• In addition to the implementation of the BGRS, the Army
subsequently installed five source control (SC) wells
downgradient of Sites D, G and I. The BGRS and the SC wells
together comprise the TCAAP groundwater recovery system
(TGRS). The BGRS and TGRS are designed to provide regional
ground water remediation at TCAAP and prevent additional
contamination from migrating beyond the facility boundaries.
d) Other Actions Initiated by EPA and/or Army
• Site J, the sanitary sewer system at "PCAAP, has been
investigated in several studies. In 1983, integrity testing
was conducted on part of the upper plant sewer and on the
18-inch and 24-inch force mains. During 1984, approximately
50 percent of the sanitary sewer system (over 42,000 linear
feet) was inspected, cleaned, and tested. By July 1986,
cleaning of all sewer lines was completed.
• Between 1984 and 1986, Alliant Techsystems removed
contaminated sludge from the sewers leading away from
Building 502, containerized the sludge in drums and stored
it in a building called the Retrievable Monitored
Containment Structure (RMCS). In addition, in 1985, Alliant
excavated PCB-contaminated soils around Building 502 and
placed them in the RMCS.
• 1400 cubic yards of PCB-contaminated soil at Site D were
thermally treated in 1989. EPA prepared the ROD and the
risk assessment report for this action.
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• The Army completed a two-phase water management study to
evaluate feasible alternatives for the disposal of treated
ground water anticipated from future remedial measures.
CERCLA ENFORCEMENT ACTIVITIES
Pursuant to Section 120 of the Superfund Amendments and
Reauthorization Act of 1986 (SARA), the Army entered into a
Federal Facility Agreement (FFA) with EPA and the State of
Minnesota. The TCAAP FFA, which became effective on December 31,
1987, was the first to be negotiated between EPA and any federal
agency since the enactment of SARA. The general purposes of the
FFA are to:
1) Ensure that the environmental impacts associated with past
and present activities at TCAAP are thoroughly investigated
and that appropriate remedial actions are taken to protect
the public health, welfare and the environment.
2) Establish a procedural framework and schedule for
developing, implementing, and monitoring appropriate
response actions in accordance with CERCLA/SARA, the
National Oil and Hazardous Substances Pollution Contingency
Plan (NCP), Superfund guidance and policy, The Resource
Conservation and Recovery Act (RCRA), and RCRA guidance and
policy.
.("•0
3) Ensure cooperation, information exchange and participation
of the parties in such actions.
The specific purposes of the agreement are to:
1) Identify interim remedial action alternatives appropriate
for preventing further migration of contaminated ground
water prior^tp the implementation of final remedial actions
for the site,;'
2) Establish requirements for conducting the on-TCAAP RI to
determine fully the nature and extent of the threat to the
public health, welfare, or the environment caused by the
release and threatened release of hazardous substances,
pollutants, or contaminants at TCAAP.
3) Establish requirements for conducting an FS for the site to
identify, evaluate, and select alternatives for the
appropriate remedial action(s) to prevent, mitigate, or
abate the release or threatened release of hazardous
substances, pollutants, or contaminants at the site in
accordance with CERCLA and SARA.
4) Identify the nature, objective, and schedule of response
actions to be taken at the site. Response actions at the
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10
site shall attain that degree of cleanup of hazardous
substances, pollutants, or contaminants mandated by CERCLA
and SARA.
5) Implement the selected interim and final remedial action(s).
6) Assure compliance with federal and state hazardous waste
laws and regulations for matters covered by the agreement.
c. Highlights of Community Participation
The community near TCAAF has been involved in site activities
since the environmental problems related to the TCAAP facility
were identified. Numerous fact sheets have been sent and public
meetings have been held to keep the community apprised of the
various remedial activities at the site.
For the remedy selection for OU-3, the public participation
requirements of CERCLA sections 113 (k)(a)(B)(i-v) and 117 were
met through the issuance of a fact sheet and Proposed Plan,
notification of the availability of the Proposed Plan by
newspaper, and the holding of a public meeting on August 18,
1992. The public comment period for the Proposed Plan began on
July 22, 1992, and ended on August 21, 1992.
O. Scope and Role of operable Unit Within site strategy
OU-3 is one of three operable units for this site. OU-3 will
address the off-TCAAP ground water contamination occurring in the
South Plume in aquifer Unit 3 and Unit 4. OU-1 will address the
off-TCAAP ground water contamination occurring in the North
Plume. OU-2 will address the on-TCAAP source areas including
contaminated soils, sediments, surface water and ground water.
These three operable units, combined with the currently operating
TGRS, will comprise the final remedy for this site. OU-3
provides for the containment and eventual restoration of the
South Plume of contaminated ground water located off-TCAAP in
aquifer Unit 3 and Unit 4.
The division of the site into three operable units for purposes
of the final remedial action is based upon the following
considerations:
1) The on-TCAAP RI recommended that additional site
characterization work be performed within the boundaries of
TCAAP for soils, surface waters, sediments and groundwater.
This additional work must be completed before remedial
alternatives can be proposed for these media. The operation
of the BGRS interim remedial action, designed to prevent the
further migration of contaminated groundwater past the TCAAP
boundary, has allowed off-TCAAP groundwater contamination to
be considered separately from on-TCAAP sources and
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contaminated media. Therefore, delaying a response to off-
TCAAP groundwater contamination until the completion of the
additional on-TCAAP work is not warranted.
2) Based upon the results of the off-TCAAP RI, proposed
remedial alternatives for the large off-TCAAP North Plume of
contaminated groundwater, OU-l, will require a more involved
analysis than is necessary for the smaller South Plume, OU-
3. This analysis will include detailed groundwater modeling
and an evaluation of the effects of the alternate water
supplies provided to the City of New Brighton and the
Village of St. Anthony. The separation of the South Plume
into a separate operable unit prevents the migration of the
South Plume into uncontaminated portions of the affected
aquifer in a more timely fashion.
In sum, EPA has determined that a phased approach is appropriate,
given the size and complexity of the site , and will expedite the
completion of total site cleanup. EPA has also concluded that
OU-3 will not be inconsistent with nor preclude implementation of
other components of the final site remedy.
E. Summary of site characteristics
within the New Brighton/Arden Hills study area, ground water is
found in both bedrock and glacial deposit aquifers. On top of
the irregular bedrock surface, a series of unconsolidated glacial
sediments has been deposited. Several of these units are water
bearing and have been affected by the spread of contaminants from
TCAAP.
The Prairie du Chien/Jordan Sandstone aquifer is the principal
aquifer in the Twin Cities Basin. This aquifer is referred to as
Unit 4. Permeability in the Prairie du Chien/Jordan Sandstone
aquifer is controlled by the extent of fractures and joints in
the Prairie du Chien unit and the porosity of the Jordan
Sandstone unit. Ground water flow through this aquifer is
generally in a west-southwest to south-southwest direction off-
TCAAP toward the Mississippi River. Recharge to the Prairie du
Chien/Jordan Sandstone aquifer occurs by infiltration through the
overlying glacial units. Aquifer performance tests involving the
Prairie du Chien/Jordan Sandstone aquifer, as well as subsequent
modeling, suggest that a semiconfining layer may exist between
the Jordan Sandstone and Prairie du Chien units.
The Hillside Sand and the Arsenal Sand are referred to as Unit 3.
Within the New Brighton quadrangle, the Hillside/Arsenal Sand
outcrops in four areas: the Arsenal Kame within TCAAP; the
southwestern corner of the quadrangle within Minneapolis; two
small areas in Columbia Heights in the vicinity of Silver Lake;
and along the southern edge of Snail Lake. Except for the
exposure in Minneapolis, the Hillside/Arsenal Sand directly
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overlies the Prairie du Chien/Jordan Sandstone aquifer; the other
three surface exposures provide direct recharge to both units.
The ground water in the Unit 3 flows predominantly southwest.
The Twin Cities Till overlies the Hillside Sand in much of the
area and is referred to as Unit 2. The Twin Cities Till acts as
a confining layer, preventing direct hydraulic communication
between the overlying Lacustrine Deposits and the Hillside Sand
below.
The Lacustrine Deposits (Unit 1) are predominantly fine to medium
sands with interbedded silt layers and occasional minor peat and
clay layers. These units form the shallow surface aquifer
between and to the north of the Hilltop and Arden Hills moraines.
Private wells installed in Unit 1 exist to the north of TCAAP.
Ground water in this unit is perched and discontinuous. Any
ground water flow is localized and toward the closest small lake.
Ground water in Unit 3 and Unit 4 aquifers is considered Class II
in accordance with, "EPA Guidelines for Ground water
Classifications." Class II groundwater is groundwater that may
potentially be used as a potable water supply. Unit 3 and 4
ground water is of potable quality and is currently used as a
drinking water supply.
Ground water in aquifer Units 1, 3, and 4 has been contaminated
by one or more of the 14 source areas identified on the TCAAP
facility. Off-TCAAP, VOCs within the South Plume migrate
horizontally and downward vertically in response to corresponding
hydraulic gradients. The South Plume migrates in a southwesterly
direction off TCAAP in both the Hillside and Prairie du Chien
aquifers. The north and South Plumes diverge immediately off-
TCAAP with the South Plume moving in a more southerly direction
(Figure 4).
The South Plume extends approximately 10,000 feet beyond TCAAP.
The down gradient limit of the South Plume is evidenced by low
level of VOCs at wells in the Unit 4 aquifer. Unit 3 no longer
exists at the leading edge of the plume, so any contamination
present will be found in the Unit 4 aquifer.
In the Operable Unit 3 Feasibility Study, six VOCs have been
identified at concentrations above 1 /tg/1 in the South Plume, as
follows, in descending order based on concentration:
Trichloroethene
Cis-i,2-Dichloroethene
1,l-Dichloroethene
1,1-Dichloroethane
1,1,1-Trichloroethane
1,1,2-Trichloroethane
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Of these six VOCs, trichloroethene is of most concern because it
is present in the highest concentration and because it is
carcinogenic. Concentrations of trichloroethene in Unit 3 range
from < l M9/1 "to 3,800 pg/1. Trichloroethene concentrations in
Unit 4 range from < 2.6 ng/1 to 420 pg/1. Concentrations
decrease away from the center of the plume and with increasing
distance from the site. Figure 5 shows concentrations for
trichloroethene in Unit 3. Figure 6 shows concentrations for
trichloroethene in Unit 4.
F. Summary of OU-3 Risks
In 1990 EPA conducted a Human Health Risk Assessment for the
site. The Risk Assessment evaluated both on-TCAAP and off-TCAAP
areas affected by contamination under current and future use for
both the probable and reasonable maximum exposure (RME)
scenarios. The portions of the Risk Assessment regarding off-
TCAAP ground water risks are summarized in this section of the
ROD. It should be noted that both the South Plume and North
Plume for Unit 3 and Unit 4 were included in the off-TCAAP ground
water risk assessment. The V, w, X, Y, and Z areas of Unit 3 and
Unit 4, as shown in Figures 5 and 6, are based on general
concentration levels of trichloroethene. These general
concentration areas of Unit 3 and Unit 4 occur in both the South
and North Plumes. The arithmetic averages and upper-bound 95%
confidence levels for the contaminants of concern were calculated
based on contaminant concentrations in the South and North
Plumes. Human health risks were evaluated using a four step
process: 1) contaminant identification, 2) exposure assessment,
3) toxicity assessment, and 4) risk characterization. Each of
these steps is summarized below.
1) Contaminant identification
The media of concern for OU-3 is ground water in the South Plume
of aquifer Unit 3 and Unit 4. Table 1 specifies the contaminants
of concern for the South Plume according to the Risk Assessment
Exposure Areas labeled V, W, X, Y, and Z. The contaminant
concentrations used in quantifying risks from ground water
exposure are presented in Table 2. The probable exposure
scenario used the arithmetic average for individual contaminant
concentrations. The upper-bound 95% confidence limit on the
arithmetic average for individual contaminants was the
concentration used to calculate the reasonable maximum exposure
(RME). The maximum concentration measured for a given exposure
point was used to represent RME conditions when the upper-bound
95% confidence limit on the arithmetic average exceeded the
maximum concentration.
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2) Exposure Assessment
Both the current and future potential risk from exposure to off-
TCAAP contamination was evaluated. The current and future uses
were the same for the ground water pathway. Currently, most
residents living off-TCAAP receive their potable water from
municipal water supply wells. The water from these wells is
either contaminant-free when drawn from the ground or, in the
case of the municipal water supply wells of New Brighton and St.
Anthony, runs through granular activated carbon (GAG) treatment
systems that reduce contamination to required levels before being
distributed to the public. The only way that residents would be
exposed to contaminated ground water would be if the current GAC
treatment systems fail. Such failures are not expected because
of the redundancy built into the system, with the carbon units
operating in series.
Officials from off-TCAAP municipalities have acknowledged that a
small number of unidentified private water supply wells may exist
off-TCAAP to the southwest. EPA, MPCA and Army have solicited
information regarding private well use in the area. Army has
notified local residents through various media in an effort to
identify private wells impacted by the contaminated plumes off-
TCAAP and none have, at this time, been identified. Currently,
Army is conducting an additional well search in the area. This
effort is being coordinated with the State of Minnesota and EPA.
The present number of private wells within the plume extending
southwest from TCAAP cannot be determined at this time.
In the future, ground water in Unit 3 and Unit 4 will continue to
be used as potable water for municipal supplies and may be used
by private well users near the site. The rate of usage will
likely increase as the area grows and develops further.
Exposure to chemicals in ground water may occur via three routes:
(1) ingestion, (2) inhalation of volatiles during showering, and
(3). dermal absorption during bathing. If any of the water users
are commercial/industrial operations, then exposure would be
assumed to occur primarily via ingestion unless specific
instances of bathing could be documented.
The parameter values used in quantification of exposure for the
probable and RME scenarios are listed in Table 3. The exposure
doses or chronic daily intakes per pathway for the probable and
RME scenarios are presented in Table 4.
3) Toxicitv Assessment
A toxicity assessment is conducted to provide qualitative and
quantitative information regarding the potential for particular
contaminants to cause adverse effects in exposed individuals.
Toxicity values, such as slope factors and reference doses, are
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derived from the quantitative assessment and used together with
exposure assessment values to characterize risk.
Cancer potency or slope factors (SFs) have been developed by
EPA's Carcinogenic Assessment Group for estimating excess
lifetime cancer risks associated with exposure to potentially
carcinogenic chemicals. SFs, which are expressed in units of
(mg/kg-day)'1, are multiplied by the estimated intake of a
potential carcinogen, in mg/kg-day, to provide an upper-bound
estimate of the excess lifetime cancer risk associated with
exposure at that intake level. The term "upper bound" reflects
the conservative estimate of the risks calculated from the SF.
Use of this approach makes underestimation of the actual cancer
risk highly unlikely. Slope factors are derived from the results
of human epidemiological studies or chronic animal bioassays to
which animal-to-human extrapolation and uncertainty factors have
been applied.
Reference doses (RfDs) have been developed by EPA for evaluating
the potential for adverse health effects from exposure to
chemicals exhibiting noncarcinogenic effects. RfDs, which are
expressed in units of mg/kg-day, are estimates of lifetime daily
exposure levels for humans, including sensitive individuals,
above which there may be an appreciable risk of adverse health
effects. Estimated intakes of chemicals from environmental media
(e.g., the amount of a chemical ingested from contaminated
drinking water) can be compared to the RfD. RfDs are derived
from human epidemiological studies or animal studies to which
uncertainty factors have been applied (e.g., to account for the
use of animal data to predict effects on humans). These
uncertainty factors help ensure that the RfDs will not
. underestimate the potential for adverse noncarcinogenic effects
to occur.
Table 5 lists the oral and inhalation reference doses for the
contaminants of concern. Table 6 lists the oral slope factors
for the contaminants of concern. Table 7 lists the inhalation
slope factors for the contaminants of concern.
4) Risk Characterization
The quantitative risk characterization combines the results of
the exposure assessment and toxicity assessment to characterize
the carcinogenic and noncarcinogenic risks posed by contaminants
at the site.
The determination of carcinogenic risk is based upon calculating
how much of an increased risk a chemical poses over the average
or "background" level. For the general population, the
background risk of cancer is about one chance in three, or 33
percent, of developing some form of cancer in one's lifetime.
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EPA uses a range of increased cancer risk of betveen one in tea
thousand to one in one million (l x 10*4 to 1 x 1CT6) as the level
at which it requires that action be taken to reduce risk.
The determination of noncarcinogenic risk is based upon the
calculation of a term called the Hazard Index. If the Hazard
index for a risk pathway is less than one, noncarcinogenic risk
is not expected at the site. A Hazard Index greater than one
represents a potential for the occurrence of noncarcinogenic
health risks.
For off-TCAAP' ground water, there is a greater than 1 x ICT*
carcinogenic risk associated with 1,1-dichloroethene and
trichloroethene in portions of both Unit 3 and Unit 4 aquifers.
Noncarcinogenic hazard indices were less than one in nearly all
cases. There-were some exceedances of a hazard index of one for
a few individual chemicals. These exceedances were slight and do
not cause a noncarcinogenic risk for Unit 3 or Unit 4 ground
water in the areas encompassed by this operable unit.
Table 8 presents the non-carcinogenic and carcinogenic risks for
the probable and RME scenarios. Unit 3 and Unit 4 were divided
into areas based on the concentration of trichloroethene (see
Figures 5 and 6). Both the chronic and acute hazard indices were
evaluated for noncarcinogenic risks.
Table 9 summarizes the areas of uncertainty and their effects on
the risk estimates.
An ecological assessment was conducted for the Site by the Army.
This assessment will be augmented by additional work during the
Feasibility Study for QU-2. OU-3 is not ecologically impacted
because Unit 3 and Unit 4 ground water aquifers are deep and do
not affect surface waters in the area of contamination.
Actual or threatened releases of hazardous substances from this
site, if not addressed by implementing the response action
selected in this ROD, may present an imminent and substantial
endangerment to public health, welfare, or the environment.
6. Description of Alternatives
The OU-3 Feasibility Study examined appropriate remedial
technologies (Table 10) and combined these technologies into
various remedial alternatives. The remedial alternatives were
screened and evaluated, resulting in the retention of three
alternatives plus the no-action alternative, for detailed
analysis. A description of the alternatives analyzed in detail
is presented below:
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Alternative 1: No Action With Monitoring
Evaluation of the No Action Alternative is required by the NCP.
The No Action Alternative serves as a baseline alternative for
comparison to the "action" alternatives. Under this alternative,
no additional remedial action would be undertaken for the South
Plume. Access to contaminated ground water could be somewhat
controlled by enforcing well drilling permit regulations to help
prevent the potential exposure to persons consuming water from
private wells in the area. Ground water monitoring would
continue under the existing Federal Facilities Agreement. The no
action alternative provides no additional protection of human
health or the environment. The South Plume would continue to
migrate beyond the current monitoring well network and impact
currently "clean" portions of the deep aquifers (Units 3 and 4).
Capital Cost: $0
Annual O&M: $50,000
Present Worth: $471,000
Alternative 2: Ground water Extraction/ Treatment at TCAAP Air
Stripping Facility/ Discharge to Arsenal sand and Gravel Pit
Alternative 2 proposes installation of a ground water extraction
well located in aquifer Unit 4 at the leading edge of the South
Plume. Water would need to be pumped from Unit 4 at a rate of
1,000 gallons per minute to contain the South Plume. Near the
leading edge of the South Plume Unit 3 merges with Unit 4.
Therefore pumping of Unit 3 would not be necessary. At present
one extraction well is proposed. However, based on the results
of pump tests, additional wells would be added if they were
needed to contain the South Plume. Monitoring wells would be
added to the Unit 4 network to verify hydraulic capture.
The extracted ground water would be piped to TCAAP and undergo
treatment by air stripping at the existing TCAAP treatment
system. The existing system would be expanded to accommodate the
additional flow, with the treated water being discharged to the
Arsenal Sand and Gravel Pit. The Arsenal Sand and Gravel Pit is
currently used for discharge of treated water from the TGRS. The
major disadvantage of this discharge option is the potential
limitation to the amount of water that can be recharged to the
gravel pit without affecting VOC capture by the BGRS.
The area of attainment for this alternative is the areal and
vertical extent of Unit 3 and Unit 4 now encompassed by the South
Plume. The South Plume extends approximately 10,000 feet beyond
the TCAAP boundary and is approximately 2,000 feet wide. The
point of compliance for monitoring would be at the leading edge
of the South Plume. The final performance monitoring system
would be established during the remedial design/remedial action.
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There are two major Applicable or Relevant and Appropriate
Requirements (ARARs) for Alternative 2. One relates to ground
water cleanup levels, and the other relates to operation of the
treatment system. The contaminated ground water in the South
Plume must be extracted and treated until the concentration of
the six VOCs reaches the cleanup levels specified in this Record
of Decision. As Class II ground water aquifers, Units 3 and 4
should be restored to drinking water quality. The estimated
aquifer restoration timeframe is 30-to-50 years. The Safe
Drinking Water Act (SDWA) MCLs and non-zero MCLGs are considered
relevant and appropriate based on Section 300. 400 (g) of the NCP.
The State of Minnesota Recommended Allowable Limits (RALs) are to
be considered (TBCs) as cleanup standards also. The following
table lists MCLGs, MCLs and RALs for the contaminants of concern.
MCLG/MCL/RAL TABLE
Compound MCLG r,ucr/l) MCL facr/1) RAL
1,1- Dichloroethane - 70
1,1- Dichloroethene 7 76
Cis-1,2- Dichloroethene 70 70 70
1,1,1- Trichloroethane 200 200 600
1,1,2- Trichloroethane 3* 5* 3
Trichlproethene Zero 5 30
'Proposed MCL/MCLG
Because the affected aquifer may potentially be used for both
public and private drinking water supplies, the lowest
concentration value among the MCL, non-zero MCLG or RAL would be
followed. If a particular contaminant does not have an MCL or
non-zero MCLG, such as 1, 1-dichloroethane, the RAL would be
followed.
If contaminants of concern reach static concentrations over a
period of time, the extraction system would be evaluated to
determine if alternate pumping strategies would enhance
contaminant recovery. Ground water monitoring would be required
until restoration of the aquifer is achieved and the extraction
system is shut down.
The RCRA requirements of 40 CFR 264 Subpart AA, limiting total
organic emissions from air strippers would be relevant and
appropriate to Alternative 2. Alternative 2 would comply with
this ARAR.
The water well drilling regulations established by the State of
Minnesota is an institutional control that would be used to help
prevent the installation of private wells in the South Plume
before cleanup standards are achieved. These regulations also
protect aquifers from the spread of contamination by requiring
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specific construction procedures and materials, maintenance
standards and abandonment procedures from all wells, including
monitoring and pumping wells.
Alternative 2 would take approximately 4 months to implement.
Capital Cost: $2,764,000
Annual o&M: $ 258,000
Present Worth: $5,196,000
Alternative 3: Ground water Extraction, Treatment with Granular
Activated carbon (GAG), Discharge to Mew Brighton Municipal Water
supply
Alternative 3 would use the same extraction system proposed for
Alternative 2. The extracted ground water would be conveyed to a
new GAC treatment system (Figure 7) and inorganic treatment
facility to be constructed at the New Brighton Public Works
garage area. A pilot study would be conducted to determine the
most efficient and cost effective precipitation/filtration
combination to be used for treatment of inorganics. Treated
ground water would be discharged to the City of New Brighton
municipal water supply system, through a newly constructed force
main. New Brighton would use the treated water for its potable
water supply.
The area of attainment and point of compliance described in
Alternative 2 also applies to Alternative 3. In addition to the
ARARs and institutional controls outlined in Alternative 2,
Alternative 3 would have to comply with RCRA 40 CFR Part 268
Subpart D for the disposal of spent carbon. The tanks used for
treatment of the ground water would need to comply with the
substantive requirements for tanks set forth in 40 CFR Part 264
Subpart J.
Iron and manganese, the two predominant inorganics, would be
removed to comply with SDWA secondary Drinking Water Standards.
The treated ground water must meet the cleanup standards
specified in this ROD, which are MCLs and/or RALs, for the six
VOCs of concern. The time to implement Alternative 3 would be
approximately 6-9 months.
Capital Cost: $2,249,000
Annual O&M: $ 276,000
Present Worth: $4,851,000
Alternative 4: Extraction of Ground water, Treatment with GAC,
Discharge to Mississippi River
This alternative would consist of the same extraction system
described in Alternative 2. The treatment system would be the
same as for Alternative 3, except that it would not include
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inorganics removal. Treated water would be discharged via a
pipeline from the New Brighton Public Works garage area to the
Mississippi River. This pipeline would be constructed along the
1-694 right-of-way. This option would require a variance from
the U.S. Department of Transportation regulations that regulate
utilities along interstate highway right-of-ways.
The area of attainment and point of compliance for Alternative 4
is the sane as that described for Alternative 2. Major ARARs for
Alternative 4 include MCLs and RALs for ground water cleanup,
RCRA regulations regarding tanks used in the treatment process
and disposal of spent carbon, and National Pollution Discharge
Elimination System (NPDES) effluent limitations established by
the Clean Water Act 40 CFR Parts 104-140, 401-469. The
institutional controls described in Alternative 2 also apply to
Alternative 4.
The implementation time for Alternative 4 would be approximately
6-12 months.
Capital Cost: $6,521,000
Annual O&M: $ 366,000
Present Worth: $9,971,000
H. Summary of the Comparative Analysis of Alternatives
The NCP requires that the alternatives be evaluated on the basis
of the nine evaluation criteria listed below. This section
summarizes how the alternatives retained for detailed analysis
compare to one another when measured against the nine criteria.
EPA's Nine Evaluation Criteria for addressing hazardous waste
sites are:
1) Overall Protection of Human Health and the Environment
The assessment against this criterion describes how the
alternative, as a whole, achieves and maintains protection
of human health and the environment.
2) Compliance with Applicable or Relevant and Appropriate
Requirements (ARAR1
The assessment against this criterion describes how the
alternative complies with existing federal, state and
municipal laws, regulations, and other established standards
or, if a waiver is required, how it is justified. The
assessment also addresses other information from advisories,
criteria, and guidance that are to be considered.
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3) Lonq-Term Effectiveness and Permanence
The assessment of alternatives against this criterion
evaluates the long-term effectiveness of alternatives in
maintaining protection of human health and the environment
after response objectives have been met.
4) Reduction of Toxicitv, Mobility, and Volume Through
Treatment
The assessment against this criterion evaluates the
anticipated performance of the specific treatment
technologies employed by an alternative.
5) Short-Term Effectiveness
The assessment against this criterion examines the
effectiveness of the alternative in protecting human health
and the environment during the construction and
implementation of a remedy until response objectives have
been met.
6) Implementability
This assessment evaluates the technical and administrative
feasibility of alternatives and the availability of required
goods and services.
7) Cost
This assessment evaluates the capital and operation and
maintenance (O&M) costs of each alternative.
8) State Acceptance
This assessment reflects the state's apparent preferences
among or concerns about alternatives.
9) Community Acceptance
This assessment reflects the community's apparent
preferences or concerns about alternatives.
Comparative Evaluation of Alternatives
A comparative evaluation of the four alternatives for each of the
nine criteria is presented below and summarized in Table 11.
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Threshold Criteria
1. Overall Protection of Human Health and the Environment
The no action alterative provides no additional protection
of human health or the environment such that the site would
continue to present an imminent and substantial endangerment
to human health and the environment. The remaining three
alternatives all provide the same degree of overall
protection of human health and the environment in limiting
further migration of contaminants from the South Plume.
However, the discharge of treated water to the Arsenal Sand
and Gravel Pit could potentially compromise the BGRS by
causing an increased flow of contaminated ground water
between the BGRS wells. Therefore, Alternative 2 would not
be as protective as Alternatives 3 and 4.
Institutional controls, such as water well drilling
regulations will help to prevent consumption of contaminated
ground water in the South Plume until the cleanup standards
are met. The extraction of ground water will prevent
further migration of contaminants, protecting ground water
users downgradient of the South Plume.
2. Compliance with ARARs
The no action alternative allows contamination present in
the ground water to remain and migrate. The remaining
alternatives remove contamination so that the treated ground
water meets all ARARs.
The extraction and treatment portions of Alternatives 2, 3,
and 4 would meet the requirements of the Safe Drinking Water
Act (40 CFR Parts 141-149) for MCLs, the Minnesota RAL for
1,l-Dichloroethane and 1,1-Dichloroethene, and the
requirements of the Resource Conservation and Recovery Act
(RCRA) (40 CFR Part 268 Subpart D) for the disposal of spent
carbon. In addition, the tanks used for the treatment of
the ground water would comply with the substantive
requirements for tanks set forth in 40 CFR Part 264 Subpart
J. Alternative 2 would also comply with RCRA requirements
limiting total organic emissions from air strippers (40 CFR
264 Subpart AA). Finally, Alternative 4 would comply with
the effluent limitations of NPDES which was established
under the Clean Water Act (40 CFR Parts 104-140, 401-469).
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Primary Balancing Criteria
3. Lona-Term Effectiveness
The no action alternative, which includes continued ground
water monitoring, provides no long-term effectiveness.
Alternative 2, in the absence of supplemental water
discharge options, will eventually have a negative, long-
term impact on contaminant capture because additional ground
water will re-enter in the Arsenal Sand and Gravel Pit and
likely effect contaminant capture at the BGRS. Alternatives
3 and 4 will remain effective on a long-term basis.
Alternative 3 will provide a long-term source of treated
water for use by the City of New Brighton. Because it
provides the best use of the local ground water resource,
Alternative 3 is considered to be better than Alternative 4.
The uncertainty associated with the extraction system's
ability to achieve cleanup standards in the long-term
affects Alternative 2, 3, and 4 equally.
4. Reduction of Toxicitv. Mobility, and Volume (TM\n
The no action alterative provides no reduction of TMV.
Alternatives 2, 3, and 4 reduce toxicity by treating vocs,
and reduce the volume of contamination by removing it from
the ground water. Alternatives 2, 3, and 4 are, therefore,
equally effective for reduction of TMV.
5. Short-Term Effectiveness
The no action alternative, which includes continued
monitoring, provides no short-term effectiveness.
Alternatives 2 and 4, in their requirement for the
construction of pipeline along rights-of-way to the Arsenal
" Sand and Gravel Pit and to the Mississippi River,
respectively, would take somewhat longer to construct and
would have greater short-term impacts than Alternative 3.
Alternative 3, in which well(s) and conveyances are all
contained within the same area of New Brighton, has the
fewest short-term environmental impacts. Alternatives 2, 3,
and 4 each require the'same amount of time to restore ground
water to cleanup standards, and use institutional controls
to help prevent use of contaminated ground water until
cleanup standards are reached. Alternatives 2, 3, and 4 are
all considered acceptable when evaluated against this
criterion.
6. Implementability
Alternative 1, the No Action alternative, does not require
implementation. Alternative 2 utilizes conventional
extraction and treatment technologies; however, the
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forcemain will require significant access arrangements and
cooperation from various government units and private
parties. Thus, installation of the forcemain could be
delayed. Alternative 3 is fully implementable using
conventional construction technologies. New Brighton is
willing to accept the treated water and to provide easements
for a forcemain and the treatment plant construction.
Alternative 4 is implementable using conventional
construction technologies but would require forcemain
construction through highly developed areas and an exemption
from Federal Transportation Department regulations, either
of which will require substantial lead times. Alternative
3, therefore, is the most: implementable alternative.
7. Cost
The capital, O&M, and present worth costs (based on a 30
year period and 10% discount rate) for the four alternatives
are summarized below:
Annual
Capital Cost O&M Cost Present Worth
Alternative 1 $0 $50,000 $ 471,000
Alternative 2 $2,764,000 $258,000 $5,196,000
Alternative 3 $2,249,000 $276,000 $4,851,000
Alternative 4 $6,521,000 $366,000 $9,971,000
Modifying Criteria
8. State Acceptance
Based on the State's objective of obtaining an expedited
remediation, the No Action alternative is not acceptable.
Alternative 2 consists of expanding the existing, approved
system. The State has voiced concerns in two areas: (1) the
long-term impact of additional ground water recharge to the
Arsenal Sand and Gravel Pit on VOC capture at the BGRS, and
(2) the fact that recharge in the Arsenal Sand and Gravel
Pit may not provide the most beneficial use of the ground
water resource. The State accepts Alternative 3 because
this alternative would prevent further migration of the
South Plume, and it is the most beneficial use of treated
ground water. Alternative 4 is not acceptable to the State
because it is not a beneficial use of the ground water
resource.
9. Community Acceptance
Community acceptance of Alternative 3 is anticipated based
upon the desire of the City of New Brighton for additional
-------�
25
potable water, which Alternative 3 would provide, and the
general desire of citizens living in the area that effective
ground water remediation proceed as soon as possible. Based
upon public comments received during the public comment
period and during the public meeting for the proposed plan
and feasibility study for the site, the community prefers
Alternative 3.
I. The selected Remedy
The selected remedy for the OU-3 ground water cleanup is
Alternative 3. Based upon hydrogeologic and chemical data
collected across the study area, EPA and MPCA estimate that one
or more extraction wells will be needed to meet the objectives of
containing and remediating the South Plume ground water
contamination off-TCAAP. The extraction well(s) will be drilled
into the deep aquifer (Unit 4) to capture South Plume
contamination. At the proposed ground water extraction well
location, Unit 3 merges with Unit 4. Preliminary estimates
indicate that pumping ground water at a rate of approximately
1,000 gallons per minute will effectively contain the plume.
Based on additional work to be performed, EPA and MPCA will
determine if the pumping rate is sufficient to contain the south
Plume. If the pumping rate is found not to contain the South
Plume, the system will be expanded or modified to meet the
cleanup objectives.
.J&i
A forcemain will, be constructed from the location of the
extraction well(s) to the treatment system. The forcemain will
carry treated water from the system to the New Brighton water
supply main. The length of the forcemain will depend on the
distance between the extraction well(s), which have not been
installed, and the treatment plant. The length of the forcemain
between the treatment plant and the water main will be
approximately 6Q£J,feet. This forcemain will be located on city
property. The treatment system will utilize precipitation and
filtration for inorganic solids removal and a pressurized GAC
system for VOC removal. The removal of inorganic solids,
primarily iron and manganese, is needed to make the water
acceptable to the City of New Brighton. Iron and manganese are
naturally found in water, and they must be removed to prevent the
fouling of pipe and well screen openings, to prevent yellow
staining of clothing, and to remove taste and odor problems.
Treated ground water will be discharged to the 12-inch New
Brighton water main, which runs approximately 600 feet west of
the proposed treatment plant location (Figure 8).
CLEANUP STANDARDS
Following are the specific contaminant cleanup standards to be
attained in the aquifer before the remedy can be considered
complete:
-------�
26
Contaminant
1,l-Dichloroethane
1,1-Dichloroethene
cis-1,2-Dichloroethene
1,1,1-Trichloroethane
1,1,2-Trichloroethane
Trichloroethene
Cleanup standard
ua/1
70
6
70
200
3
5
Regulatory Basis
RAL
RAL
MCL, MCLG, RAL
MCL, MCLG
MCLG (proposed), RAL
MCL
Alternative 3 will achieve substantial risk reduction by
effectively containing the contaminant plume while at the same
time putting the treated water to its highest use. In addition,
the South Plume will be extracted until ground water cleanup
standards are achieved. The cleanup standards are based upon the
ARARs identified for the remedy and upon the Minnesota RALs for
private potable water supplies. Extracted ground water will be
treated to meet MCLs and non-zero MCLGs established by the Safe
Drinking Water Act. The most carcinogenic and pervasive
compound, trichloroethene, will be reduced to 5 Mg/1 °r below,
which corresponds to a 1.7 x 10"6 cancer risk. The State of
Minnesota RAL will be the cleanup goal for 1,1- dichloroethane
because no Federal MCL/MCLG exists for this compound. The RAL
will be the cleanup goal for 1,1,-dichloroethene and 1,1,2-
trichloroethane because the affected aquifer may, in the future,
be used as a private potable water supply. The regulation of
water well drilling by the State of Minnesota is the
institutional control to be used to restrict drilling of private
wells in the South Plume before cleanup standards are achieved.
The point of compliance will be at the leading edge of the South
Plume. The area of attainment is considered to be the complete
areal and vertical extent of the South Plume. If contaminants of
concern reach static concentrations over a -period of time, the
extraction system will be evaluated to determine if alternate
pumping strategies would enhance contaminant recovery.
Groundwater monitoring will be required until restoration of the
aquifer is achieved and the extraction system is shut down.
Treatment residuals such as spent carbon and filter cake from the
metals precipitation process will be disposed of in accordance
with applicable Federal and State law. It is anticipated that
the spent carbon will be a characteristic hazardous waste under
RCRA. The metals precipitate can probably be handled as a solid
waste; proper disposal requirements will be determined during the
pilot test.
Unlike Alternative 2, Alternative 3 does not have the potential
to compromise the BGRS. Unlike Alternative 4, the ground water
resource is not wasted. In addition, the cost of Alternative 3
is roughly half that of Alternative 4.
-------�
27
The capital cost of the selected remedy is $2,249,000. The
annual operating cost is $276,000. The present worth of the
selected remedy, based on a 30-year period at a discount rate of
10%, is $4,851,000. Table 12 presents a more detailed breakdown
of the remedy's cost.
J. Statutory Determinations
This section discusses how the selected remedy for OU-3 meets the
five statutory requirements established by CERCLA.
Protection of Human Health and the Environment
The selected remedy will provide overall protection of human
health and the environment through extraction and treatment of
contaminated ground water. The extraction of the ground water
will contain the contaminant plume and restore the water quality
within the plume to drinking water standards. The extracted
water will be treated to meet drinking water standards and
discharged to a public water supply. Institutional controls on
the drilling of private wells will help to prevent consumption of
contaminated water before cleanup standards are achieved. The
remedy will attain a 10"* to 10"6 risk level for carcinogens. The
contaminated ground water does not exceed a noncarcinogenic
hazard index of one. No unacceptable short-term risks or cross-
media impacts will be caused by implementation of the remedy.
Compliance with ARARs
The selected remedy will comply with ARARs and TBCs. The
following is a list of ARARs and TBCs for the remedy:
Chemical Specific
• SDWA 40 CFR Parts 141-149, Non-zero Maximum contaminant
Level Goals and Maximum Contaminant Levels-Finalized
and proposed, for 1, 1-dichloroethene, Cis-1,2-
dichloroethene, l,1,1-trichloroethane, 1,1,2-tri-
chloroethane, and trichloroethene. - Relevant and
Appropriate for Ground Water Restoration and Applicable
for Discharge to Public Water Supply
• National Secondary Drinking Water Standards (40 CFR
143) for Iron and Manganese - Applicable for Discharge
to Public Water Supply
• State of Minnesota Recommended Allowable Limits for
1,1-dichloroethane and 1,1-dichloroethene - To Be
Considered
-------�
28
Action Specific
• RCRA 40 CFR Part 268 Subpart D - Regulates the disposal
of spent carbon -Applicable
• RCRA 40 CFR Part 264 Subpart J - Requirements for tanks
used for the treatment of waste - Applicable
• Minn. Stat. §103H.175 - Requirements for the Reporting
of Groundwater Monitoring - Relevant and Appropriate
• Minn. Stat. §103H.275 - Implementation of best
management practices where groundwater is polluted -
Relevant and Appropriate
• Minn. Rules Part 7060.0400 - Uses of Underground
Waters - Relevant and Appropriate
• Minn. Rule Chapt. 4720, Public Water Supplies -
Regulates community and non-community public water
supplies - Applicable
• Minn. Rule Chapt. 4725, Water Well Code - Establishes
well construction standards - Applicable
Cost Effectiveness
The selected remedy provides an effective remedy proportionate to
its cost. The degree of long-term effectiveness and permanence,
reduction of mobility, toxicity, or volume of contaminants, and
ease of implementability, afforded by this remedy for the cost
make it a reasonable value.
Utilization of Permanent Solutions and Resource Recovery
Technologies to the Maximum Extent Practicable
The selected remedy meets the statutory requirement to utilize
permanent solutions and resource recovery technologies to the
maximum extent practicable.
The selected remedy, Alternative 3, provides the best balance
among the four alternatives with respect to the primary balancing
evaluation criteria. Alternative 3 provides a greater degree of
long-term effectiveness and permanence than Alternatives 2 and 4.
All alternatives provide a reduction in toxicity, mobility and
volume of contaminants. Alternative 3 will take the least amount
of time to implement and therefore is more effective in the
short-term than Alternatives 2 and 4. Alternative 3 is the least
costly and easier to implement than Alternatives 2 and 4. Of the
five primary balancing criteria, long-term effectiveness and
permanence, implementability and cost were the most decisive
-------�
29
factors in the selection decision. Unlike Alternatives 2 and 4,
the selected remedy puts the treated ground water to its highest
beneficial use as potable water. By using the treated ground
water in the municipal water supply system of New Brighton, the
local contaminated ground water resource is recovered and the
uncontaminated local ground water resource is conserved. The
State of Minnesota and the community support the selected remedy
and would not support Alternatives 1, 2, or 4.
Preference for Treatment as a Principal Element
The selected remedy removes and treats VOCs in the ground water
using GAC. Therefore, it satisfies the statutory preference for
remedies that employ treatment as a principal element.
The selected remedy is protective of human health and the
environment, complies with ARARs, is cost-effective, utilizes
permanent solutions and resource recovery to the maximum extent
practicable, and satisfies the statutory preference for remedies
that employ treatment that reduces toxicity, mobility, or volume
as a principal element.
K. Documentation of Significant changes
The selected remedy is the preferred alternative presented in the
proposed plan. No significant changes were made to the preferred
alternative selected as the remedy for OU-3.
-------�
APPENDIX A
TABLES
-------�
TABLE 1
CHEMICAL OF POTENTIAL CONCERN AT SOURCE AREA "V"
Inorganics Oreanics Radioactive*
Ground Water - Aluminum13 Benzene None
Unit 3 Calcium" Chloroform
Magnesium" Choroethane"
Potassium19 Ethylbenzene
Sodium" 1,1-Dichloroethane
Chromium 1,1-Dichloroethene
Copper Trichloroethene
Ironb Di-n-octyl Phthalate
Lead* Bis(2-ethylhexyl)Phthalate
Nickel Benzoic Acid
Vanadium 1,1,1-Trichloroethane
Zinc 1,2-Dichloroethane
Notes:
a Risk factors are not available for this compound. However, a qualitative discussion on potential
risk is included in Chapter 5.
b Risk factors are not available for these compounds. Therefore, risks due to these compounds
were not evaluated.
-------�
TABLE 1 (continued)
CHEMICAL OF POTENTIAL CONCERN AT SOURCE AREA 'W
Inorganics Organic^ Radiactives
Ground Water - None 1,1-Dichloroethane None
Unit 3 1,1-Dichloroethene
1,1,1-Trichloroethane
Trichloroethene
Ground Water - Aluminum* Carbon tetrachloride None
Unit 4 Calcium" Chloroform
Chromium Methylene chloride
Copper 1,1-Dichloroethane
Iron* 1,1- Dichloroethene
Magnesium' 1,1,1 -Trichloroethane
Nickel 1,1,2-Trichloroethene
Potassium" Trichloroethene
Sodium* Bis(2-ethylhexyl)Phthalate
Zinc Benzoic Acid
Tetrachlorpetheneb
Cis-1,2-Dichloroethenee
Notes:
a Risk factors are not available for these compounds. Therefore, risks due to these compounds
were not evaluated.
b Although tetrachloroethene was not present at concentrations significantly higher than
background levels, it was included as a chemical of potential concern due to its known association
with the site.
c Risk factors are not available for this compound. Risk factors for 1,2-dichloroethene were used.
-------�
TABLE 1 (continued)
CHEMICAL OF POTENTIAL CONCERN AT SOURCE AREA "X"
Inorganics Qreanics Radiactivg<;
Ground Water - None 1,1-Dichloroethane None
Unit 3 1,1-Dichloroethene
1,1,1 -Trichloroethane
1,1,2-Trichloroethane
1,2-Dichloroe thane
Trichloroethene
Ground Water - Aluminum5 Benzene None
Unit 4 Antimony Chloroform
Cobalt" Toluene
Cadmium 1,1-Dichloroethane
Cacium6 1,1-Dichloroethene
Chromium 1,1,1-Trichloroethane
Copper 1,1,2-Trichloroethane
Iron Trichloroethene
Lead* Cis-1,2-Dichloroethenec
Magnesium Tetrachloroethened
Nickel N-butyl benzyl Phthalate
Potassium" Di-n-octyl Phthalate
Sodium" Bis(2-ethylhexyl)Phthalate
Vanadium Di-n-butyl Phthalate
Benzoic Acid
Notes:
a Risk factors are not available for this compound. However, a qualitative discussion on potential
risk is included in Chapter 5.
b Risk factors are not available for these compounds. Therefore, risks due to these compounds
were not evaluated.
c ' Risk factors are not available for this compound. Risk factors for 1,2-dichloroethene were used.
d Although tetrachlorpethene was not present at concentrations significantly higher than
background levels, it was included as a chemical of potential concern due to its known association
with the site.
-------�
TABLE 1 (continued)
CHEMICAL OF POTENTIAL CONCERN AT SOURCE AREA "Y"
Ground Water
Unit3
Inorganics
None
Ground Water
Unit 4
None
Organ ics
Chloroform
Chloroethane*
Ethylbenzene
Methylene Chloride
J, 1 -Dichloroe thane
1,1 -Dichloroethene
1,1,1- Trichloroethane
1,1,2-Trichloroethane
1,2-Dichloroethane
Trans-1,2-Dichloroetheneb
Trichlproethene
1,2-Dichloroethene
Cis-1,2-DichIoroetheneb
Xylene
Acetone
2-Butanone
Bromodichloromethane
Chloroform
Toluene
Methylene Chloride
1,1-Dichloroethane
1,1 -Dichloroethene
1,1,1 -Trichloroethane
1,1,2-Trichloroethane
1,2-Dichloroethane
Trichloroethene
Cis-1,2-Dichloroethene
Xylene
Tetrachloroethenec
Radioactives
None
None
Notes:
a
b
c
Risk factors are not available for this compound. Therefore, risks due to this compound were not
evaluated.
Risk factors are not available for this compound. Risk factors for 1,2-dichloroethehe were used.
Although tetrachlorpethene was not present at concentrations significantly higher than
background levels, it was included as a chemical of potential concern due to its known association
with the site.
-------�
TABLE 1 (continued)
CHEMICAL OF POTENTIAL CONCERN AT SOURCE AREA "Z"
Inorganics Oreanics Radioactives
Ground Water - Aluminum" Chloroform None
Unit 3 Calcium" 1,1-Dichloroethane
Magnesium8 1,1-Dichloroethene
Potassium3 1,1,1-Trichioroethane
Sodium' 1,1,2-TrichIoroethane
Vanadium 1,2-Dichloroethane
Chromium Trichloroethene
Copper 1,2-Dichloroethene
Iron3 Di-n-octyl Phthalate
Lead" Phenol
Nickel
Zinc
Ground Water - Chromium Toluene None
Unit 4 Copper 1,1-Dichloroethane
Lead 1,1-Dichloroethene
Nickel 1,1,1-Trichloroethane
Zinc 1,1,2-Trichloroethane
Aluminum 1,2-Dichloroethane
Calcium Trichloroethene
Magnesium 1,2-Dichloroethene
Potassium Cis-l,2-Dichloroethenee
Sodium Tetrachloroethened
Iron Benzoic Acid
Acetone
Notes:
a Risk factors are not available for these compounds. Therefore, risks due to these compounds
were not evaluated.
b Risk factors are not available for this compound. However, a qualitative discussion on potential
risk is included in Chapter 5.
c Risk factors are not available for this compound. Risk factors for 1,2-dichloroethene were used.
d Although tetrachlorpethene was not present at concentrations significantly higher than
background levels, it was included as a chemical of potential concern due to its known association
with the site.
-------�
Page No. 1
-• prg 03/22/91 11:46:06
Parameter
TABLE 2
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA V
CHLOROFORM
BENZENE HEXAOECONE
CHLOROETNANE
EWLBENZENE
1,1-01 CHLOROETNANE
1,1-DICHLOROETHYLENE
1,1,1-TRICHLOROETHANE
1,2-DICHLOROETHANE
TR1CHLOROETHTLENE
TETRACHLOROETHYLENE
DI-N-OCTTL PHTHALATE
8IS(2-ETHrLHEXYL) PHTHALAT
BENZOIC ACID
Detection
Frequencyd)
3/12
2/12
1/12
1/12
3/16
3/16
2/12
1/16
7/12
1/16
1/2
2/2
1/2
Adjusted
Detection
Frequency(2)
3/12
2/12
1/12
1/12
3/16
3/16
2/12
1/16
7/12
1/16
1/2
2/2
1/2
Geometric
Mean
ug/l
0 0339
0 ISO
0 275
0 124
0 JQg
0.116
0.0534
0 0327
0 225
0 0328
3 16
4.24
41.2
Arithmetic
Mean
ug/l
Orna?
0«9
0300
OmA
0.303
1.03
0 ion
0 344
0 905
3 SO
4.50
46.5
Range<3>
Lou/high
Oej.A C9
1 "*. 1 T
0.13-1.2
0.070-12
Oflftn-n flftn
017*0 OA
U.1A
? 0-? 0
3.0-6.0
Afl-Afl
Standard
Deviation
ug/l
On?so
1 19
007^1
OTAi
1 ?9
0.649
3.45
OA17
0?flA
3iO
? 12
2.12
30.4
Confidence
Interval (4)
ug/l
Oncci
OA3O
0.649
3.23
OC1Q
0 525
2 76
22 5
23.5
320
Notes:
Data compiled primarily from ANL, 1990 and CON, 1991 except as noted in the text.
*** Cannot be calculated.
(1) Detection frequency = a/b
where:
a = Nunber of times a compound was detected
b » Total number of simples tested
(2) Adjusted detection frequency omits sample results that Mere qualified with the flags, "A" or «R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, O.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range = the range of detected values.
(4) The 95 percent confidence limit is calculated for the standard error of the arithmetic mean.
-------�
Page No. 1
CU.prg 03/22/91 11:48:32
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA V
ALUMINUM
BARIUM
CALCIUM
MAGNESIUM
POTASSIUM
SODIUM
VANADIUM
CHROMIUM
COPPER
IRON
LEAD
MANGANESE
NICKEL
ZINC
Detection
Frequencyd)
2/2
2/2
2/2
2/2
2/2
2/2
1/2
2/2
2/2
2/2
2/2
2/2
2/2
2/2
Adjusted
Detection
Frequency<2)
2/2
2/2
2/2
2/2
2/2
2/2
1/2
2/2
2/2
2/2
2/2
2/2
2/2
2/2
Geometric
Mean
ug/l
150
73.1
55887
20888
1925
6238
2.82
30.2
19.3
41801
13 3
485
42.4
304
Arithmetic
Mean
ug/l
151
73 6
55950
20900
1925
6255
3 00
65 7
19 7
43100
17 1
485
54.7
381
Range(3)
Lou/high
145- 156
65-82
53300 •SftAOO
20200*71600
18OO-1CAO
5790-6720
4 0-4 0
7 4-124
1&-7&
326QO-S3Afia
6£.->ft
467-503
20-89
152-609
Standard
Deviation
ug/l
7 77
no
3T&A
OOO
LQ L
&CD
1 41
KL
c -tn
4C 1
K L
48 8
125
Confidence
Interval(4)
ug/l
71i.
/QA
3?fu
Notes:
Data compiled primarily from AHL, 1990 and COM, 1991 except as noted in the text.
*•• Cannot be calculated.
(1) Detection frequency » a/b
where:
a * Number of tines a ccnpound was detected
b * Total nunfcer of samples tested
(2) Adjusted detection frequency wits staple results that Mere qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response. Interim Final, Washington, D.C., EPA/S40/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range =• the range of detected values.
(4) The 95 percent upper confidence Unit is calculated for the standard error of the arithmetic mean.
-------�
11,03:45 TABLE
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA U
Parameter
1,1-DICHLOROETHANE
1.1-DICHLOROETHTLENE
1,1,1-TRICHLOROETHANE
TRICHLOROETHYLENE
Detection
Frequencyd)
2/5
2/5
2/4
3/4
Adjusted
Detection
Frequency (2)
2/5
2/5
2/4
3/4
Geometric
Mean
ug/l
0.258
0.148
0.902
1.33
Arithmetic
Mean
ug/l
1 39
0.25S
4.99
1.87
RangeC3)
Low/high
1.9-4.9
0.19-0.87
6.8-13
1.0-4.3
Standard
Deviation
ug/l
2.11
0.346
6.20
1.71
Confidence
IntervaU4)
ug/l
4.02
0.687
14.8
4.60
Notes:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
•** Cannot be calculated.
(1) Detection frequency = a/b
where:
• » Number of times a compound was detected
b * Total number of samples tested
(2) Adjusted detection frequency omits sample results that uere qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Wish ington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency uere used to determine Mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA W
No detected data could be obtained for this group
-------�
Page No. 1
GU.prg 03/22/91 11:09:02
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA X
1,1-DICHLOROETHANE ...
1,1-OICHLOROETHYLENE .
1,1,1-TRlCHLOROeTHANE
1,1.2-TRICHLOROETHANE
1,2-DICHLOROETHANE ...
TR1CHLOROETHYLENE ....
TETRACHLOROETHYLENE ..
Detection Adjusted Geometric
Frequencyd) Detection Mean
Frequency (2 3 ug/l
3/7 3/7 0.331
,.... 2/7 2/7 0.269
.... 2/4 2/4 0.256
2/7 2/7 0.172
..... 2/7 2/7 0.183
..... 2/4 2/4 0.256
3/7 3/7 0.313
Arithmetic
Mean
ug/l
1.17
1 31
1.11
5.30
0.504
1 82
13.0
Ranged)
Low/high
0.56-4.4
0 24-6.2
0.060-1.9
0.52-34
0.20-0.41
0 17-7.0
0.21-87
Standard
Deviation
ug/l
1.66
2.33
1.27
12.6
0.889
3.45
32.6
Confidence
Interval (4)
ug/l
2.71
3.47
3.14
17.0
1.32
7.31
43.2
Notes:
Data compiled primarily from ANI, 1990 and COM, 1991 except as noted in the text.
*** Cannot be calculated.
(1) Detection frequency * a/b
where:
a * Number of times a compound was detected
b * Total nu*er of samples tested
(2) Adjusted detection frequency omits sample results that uere qualified with the flags, "A" or »R» ai
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range = the range of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
TABLE 2 (continued)
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA X
No detected data could be obtained for this group
-------�
11:37:54
TABLE * <«>"*-<>
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA Y
Parameter
CHLOROFORM
CHLOROETHANE
ETHTLBENZENE
METHYLENE CHLORIDE
1 1-D I CHLOROETHANE
1,1-DICHLORCCTHYLENE
1,1.1'TR I CHLOROETHANE ....
1,1.2-TRICHLOROETHANE
1,2-DICHLOROETHANE
TRANS- 1 2-DICHLOROETHYLENE
TR I CHLOROETHYLENE
DICHLOROETHENE, 1,2-
CIS-1 2- 01 CHLOROETHYLENE .
XYLENE
ACETONE
TETRACHLOROETHYLENE
METHYL ETHYL ICETONE
Detection
Frequency (1)
2/U
1/14
1/14
2/14
15/19
14/19
8/14
6/19
5/18
1/5
12/14
9/9
4/5
1/14
1/14
7/19
2/7
Adjusted
Detection
Frequency(2)
2/14
1/14
1/14
2/14
15/19
14/19
8/14
6/19
5/18
1/5
12/14
9/9
4/5
1/14
1/14
7/19
2/7
Geometric
Mean
ug/l
0.632
1 91
0.946
1.48
8.45
6.20
6.39
1.80
0.839
0.0585
63.6
25.4
0.781
1.69
7.72
2.28
3.91
Arithmetic
Mean
ug/l
1.63
4 30
1 72
1.92
60 8
36.8
68.5
53.0
2.64
0.0620
302
38.7
1.94
2.22
8.42
178
5.21
Ranse(3)
Lou/high
0 13-0.21
19-19
12-12
1 7-1.9
0 28-480
0.61-190
14-230
1.7-860
0.12-7.0
0.11-0.11
0 41-800
7.0-100
0.32-6.9
6.7-6.7
10-10
0.22-2800
11-13
Standard
Deviation
ug/l
1.20
4.81
1 11
0.924
120
62.1
83.8
196
2.76
0.0268
289
36.2
2.82
1.58
4.04
641
4.o7
Confidence
lnterval(4)
ug/l
2 33
7 08
2 3£
2 45
119
66 8
117
148
4 01
0.0953
469
66.6
5.44
3.14
10 7
487
9.53
Notes:
Data compiled primarily from ANL, 1990 and CON, 1991 except as noted in the text.
*** Cannot be calculated.
CD Detection frequency = a/b
where:
a * Number of times a compound was detected
b * Total number of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
TABLE 2 (continued)
TCAAF GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA *
No detected data could be obtained for this group
-------�
page NO. 1 TABLE 2 (continued)
•" prg 03/22/91 11:23:24
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA Z
Parameter
CHLOROFORM
,1-DICHLOROETHANE ..
, 1 -DICHLOROETHYLENE
,1,1-TRICHLOROETHANE
,1,2-TRICHLOROETHANE
,2-OICHLOROETHANE ..
TRICMLOROETHTLENE ...
DICHLOROETHENE, 1,2-
TETRACHLOROETHYLENE .
DI-N-OCTYL PHTHALATE
PNEHOL(C6HSOH)-SINGLE
Detection
Frequency(l)
1/6
.... 7/8
7/8
.... 4/6
.... 2/8
1/6
6/6
.... 5/6
3/8
.... 1/1
COMP 1/1
Adjusted
Detection
Frequency(2)
1/6
7/8
7/8
4/6
2/8
1/6
6/6
5/6
3/8
1/1
1/1
Geometric
Mean
U8/1
4.45
16.8
18.6
51.5
5.37
4.89
1862
48.4
15.2
4.00
13.0
Arithmetic
Mean
ug/t
10.6
29.2
38.4
152
10.8
11.1
2017
71.5
675
4.00
13.0
Range<3>
Low/high
4.0-4.0
2.0-95
1.4-140
14-480
10-14
7.0-7.0
1100-3800
8.0-150
9.0-5300
4.0-4.0
13-13
Standard
Deviation
ug/l
19.2
31.1
45.6
192
16.4
19.1
952
55.5
1869
*••
**•
Confidence
Intervat(4)
ug/l
30.9
55.3
76.6
354
24.6
31.2
3016
130
2238
*•*
**»
Notes:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
*•• Cannot be calculated.
(1) Detection frequency = a/b
where:
a « Number of tines a coopound was detected
b * Total number of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags. "A" or «R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the rang* of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
Page No. 1
GU.prg 03/22/91 11:34:12
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 3 AREA Z
Detection Adjusted Geometric
Frequencyd) Detection Mean
Frequency(2> ug/l
ALUMINUM ..
BARIUM .. .
CALCIUM
MAGNESIUM ..
POTASSIUM
SODIUM
VANADIUM ... .
CHROMIUM
COPPER
IRON ...
LEAD
MANGANESE ....
NICKEL
ZINC
. 1/1
1/1
1/1
. . 1/1
1/1
. 1/1
1/1
1/1
. 1/1
. 1/1
1/1
. 1/1
. 1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
318
44.0
7S200
28600
2170
7930
6.00
55.1
101
110000
26.0
809
40.4
114
Arithmetic Range<3> Standard Confidence
Mean Low/high Deviation Interval(4)
ug/l "9/t ug/l
318
44.0
75200
28600
2170
7930
6.00
55.1
101
110000
26.0
809
40.4
114
318-318 •«• «•
44-44 **• *»•
75200-75200 •" •••
28600-28600 «~ *~
2170-2170 ••• •**
7930-7930 **• *••
6.0-6.0 ••• "•
55-55 *** •*•
101-101 •*• ••*
110000-11000 •" «•
26-26 *** *••
809-809 ••• •*•
40-40 •»• ***
114-114 "• «~
Notes:
Data compiled primarily from ANL, 1990 and CON, 1991 except as noted in the text.
*** Cannot be calculated.
CD Detection frequency * a/b
where:
• » Murber of times • compound was detected
b 3 Total nuaber of samples tested
(2) Adjusted detection frequency omits sample results that Mere qualified with the flags, "A* or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, O.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected values.
<4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
%r."°M*i ii,»,« TABLE 2 <">"«"««*)
Parameter
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 4 AREA W
CARBON TETRACHLORIOE
CHLOROFORM
NETKTLENE CHLORIDE
1,1-OICHLOROETHANE
1,1-DICHLOROETHYLENE
1,1,1-TRICHLOROETHANE
1,1,2-TRICHLOROETHANE
TRICHLOROETHYLENE
CIS-1 2-DICHLOROETHYLENE .
TETRACHLOROETHYLENE
8ISC2-ETHYLHEXYL) PHTHALAT
BENZOIC ACID
Detection
FrequencyO)
1/12
1/12
2/12
2/12
3/12
1/12
2/12
6/12
2/12
2/12
1/1
1/1
Adjusted
Detection
Frequency<2)
1/12
1/12
2/12
2/12
3/12
1/12
2/12
6/12
2/12
2/12
1/1
1/1
Geometric
Mean
ug/l
0 0719
0.0265
0.306
0 0872
0.142
0.0576
0.0157
0.362
0.165
0.0239
3.00
9.00
Arithmetic
Mean
ug/l
Onoay
0 0271
0 398
2 ?7
1.10
2.26
0.0392
22 4
0.425
0 0533
3.00
9.00
Range(3)
Low/high
OCT.n e-7
Oncn.n nen
OCL. ft Of
2O.9/
0.13-10
25-25
0.080-0.29
0 12-210
1.7-2.4
0 22-0 27
3.0-3.0
9.0-9.0
Standard
Deviation
ug/l
Ofin779
2.88
7.17
0.0815
An A
0.774
0 0902
•••
•*«
Confidence
Interval (4)
ug/l
0.185
2.93
6.82
0.0910
0.917
•** '
***
Notes:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
••• Cannot be calculated.
(1) Detection frequency * a/b
where:
a * Number of times a compound was detected
b * Total number of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim final. Washington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected'values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
NO. 1
CU.prg 03/22/91 11:54:30
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 4 AREA U
ALUMINUM
BARIUM
CALCIUM
MAGNESIUM
POTASSIUM
SODIUM
CHROMIUM
COPPER
IKON
LEAD
MANGANESE
NICKEL
ZINC
Detection
Frequency(l)
1/1
1/1
1/1
. .. 1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
Adjusted
Detection
Frequency<2)
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
Geometric
Mean
ug/l
94.5
37.0
23800
19000
3490
5370
11.2
11.8
27100
14.9
204
13.4
2670
Arithmetic
Mean
ug/l
94.5
37.0
23800
19000
3490
5370
11.2
11.8
27100
14.9
204
13.4
2670
Range(3) Standard Confidence
Lou/high Deviation Interval^)
ug/l ug/l
95-95 ••
37-37 **
23800-23800 ••
19000-19000 ••
3490-3490 *•
5370-5370 ••
11-11 ••'
12-12 •**
27100-27100 •*•
15-15 •••
204-204 •••
13-13 •••
2670-2670 •••
**
**
*•
••
*•
**
r *•
***
•**
••*
r *»*
•**
r *•*
Note*:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
•** Cannot be calculated.
(1) Detection frequency * a/b
where:
a * Nurber of tines a compound was detected
b « Total number of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C., EPA/540/1-89-002.
Only sample results included in tha adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected values.
(4) The 95 percent upper confidence limit ic calculated for the standard error of the arithmetic mean.
-------�
TABLE 2 (continued)
TCAAP GROUND WATER ORGANIC OFf SITE SAMPLE DATA STATISTICS
UNIT 4 AREA X
Parameter
CHLOROFORM
TOLUENE
BENZENE, NEXAOECONE
1,1-DtCHLOROETNANE
1,1-DICHLOROETHYLENE
1,1,1-TRICHLOROETHANE ....
1.1.2-TRICHLOROETHANE ....
TRICHLOROETHUENE
CIS-1 2-DICHLOROETHYLENE .
TETRACHLOROETHTLENE
N-8UTTL BENZYL PHTHALATE .
DI-N-OCTTL PHTHALATE
BIS<2-ETKYLHEXYL) PHTHALAT
OI-N-BUTYL PHTHALATE
BENZOIC ACID
Detection
Frequency(l)
1/7
1/7
1/7
6/10
3/9
1/7
3/9
8/9
1/8
2/9
1/1
1/1
1/1
1/1
1/1
Adjusted
Detection
Frequency(2>
1/7
1/7
1/7
6/10
3/9
1/7
3/9
8/9
1/8
2/9
1/1
1/1
1/1
1/1
1/1
Geometric
Mean
ug/l
0 0337
0.877
0.113
0 166
0.108
0.147
0.0226
1.57
0.141
0.0299
2.00
95.0
68.0
7.00
4.00
Arithmetic
Mean
ug/l
0 0371
19 e
0 120
0 298
0.152
0.261
0.0389
2 96
0.288
0 197
2.00
95.0
68.0
7.00
4.00
Range(3)
Low/high
0 080-0 080
135-135
0 24-0 24
0 090-1 2
0.16-0.60
0.75-0.75
0.030-0.13
0.42-9.3
1.6-1.6
0 070-1.6
2.0-2.0
95-95
68-68
7.0-7.0
4.0-4.0
Standard
Deviation
ug/l
0 0204
50.8
0.0529
0.366
0.174
0.256
0.0451
2.95
0.530
0.526
**•
***
••»
•»*
**»
Confidence
Interval(4)
ug/l
0 0560
66.6
0 169
0 560
0.285
0.498
0.0736
5.23
0.731
0.602
*»•
•••
•*•
*••
«••
Note*:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
•** Cannot be calculated.
CD Detection frequency * a/b
Mhere:
a * Number of times • compound was detected
b z Total ntnber of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or »R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, O.C., EPA/540/1-69-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected values.
(4} The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
Pagt No. 1
GU.prg 03/22/91 12:00:26
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER INORGAMIC OFF SITE SAMPLE DATA STATISTICS
UNIT 4 AREA X
ALUMINUM
ANTIMONY
BARIUM
CALCIUM
COBALT
MAGNESIUM
POTASSIUM
SODIUM
VANADIUM
CADMIUM
CHROMIUM
COPPER
L£AO
MANGANESE
NICKEL
ZINC
Detection
Frequency(l)
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
... 1/1
... 1/1
... 1/1
1/1
1/1
1/1
1/1
Adjusted
Detection
Frequency(2)
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
Geometric
Mean
ug/l
201
37 3
in
Avonn
8 Aft
235 nn
2?AQ
5980
610
89fl
113
38 4
104000
j/ 0
801
09 7
1&3
Arithmetic
Mean
ug/l
5D1
•»7 T
35*0
conn
117
TO /
183
Range(3)
Low/high
M.TP
183-1B3
Standard
Deviation
ug/l
• *•
Confidence
Interval(4)
ug/t
w
*
Notts:
Data ecnpiltd primarily from ANL, 1990 and COM, 1991 except as noted in the text.
••* Cannot be calculated.
(1) Detection frequency » a/b
xhare:
a » Nunber of tines a compound uas detected
b « Total nunber of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or »R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Super-find: Hunan Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency uere used to determine mean, range,
standard deviation, and" confidence interval results.
(3) Range = the range of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
Page No. 1
GW.prg 12/26/90 10:21:44
TABLE 2 (continued)
TCAAP GROUND WATER ORGAN.C OF^SITE SAMPLE DATA STAT.STICS
Parameter
BROHOO 1 CHLOROHETHANE ....
CHLOROFORM . .
TOLUENE
METHTLENE CHLORIDE
1,1-DICHLOROETHANE
1,1-OICHLOROETNTLEHE
1,1,1-TRICHLOROETHANE ....
1,1,2-TRJCHLOROETHANE ....
1,2-OICHLOROETHANE
TRICHLOROETHTLENE
CIS-1 2-OlCHLOROETHrLENE .
XTLENE
TETRACHLOROETHTLENE
Detection
Frequencyd)
vu
1/14
1/U
2/14
14/15
13/15
10/14
7/15
6/14
15/15
10/13
1/14
7/14
Adjusted
Detection
Frequency(2)
1/14
1/14
1/14
2/14
14/15
13/15
10/14
7/15
6/14
15/15
10/13
1/14
7/14
Geonetric
Dean
ug/l
0.0925
0.0751
0.273
0.404
1.10
0.996
3.05
0.0778
0.0754
33.6
0.586
0.674
0.0682
Arithmetic
Mean
UB/I
0.404
0.409
6.44
0.641
1.80
1.42
6.21
0.418
0.410
43.0
1.25
0.843
0.403
Ran9e<3>
low/hi «h
0.11-0.11
Osn-o 10
6L-8A.
0 53-0 73
0.12-5 0
0.16-4.0
0.76-22
0.030-0.55
0.040-0 14
3.3-78
0.26-4.5
1.3-1.3
0.030-0.13
Standard
Deviation
us/I
0.888
0889
22 3
0 804
1 67
1.12
6.64
0.856
0.887
24.8
1.5«
0.733
0.889
Confidence
IntervaU4)
UB/I
0.917
Ow?
1C 3
1 10
2 73
2.04
10.0
0.892
0 922
56 7
2.21
1.26
0.917
Neti
" 199°
CD"'
txeipt - nottd fn
(1) Otttctfon frequency «e/b
utter*:
• « *u*er of tlM* a coapound MM detected
b » Total rufcor of saaplea tntad
C2> Adjusted detection fraquaney o»its saepl* ramitts that were apatfffad uitti
daaenbad in U.S. EPA. 1989. litk AaMuawit Guidanea for «.~>«...I.
(3) Ranga « tha ranaa of datactad valuaa.
<*) Th. 95 parent *p.r eonfldanc. tiarit I. caleulatad for th. ,««i,rd arror ^ th. .rith-tic
-------�
IADLC.
-------�
Page No. 1
GV.prg 03/25/91 09:54:51
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER ORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 4 AREA Z
TOLUENE
1,1-DICHlOROETHANE
1.1-DICHLOROETHYLENE
1,1,1-TRICHLOROETHANE ....
1.1,2-TRICHLOROETHANE
1,2-OICHLOROETHANE
TRICHLOROETKYLENE
PICHLOROETNENE, 1,2-
CIS-1 2-DICHLOROETMTLENE .
ACETONE
TETRACNLOROETHYLENE
BENZOIC AGIO
Detection
Frequencyd)
3/12
12/13
11/13
8/12
5/13
5/13
12/12
4/6
5/6
1/12
5/13
1/1
Adjusted
Detection
Frequency (2)
3/12
12/13
11/13
8/12
5/13
5/13
12/12
4/6
5/6
1/12
5/13
1/1
Geometric
Mean
ug/l
1.75
7.28
7.02
18.5
0.766
0.686
168
11.6
2.64
7.43
0.758
170
Arithmetic
Mean
ug/l
23.3
25.7
26.4
106
2.79
1.57
311
26.3
5.38
7.79
9.73
170
Range(3)
Lou/high
7.0-250
0.090-160
0.55-130
17-570
0.12-20
0.30-4.0
0.73-860
8.0-96
1.4-13
7.0-7.0
0.050-110
170-170
Standard
Deviation
ug/l
71.4
45.0
44.3
180
5.20
1.28
238
35.9
4.68
2.38
30.1
«••
Confidence
Interval (4)
ug/l
68.7
52.9
53.2
220
5.93
2.34
462
64.1
10.3
9.30
27.9
**•
Notes:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
*** Cannot be calculated.
(1} Detection frequency » a/b
where:
a * Nunber of tine* a compound was detected
b * Total number of samples tested
(25 Adjusted detection frequency onits sample results that were qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Superfund: Human Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washington, D.C.. EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range * the range of detected value*.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
Page No. 1
GU.prg 03/25/91 09:57:42
Parameter
TABLE 2 (continued)
TCAAP GROUND WATER INORGANIC OFF SITE SAMPLE DATA STATISTICS
UNIT 4 AREA Z
ALUMINUM
BARIUM
CALCIUM
MAGNESIUM
POTASSIUM
SODIUM
CHROMIUM
COPPER
IRON
LEAD
MANGANESE
NICKEL
ZINC
Detection
Frequency (1)
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
Adjusted
Detection
Frequency(2)
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
1/1
Geometric
Mean
ug/l
298
16.6
36500
23200
3510
7500
28.2
21.4
39400
31.8
232
26 9
2820
Arithmetic
Mean
ug/l
298
16 6
36500
23200
3510
7500
28 2
21.4
39400
31 8
232
26 9
2820
Range(3) Standard
LOM/high Deviation
ug/t
298-298 ***
17-17 ••»
36500-36500 ***
23200-23200 •**
3510-5510 ••*
7500-7500 ***
28-28 ***
21-21 ***
39400-39400 •**
32-32 ***
232-232 ***
27-27 **"
2820-2820 ***
Confidence
Interval (4)
ug/l
•**
*»*
•**
***
*»•
•*•
*•*
*•*
*•*
*•*
*••
**•
***
Notes:
Data compiled primarily from ANL, 1990 and COM, 1991 except as noted in the text.
*•• Cannot be calculated.
(1) Detection frequency * a/b
where:
a « Nudber of times a compound was detected
b * Total number of samples tested
(2) Adjusted detection frequency omits sample results that were qualified with the flags, "A" or "R" as
described in U.S. EPA, 1989. Risk Assessment Guidance for Supcrfund: Huamn Health Evaluation Manual,
Office of Emergency Response and Remedial Response, Interim Final, Washingtoo, D.C., EPA/540/1-89-002.
Only sample results included in the adjusted detection frequency were used to determine mean, range,
standard deviation, and confidence interval results.
(3) Range « the range of detected values.
(4) The 95 percent upper confidence limit is calculated for the standard error of the arithmetic mean.
-------�
TABLE 3
PARAMETER VALUES USED IN EXPOSURE DOSE CALCULATIONS
SOURCE: TCAAP GROUND WATER
SCENARIO: FUTURE ALTERNATE LAND USE - PROBABLE CASE
INGESTION
Child:
0 - 1
2-4
5-9
10-14
15-19
Adult
INHALATION
Child:
0-6
7- 18
Adult
DERMAL SORPTIOhT
Child:
0-6
7-12
13-17
Adult
Amount
Ingested
(L/day)
0.3071
0.743
0.861
1.02S
1.241
1.4
(m'/hr)'
0.8
1.1
0.6
(m2)
0.72
1.13
1.62
1.82
Body
Weight
7.3
13.3
22.5
37.9
60.1
70
14.2
41.3
70
14.2
29.8
51.7
70
Frequency
of Contact
(davs)
365
365
365
365
365
365
365
365
365
365
365
365
365
Duration of
Each Event
fhr/davr.
NA
NA
NA
NA
NA
NA
0.12C
0.12'
0.12°
0.12
0.12
0.12
0.12
Years of
Exposure
(TITS)
1
3
5
5
5
11
6
12
12
6
6
5
13
Notes:
The inhalation rales must be converted from m'/hr to L/minute for use in the shower model (Appendix E). To make the conversion, each
value must be multiplied by a factor of 914/60. The derivation of this factor is described in the text of Appendix C.
Calculation of exposure doses via dermal sorption also requires the use of permeability constants to determine how much of each chemical is
absorbed into the body. The use of permeability constants is discussed in Section II.C.2.
The value of 0.12 hours/day corresponds to 7 minutes/day.
-------�
TABLE 3 (continued)
PARAMETER VALUES USED IN EXPOSURE DOSE CALCULATIONS
SOURCE: TCAAP GROUND WATER
SCENARIO: FUTURE ALTERNATE LAND USB - REASONABLE MAXIMUM CASE
INGESTION
Child:
0-1
2-4
5-9
10-19
15-19
Adult
INHALATION
Child:
0-6 .
7-18
Adult
DERMAL SORPTION"
Child:
Adult
0-6
7-12
13-17
Amount
Ingested
fL/davl
0.396
0.787
0.898
1.060
1.280
2.0
(m'/hr)'
0.8
1.1
0.6
(m1)
0.726
1.13
1.62
1.82
Body
Weight
(kg)
7.3
13.3
22.5
37.9
60.1
70
14.2
41.3
70
14.2
29.8
51.7
70
Frequency
of Contact
(days)
365
365
365
365
365
365
365
365
365
365
365
365
365
Duration of
Each Event
fhr/davl
NA
NA
NA
NA
NA
NA
0.20°
0.20
0.20
0.20
0.20
0.20
0.20
Years of
Exposure
fvrsl
1
3
5
5
5
51
6
12
52
6
6
5
53
Notes:
a The inhalation rates must be converted from m'/rir to 4 minutes Tor use in the shower model (Appendix E). To make the conversion, each
value must be multiplied by a factor of 914/60.
b Calculation of exposure doses via dermal sorption also require the use of permeability constants to determine how much of each chemical is
absorbed into the body. The use of permeability constants is explained in Section II.C.2.
The value of 0.20 hours/day corresponds to 12 minutes/day.
-------�
TABLE 4-1
Compound*
Benzene
Chloroform
l,l-Dichtoroclh«ne
1,1-Dichloroelhcnc
1,2-Dichloroeihane
Trichloroclhcne
BM2-elhyttKxyi)phlhal*le
1,1-Dichloroelhane
1,1-Dkhloroeihene
Trichloroclhcne
l,l-l)ichloroeihane
I.l-Dichloroclhene
I.l,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Chloroform
Melhytene chloride
1,1-Dichloroelhane
1,1 Dichtoroelhene
1.1,2-Trichtoroelhane
1,2-Dichloroethane
Trkhlocoelhcne
Chloroform
I.l-Dichloroelhane
1,1 -Dichloroelhene
1,1,2-Trichloroelhane
1,2-Dichloroclhanc
Trichloroclbene
EXPOSURE VIA INCESTION OP OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE I AND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Exposure Dost fmt/ki/davl
EPA Weight Concentration
Of Evidence fmt/U
A
B2
C
C
B2
B2
B2
444E-04
392E-05
5.I6E-04
303E-04
I.90E4H
3.44&04
4JOB-03
Child
JtL
2.67E-07
2.36B-08
3IOE-07
1.8IB-07
1.I4B-07
2.07E-07
2.70E-06
Child
JLL
I06E-06
9.39E-08
123B-06
7.24E-07
4.54 E-07
8.23B4J7
1.08B-OS
Child Child
5-9 10-M
ARBAV
I.2IB-06 8.S7R07
I07E-07
14IE-06
829B-07
5.19B-07
9.43&07
1.23B-05
7.57E4J8
I60E-06
5 85 E-07
3.67E-07
6.64 E-07
8.7I&06
Child
15-19
6.55E417
5.78E-08
7.64 E-07
4.47E-07
2.80E-07
5.07E-07
6.64E-06
Lifetime Exposure Slope Factor
Adult Dose (me/kt/davl imi/kt/d»v)
139E4J6 S.45E-06 29E-02
I.23B-07
I.62IMM
9.S2B-07
5.97E-07
1 .0811-06
I.41B-05
48IE-07
6.93B-06
3.72E-06
2.33B-06
4.22E-06
5J3E4J5
6.1E-03
9IU-02
6E-OI
9.IB-42
I.IE-02
I.4E-02
A
B2
C
C
02
B2
B2
C
C
B2
C
C
C
112
B2
D2
B2
C
C
C
B2
B2
B2
C
C
C
02
D2
444E-04
392E-05
5.I6E-04
303B-04
|.90E-(M
3.44&04
4JOB-03
139E-03
2J8B-04
1.87E-03
I.I7P.-03
I.3IIJ-03
5.30I^OJ
5.0411-04
I.82E-D3
I.63B-03
I92E-03
6.0804)2
3.68B42
530E-02
2.64 B4)3
302B-OI
I06E-02
292E42
3.84 B4I2
108E-02
1 I1IJ-02
2.02E+00
ARHAW
836B-07 3.33B-06 3.80E-06 2.69B-06 205E-06 437E-06
I.56B-07 6.I7B-07 7.05E-07 4.99E47 38IE-07 8.HIM17
I 12E-06 4.46B4M SI1E-06 3.6IB06 2.79E-06 5.68R4)6
AR1!A X
7.03E-07 280E-06 3 20E-06 2 26E^)6 I 73I--06 368H-06
787E-07 3.I4E-06 3.58E-06 2.53E4I6 I.94E-06 4.I2E-06
3.I9H-06 1.27E-05 1.45&05 I.02E-05 7.79P.-06 1.67E-05
303E-07 I.2IE416 I.38E-06 9.70E-07 7.43E-07 1.59li-0fi
I.09E-06 4.37B-06 4.97E4K 33IE-06 2.69IMJ6 5.72E-06
3.20E-06
2.30B48
1.44 BflS
I.6IE-05
62UE-06
224E-05
9.1E-02
I.IU-02
9.115-02
6EOI
5.7E-02
9.IE-02
1 IIUI2
B2
B2
C
C
C
B2
B2
1.63B-03
I92E-03
6.08B-02
3.68B42
53011-02
264114)3
302B-OI
ARBAY
1 9.79E4J9 3.90E-06 446E4J6 3 15E4)6 241E-06 512114)6
I.ISE-06 4-59E-06 5.25E-06 3.71E4)6 2.83E-06 6.03E-06
3.66E-05 1.46E4M 1 66G4M I.I7C-04 9.00E4)5 I.92E4M
22IE4K B83E-05 I01E4M 7 11E4J5 54311-05 1 I6E4M
3 1911415 127E4M 1.4SE4M 102E-04 7.79E-05 1.67E4M
159114)6 630&D6 7.2IE4M 5 IOE-4J6 389E-06 8.30B-46
18IE4M 7.24E4M B.29B-04 SMB4M 4.46E4M 949E4M
20E-05
236E-05
7.48E-04
4J3B-04
6JIE4M
324E435
3.7IE4J3
6IE-03
73E-03
9.IE4)2
6E-OI
5.7E-02
9.IE-02
I.1B-02
B2
C
C
C
02
D2
1. 060-02
292E4J2
384E452
108E4)2
1 I1IJ4)2
2.02E+00
AREA 7.
637E4J6 2-54E-05 2901MJ5 2.05E-05 I.56D41S 333E415
I.76E415 699E-05 800E435 564E4J5 431E-05 9 18E435
230E415 92IE4H 1 05I14M 743E4H 566E415 1 21E4M
6.49E4K 2-58B415 2.95IM)S 2.09B-05 1.59EJB 339U-OS
667B-06 266E4)5 ).04B4)5 2 14E4B 1 6411415 3.49B-OS
1.2IE-03 484R-03 SJIB-03 3.89E4H 2.97B-03 6.33E-03
I.30E-04
3J9BJ34
4.72E-04
132E4M
I.36E4M
2.48D-02
6.IE-03
9.IE-02
6E-OI
S.7E4I2
9.IIU12
I.IE4)2
Upperbound Excess
Lifetime Cancer Risk
2E-07
2E-09
6E-07
2E-06
2E-07
Total Pathway
Tola! Pathway
Total Pathway
Total Pathway
8E-07
4E-06
21 (-06
2E-06
3I--Q7
4li4K
11-06
11-05
41 • (Ki
6E07
31 Ml?
2E-05
I E-07
2IM)7
7I>05
3E-04
3E-06
!!i«5
4E4H
8IHI7
31! 05
3IMM
1IM15
Total Pathway
6li-04
-------�
TABLE 4-2
EXPOSURE VIA INGESTION OF OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
CARCINOGENIC EFFECTS
Exposure Dose fmt/kg/davl
Compound!
Benzene
Chloroform
1,1 Dichlorocihane
1,1 Dichloroelhene
1,2-Dichloroelhane
'rrichloroclhcne
l)is(2-elhylhexyl)phlhalale
1,1-Dichloroelhane
I.l-Dichloroelhene
Trichtoroelhene
1,1-Dichloroethane
1,1-Dichloroelhene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Chloroform
Melhylcne chloride
1.1 Dichloroelhane
1.1.Dichlorotlhene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Chloroform
I.I Diihloroelhane
1.1 Dichloroelhcne
1.1.2 Tiichloroeihane
1,2 Dichloroelhane
Tru-hloroelhene
EPA Weigh!
of Evidence
A
D2
C
C
02
B2
112
Concentration
(me/I.)
l.tSB-03
5.3 IE OS
I.I6E03
6.49U-04
8.00E-05
52SB-04
6.0E-03
Child
iL
8.9IE-07
4271508
8.99E4)7
$.03I!-07
62011-08
4.07114)7
464E-06
Child
_M-
2.92E416
I.40E4)7
2.94E-06
I.65E-06
203E-07
1331:06
I52I--OS
Child
.12.
&
328E-06
I.57E07
3.3IE-06
1.R5E4M
2.28E07
I50E-06
I.7IE-05
Child
HM4
,RI!A V
2.30124)6
I.IOE4)7
2.3IE4K
1 JOB 06
I60E-07
105E-06
1.201; 05
Child
IS-I'J
t.HK-06
836l!4n
I.76E4K
9.86E4)7
I.21E-07
8.00U-07
9 HI: 06
Adult
2.3813-05
1 NE()fi
2.4 IE 05
I.35E4I5
1.6711-06
I.09I--OS
I.2SU04
l.ifclime li«p
-------�
TABLE 4-3
EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP (JROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
liiinosure DOM (mg/kt/dayl
Compounds
Benzene
Trichloroelhene
Chloroform
l,l-l)ichloroclhane
1,1 Dichloroelhene
1,2-Uichloroelhane
l)is(2-«ihylhe«yl)phlhalale
1,1-Dirhloroelhane
I.l-Dichloroelnene
Trichloroelhene
I.l-Dichloroelhane
l,I-l>ichloroelhenc
1,1.2-Trichloroelhane
1,2-Dichloroelhane
I'richloroelhene
Chloroform
Melhylene chloride
l,l-l)ichloroelhane
I, I -Oichloroelhene
1,1,2-Trichloroelhane
1,2-Dichloroelhanc
1'richlorocihcnc
Chloroform
I.l-Dirhlnroclhane
I, I -Dichloroclhene
1,1,2-Trichloroelhane
l,2-l)ichli>roelhane
Trichhiroelhene
I:PA Weight
of Evidence
A
112
112
C
C
112
B2
C
C
B2
C
C
C
B2
B2
112
112
C
C
C
112
02
112
C
C
C
112
112
Concentration
fmf/L>
4.44E04
3441:04
392114)5
5.I6E4M
3.03EO4
19011-04
4.50E4)3
1391:4)3
2.581104
1.87E4B
I.I 711-03
1.3IE-03
5.30E03
5.041:04
1821103
1.6311-03
I.V2I1-03
6081:02
36811-02
5.301:412
26411-03
302E-01
I06E02
29211-02
3841:02
1081! 02
1 111:02
2.0211 » 00
Child
Jt*_
259E-07
1.8111-06
207E-07
2.7111-06
1.59114)6
10011-06
1.17114)7
7.32114)6
1361:06
9.84 EO6
617114)6
691114)6
2791:05
26511-06
95811-06
t
8.5911-06
1.01114)5
3 211! 04
I.93E4M
2.79E-04
140E04
I.S9E413
5.58E415
I.54E4W
2.02E-04
5.691:4)5
584114)5
1.06E-02
Child
7-12
1.941107
1351:06
1.551:4)7
20311-06
1 191:06
7.49E07
8.8111-08
5.47E-06
1.02R-05
7.37E4)6
4.6IRO6
5.1611-06
2.081105
1 981:06
7.1711-06
7.3211-06
7.56114)6
23811-04
1.4511-04
2081:04
1.0411-05
1 1911-03
4.181:05
I.I5E-04
1521:04
4.251:05
4371:05
7.941:03
Child
13-17
ARUAV
1341107
9.291107
1.0611-04
1.401106
8.2111-07
51611-07
6.0311-08
ARIIAW
377E06
699EO7
5.08B4M
3T7E06
3.551:06
1441:05
1381:06
4.94E4I6
ARIiAY
4.42E-06
5211106
1.65E-04
1.00114)4
1.4411-04
7. 1611-06
8.I9E4M
ARI!A '/,
2.87E05
7.921105
1.051105
2931105
3.0211-05
5.48EO3
Adult
2.88114)7
2.0211416
229R-07
3031:06
I.77E06
11 11! 06
1.30E07
8.I3R-06
1501106
1.09114)5
6.84EO6
7.66R4I6
3.OTROS
2.95R06
I.06E4I5
9.54H06
I.I 21105
3.5611-04
2151104
3.09R4M
1.5411-05
I.77E4)3
6.2IRO5
1.70E05
225R05
6.231:4)5
649114)5
I.I7E02
Lifetime Exposure Slope Factor Upperbound Excess
Dose (me/ke/dav) (me/ke/dav) Lifetime Cancer Risk
8751:07
(ill 1:06
' 6981-07
9.I8E4K)
53611-06
33711-06
396E07
246E05
4.571J-06
3.32E05
2.031 i-05
23211-05
9.4IE05
8961106
3.23E415
289E05
3.4 IE-OS
10811-03
6.5411-04
9.411:04
4.7IJE-05
5.37E4J3
I.KIIE-04
5 181104
6821104
1.921:04
I.97IMH
3..58I102
291102
1.21102
6. IE 03
1.3EOI
6.5 EOI
I.3ROI
9.3R02
Total Palhway
1.3114)1
651101
I.2R02
Total Palhway
I3R-OI
65EOI
6.3E02
131! 01
I.2E4I2
Total Pathway
6.1R-03
7.511-03
1,31102
6.5E-OI
6.311-02
1.3R4I1
I.2R4J2
Total Palhway
6. IE 03
1.31:01
651:01
631:02
1.3E01
1.21 -02
Total Pathway
31:08
71108
41': W
11106
3EO6
41:07
411-08
411-06
31:06
3E-06
41:07
61106
3E06
2I--05
61:06
11:06
4E-07
311-05
2E-07
21107
IE-OS
4E-04
6E-05
61:416
fili-DS
5114)4
11:06
71:05
41:04
11105
31:05
4IMM
91 i-04
-------�
TABLE 4-4
EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE IJMD USE
RME CONDITIONS
CARCINOGENIC EFFECTS
Compounds
Benzene
Chloroform
1,1-Dichloroelhane
1,1-Dichlorocthene
1,2-Dichlofoeihane
Trichloroelhene
Bis(2-elhylhe«yl)phlharaie
1,1-Dirhlonxlhane
1,1-Dichloroclhene
Trichloroelhene
1,1-Dichloroelhane
1,1-Dichloroeihene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Tricnloroelhenc
Chloroform
1,1-Dichloroelhane
1,1-Dichloroelhenc
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Methylene chloride
Chloroform
1,1-Dichloroelhane
l,l-l)ichloioelhene
I,l.2-Trichloroelhane
1.2-Dichloroelhane
Trichloroelhene
EPA
Weigh! of
Evidence
A
R2
C
C
02
1)2
D2
C
C
B2
C
C
C
112
B2
B2
C
C
C
B2
B2
B2
B2
C
C
C
112
B2
Concentration
(mt/U
IISB03
S5IE-05
I.I6E-03
649E4M
800E-05
S.25U4M
6.00B4U
4.02E + 03
687B4W
4.30E4)3
2.71 E-03
3.4764)3
1.70B4)2
4 1011-04
7.00114)3
2.IOE-04
I.I9E-01
668114)2
1 48114)1
401E4U
469E-OI
1.90&03
400114)3
5.53E4I2
7.66C-02
1.43114)2
71)0114)3
3.02E400
Exposure Dose (mt/lct/davl
Child
JM.
Child
Jill
Child
Jil7
Adull
ARBAV
II3E-06
4.87E-07
1.031:05
5.74E4I6
7.08E-07
4651:06
2.63E-07
8.38G-07
3.61 E-07
76IE06
4.27E-06
525E-07
3451106
I.95E-07
S.76G417
2.491:4)7
5.25E-06
2.93H06
3 61 E-07
237E-06
I.34E4)7
5071--06
2181:06
4621:05
258E-05
3I8I--06
208I--05
1 I8E4M
ARRAW
3.S6E4B
6.09I--06
381E4I5
2.64E-05
4.SIG-06
283E05
1.82E4J5
3.121'. 06
I.94E-OS
1.591:4)4
274I:-05
I72E-04
ARRAX
2401:4)5
3.07E05
I.50E-04
3.62E-06
6.20E415
I.78E-05
2.29E-OS
I.IIE-04
2691:06
4.6011-05
1.231:05
I.57E4)5
7.69E415
1861:06
3.1715-05
1.U8E-04
I.38E-04
675E4M
I63E-05
278E-04
AREA Y
I.86E-06
I.05E-03
5.91E-04
131 1103
3.55E-05
4.ISE-03
1.68114)5
I.38E-06
7.8IE-04
4.3811-04
9.72E-04
263E4I5
3.08E-03
124E-05
9.46E4)7
5.38E4M
3.02E4M
669E04
I.82E-05
212114)3
8.60E4I6
8361:4)6
473U-03
265E-03
5281:4)3
I.59E-04
I.87E4)2
7.55E4)5
AR|!A 7f
3.54I!-05
4.89E-04
6 78 1! -04
1261:04
6.20E05
2.681:02
2.630-05
364E04
5.04E-(M
9.39IJ-05
4.60E-05
1.99E-02
I.82E4J5
2.50E4M
3.46U4M
6.4AIMIS
3I7IJ4)5
\. 361:4)2
1.59E-04
2.201:4)3
5.06E413
5681! 04
2781:4)4
1 191:01
Ijfelime l!«posure
Dose (mg/lce/dav>
76111,06
3.28114)6
4.93U-OS
583IM)5
4.7711-06
3.I2IJ-05
1.77E-06
2.39R-04
4.101^05
238D-04
I.62&O4
2.06H-04
1.01 E-03
2.44E-05
4.I8E-04
I.2SB-05
7.11114)3
3981:4)3
8.8411-03
2.37E4M
2 801! 02
113114)4
2.38IHM
3.291-4)3
488E-03
8.52I-4M
4 I7H4M
179E4II
Upperhuund
Slope l-'aclor linccss Lifetime
fme/ke/dayr ' Cancer Risk
2.91:02
611:03
1.31:01
651=01
I3E4)I
121:02
9.3E4J2
Tola! Pathway
I3E-01
6SI-OI
I2E4)2
Tola) Pathway
1.3E4JI
651:4)1
631:4)2
13E4JI
12124)2
Tola) Pathway
611:4)3
I.3E411
6.SE-OI
6.3E-02
I.3lv0l
I2li4)2
7m03
Total Pathway
6.11-4)3
131:4)1
6.5E41I
6.3IJ-02
1. 311-01
1.21:4)2
Toial Pathway
2E07
21:08
91:06
41:05
6E-07
4E-07
21:07
SE05
31:05
31:05
31:06
6E-05
2B-OS
IE-04
6E05
3I--06
5E-06
2E4M
8E-08
91? 04
3E413
6E-04
3E415
3U-04
81:417
4E413
IE4K
41:04
3114)3
5E05
51:4)5
21:03
61:4)3
-------�
TABLE 4-5
EXPOSURE VIA INHALATION OP VOLAT1LES FROM OFF-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Comoound*
Benzene
Chlorofonn
1,1-Dkhloroelhene
1,2-Dlchtoroelhane
Trichloroelhene
1,1-Dkhloroelhene
TricMoroethene
ETA
Wei|hl of
Evidence
A
B2
C
B2
B2
C
B2
Exposure Dote fmt/kt/dav)
Concentration
fut/U
4.44&OI
3.92B4I
303B-OI
I.90&OI
3.44E-OI
2J8E-01
I.87B+00
Child
M.
1.01B46
968B4T7
8.I8B47
4-52E-07
8J6B-07
6%E-07
4.66&06
Child
7-U
4.80E-07
9.17B4T7
7.7S&07
427E-07
8.I1B-07
6.60B-07
4.41BM16
AduJ(
AREAV
IJ4E-07
2.95B4)7
249M7
138E-07
2.6IB47
ARBAW
2.I2E-07
1.42B-06
1,1-Dkhloroelhene
1,1.2-Tfkhloroelhane
1,2-Dkhloroelnine
Trichloroelhene
C
C
B2
B2
I3IE+00
530B400
504E-OI
IJ2BtOO
3JIE46
1 I6E-05
120E-06
4J3B-06
335E-06
1.09E4S
I.I3B-06
4.30B-06
ARHAX
1.08E-06
3^IE-06
366R-07
1J8E-06
Chlorofonn
Melhylene chloride
1,1-Dkhloroelhene
1,1,2-Trichloroeihine
1,2-Dichkuoelhine
Trkhloroethcne
B2
B2
C
C
B2
B2
1.63B+00
I92E+00
3.68B-01
S.30B+OI
2 ME +00
302B+02
4.03B-06
, 4.74B46
9.93B4T7
1.I6B-04
628B-06
7J2B44
3.8HWH
S.OOB-06
9.42B47
I.09B-04
194B46
7.I3R4M
AREAY
I.23B46
160E-06
3.02B4I7
3JIB4K
1.92&06
2.29&04
Chlorofonn
1,1-Dichloroclhene
1,1,2-Trichtoroelhane
1,2-Dichtoroclhanc
Trichtoroelhene
B2
C
C
B2
B2
I06E+01
3.84B+OI
IMEtOI
IIIE»OI
202Bt03
262E-05
I.MB44
237B-OS
2.64B-QS
5.03B-03
2.48B45
9.83B-OS
222E-05
2.50B-05
4.77E-03
AREAZ
7.98E-06
3I6B45
7.15B-06
8.07B46
1J3B-03
Lifetime Exposure
Dose {mc/tar/div)
I.64&46
2I8E-06
1.84B-06
I02E-06
I93E-06
U7E-06
I.05E-05
7.94IMK
260E-OS
2.70Bfl6
1.02B-OS
907E-06
1 I3E-05
2.24&4M
2.60B4M
I.4IB-OS
I.69E-03
5.90B-05
234IWM
5.3IB4U
S.9SE4H
I.I3E-02
Slope Factor Upperbound Excess
fmc/kc/divr1 Ufelimc Cancer Riik
2.9B42
8.1&42
12E + 00
91B-02
I.7EXI2
ToUl Ptlhmy
I2E»00
1.7E-02
Toul Pathway
1.2BiOO
5.7E-02
9.IB-02
I.7E-02
Total Pathway
8.IE-02
I.4B-02
l.2EiOO
5.7B«2
9.1E-02
I.7E-02
ToUl Pathway
81E-02
12E + 00
S.7B«2
9.IIMJ2
I.7E-02
Total Pathway
5E-08
2B-07
2&fl6
9B-«8
jB4»
2E-06
2E46
2.E-07
2E-06
I&05
2B-06
3IW7
2B-Q7
iaos
7E-fl7
2B-07
3&06
2E4»
IE-06
3B-05
5E-05
5B-06
3&04
3B-06
5IM»6
?B4M
SIMM
-------�
TABLE 4-6
EXPOSURE VIA INHALATION OF VOLATILES FROM OFF-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
RME CONDITIONS
CARCINOGENIC ERECTS
Exposure Dose (mt/li£/davl
Compounds
lieniene
Chloroform
1,1-Dichtoroelhene
1,2-Dichloroelhane
Trichloroelhene
1,1-Dkhtoroelhcne
Trichtoroelhcnc
I.l-Dichloroethene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Chloroform
Methylene chloride
I.l-Dichloroelhene
1. 1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Chloroform
1,1-Dichloroclhcnc
1.1,2-Trichloroclhanc
1,2-Dichloroelhane
Trichloroelhene
EPA Weight
of Evidence
A
B2
C
B2
B2
C
B2
C
C
B2
B2
B2
B2
C
C
B2
B2
B2
C
C
B2
1)2
Concentration
fur/1.)
1 I5E + 00
551E4I2
6.49E4H
8.00E4I2
5.25E4I1
6.87E4)!
4 JOE + 00
3.47E+00
1.7B + 01
4.IE4)!
7.00E + 00
2.IOE4)!
I.9UE + 00
6 681! + 01
14811+02
4.01 E + 00
469E + 02
4.001! + 00
7.66E + OI
1431! + 01
700E + 00
30211 + 03
Child
$
4.981:04
7.46E4)$
4001-4)5
1.8IE412
Child
7-18 Adult
ARliA V
1. 481! 06 4.761-4)7
3.IOE-U7 4.311:4)7
3.9811-06 5.561! 06
4.3 II! 07 6.021! (17
2.971:4)6 4.I5E06
ARUA W
4.2IE-06 S.89E-06
2.43E-05 3.40E4B
ARliA X
2.I3E-05 2.97E4)$
8.3BE4U I.I7E-04
2.2 II! 06 3.09E-06
3.96E-0$ 5.53E4)5
ARliA V
1 181-06 1651-06
I.I9E-05 I.65E4B
4.09E-04 5.72E4M
7.30E-04 I.02E4I3
2.I6E4M 3021-0$
2.65E-03 3.71154)3
ARRAZ
2.251MB 3141:05
4.70I14M 6$6E04
7.05E-OS 9.851:4)5
3.771:4)5 5 27E4W
1.711-4)2 2.3!)E4)2
Lifetime Exposure
DIISC (mu/ke/dav)
5 081! (16
1.071:4)6
1381:4)5
1491-4)6
l.t)3U-OS
146P:4)5
8.4IE-05
736E-05
205
21! 05
7E-07
21-416
II-4M
3I:-07
61! 07
21:4)3
11:04
7I--06
21:4)4
2E4)3
61:4)6
21:03
IE-05
11-4)3
11:03
4IMI3
-------�
TABLE 4-7
EXPOSURE VIA INC.I1STION OF OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EI-TECTS
Page I of 2
l-KposuTe Dost frne/kg/dav)
Compounds
Carbon Tclrachloride
Chloroform
Melhylcne Chloride
1,1 Pichloroclhane
1,1-Oichloroelhene
1.1,2-Trirhloroelhane
Trichloroelhene
1'clrachluroelhene
Bis(2-elhylhexyl)phlhalafe
EPA Weight
of Evidence
02
02
02
C
C
C
02
02
02
Concentration
fmR/U
1. 0311-04
2.73E4K
4.I5E-04
247I--03
I.I9E-03
4.181105
2.44E-02
568E4K
3.00E-03
Child
6. 1911-08
1641:4)8
25011-07
1491106
7I4E-07
25111-08
I.47E-05
3411:08
1801:4)6
Child
2.4M1-07
6561:4)8
99411-07
5.9113-06
2.85E06
IOOli-07
5.831 !-05
1. 3611 07
7.20E4M
Child
AR
2811-07
7.43I!-08
1. 141-4)6
6.75E-06
3.25E4)6
1 1411-07
6.67114)5
1.55E4)7
8.21 E-06
Child
10-14
I!A W
1.991107
5.27E-08
8001107
4.T7t;4W
2301106
8.0711-08
4.7IE-05
1. 101! 07
S.79E4I6
Child
15-19
1.5211-07
4031:4)8
6. 121:07
36411-06
I.76E-06
6.I6E08
3601105
8.36E-08
442114)6
Adult
3.24IMI7
8.5811418
1.30E-06
776E416
3.741106
1.3IE4)7
7.6711-05
1.79E4)7
9.43114)6
Lifetime Exposure
Dose (mt/ke/dav>
1.261106
3.3511-07
5.10114)6
2.56E-05
I46E05
5.I2I--07
3.00E4M
6.97E-07
3.69E4I5
Slo|>e l;aclor
tuiE/kg/davl'1
131101
6.11:03
7.51:03
9.1E-02
6.011-01
571-02
I.I 11-02
5. 111-02
1.4114)2
Total
Uppeibound Excess
Lifetime Cancer Risk
21-4)7
211-09
4114)8
211-06
9E-06
31:08
31! 06
411-08
5E-07
Pathway 211-05
Denzene
Chloroform
1,1-Dichlorocthanc
1,1-Dichioroethene
1,1,2-Trichloroelhane
Trichloroelhene
Uis(2-elhylheiryl)phlhalalc
Telrachloroclhene
nromodichloromelhane
Chloroform
Melhylcne Chloride
I.l-Dichlorocthane
1,1-Dichloroelhene
1.1,2-Trichloroelhane
l,2-l)icliloroelhane
Trichloroelhene
Telrachloroelhene
ARRAX
A
02
C
C
C
02
02
02
1 I7E4M
3 5611-05 .
2.88114)4
1.7IE-04
3.60114)5
3.61 E4)3
6801102
1.79E4M '
7.0.1IMM
2 141:08
1731107
1.0311-07
2.I6EO8
21711-06
409114)5
1081:4)7
280E-07
853I--08
690E-07
40911-07
8.6111-08
8.6611-06
I.63E-04
4.29E4I7
3.19114)7
9711:4)8
7.86li4)7
4.67E417
9 861! 08
9 861! 06
I.86E-04
4.89E4)7
2.26E-07
6.88I14H
5.5611-07
3.30114)7
6.%I14»
6.97114)6
1.31114)4
3.46114)7
I73E-07
5251:08
425114)7
2.52E07
5.31114)8
S.3211-06
IOOE04
2.64E07
368E-07
1.1211-07
9.05E-07
S.37E4)7
1.1311-07
1.I3E415
2.I4E-04
5.63E4)7
1.4411-06
4.37114)7
3.54EO6
210114)6
442E-07
4.43114)5
8.35E-04
2.20B4M
2.9E-02
6.111-03
9.111-02
601:01
5.71102
1. 111-02
1.411-02
5.1E412
ARI!A Y
02
02
02
C
C
C
02
02
112
404E-04
4.09E4M
6.41E4M
1.80114)3
I.42E4)3
4I8E-04
4.IOE-04
4.30E4I2
40311-04
243114)7
2.46E-07
3.86114)7
10811-06
85311-07
25IE417
2.46114)7
2.59E-05
2.4 Hi 07
969E-07
9.77114)7
I.53E06
4.33E-06
3.40E4)6
1001! 06
9.8IE-07
10311-04
964I--07
111114)6
1121:06
1.751106
4.92E416
3.B8E4B
1.141:4)6
1 12114)6
1.181:04
1.101:4)6
7.79114)7
79311-07
1.24U4M
3.4811-06
274114)6
8.07P.4)7
7.93E4)7
8.2911-05
7.79114)7
5%E-07
604E-07
943E07
2661106
2.09E-06
6.I6E07
6.05114)7
63411-05
5.9411-07
1.27E06
I.29E4M
2 01 1! 06
5 W.I! 06
4 461! 06
1311106
I.29E-06
1.35114)4
1.27114)6
4.97E-06
5.03E-06
7.86E4)6
2.21114)5
1. 7411-05
5.12114)6
5.04114)6
S28I14M
4.951:4)6
1.311-01
611-4)3
7ili-03
9.11102
6.01:01
5.711-02
911-02
1 11102
5.1114)2
Total Pathway
Total Pathway
4I--08
21-4)9
31:07
11:06
3I--08
ll>05
lli-07
8E-05
611-07
311-08
6I'.-08
2E4)6
115-05
6l-:t)6
31:07
21:05
-------�
TABLE 4-7 (continued)
EXPOSURE VIA INGESnON OP OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Page 2 of 2
Compound*
1,1-Dichloroclhanc
M-Dichknoethenc
l.U-Trichtoroelhtne
1,2-Dichlofoellune
Tikhloroelbene
Tclnchtoroclhene
EPA Weight Concentration
of Evidence fmi/1,1
C
C
C
B2
B2
B2
2J7E-02
2.64O42
2.67R03
137B43
3IIB-01
9.73B4)
ChiM
0-1
1.54&45
U9E-05
1.67E46
9.43B47
I.B7E44
5.84B46
ChiM
1±
6.17B-OS
6.30B4S
6.69B4M
3.76&06
7.46&04
2.33BOS
Child Child
5-9 10-14
ARBAZ
702&OS
721BOJ
7.64B46
4.29E46
BJOE4M
2.66&OS
4.96E-QS
S.IO&05
5.39E-06
3.04B06
6.01&04
1J8&OS
ChiM
IS-19
3.79B4S
389E-05
4.I1E46
2.3I&06
459&04
I.44&OS
Lifelime Eipocurt Slope Factor Upperbound Eicei*
Adull Dent rm«/lit/d«v^ rm»/k«/dav>' ' Lifelime Cancer Ritk
8.08&OS
B30B-OS
8.77B46
4.93B46
9.77&04 •
3.06&OS
3.16&04
3.24B4M
3.43&OS
I93E-05
3.82&03
1JOE-04
9.1B02
6.0E41
S.7B42
9.IR-02
I.I&02
S.IE«2
Toul Pithwiy
3B4H
2&04
2&06
2E-06
4B4»
61^)6
3&04
-------�
TABLE 4-8
EXPOSURE VIA INCiRSTION OF OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE L/VND USE
RMH CONDITIONS
CARCINOGENIC EFFECTS
Page 1 of 2
Exposure Dose (me/kg/dayl
Compounds
Carbon Tclrachloride
Chloroform
Mclhylcne Chloride
1,1-Uichloroelhane
1,1-Dichloroelhene
1,1.2-Trichloroclhane
Trichloroelhene
Telrachloroelhene
Bis(2~elhylhe*yl)prilhaUfe
Ucn/enc
Chloroform
1,1-Dichloroelhane
1,1-Dichloroelhcne
1,1.2-Trichloroelhane
Trichloroelhene
Tetrachloroelhene
Bis(2-elhylhexyl)phlhalale
Bromodichloromelhane
Chloroform
Melhylcne Chloride
,1-Dichloroelhane
,1-Dichloroelhcne
,1,2-Trichloroelhane
,2-l)ichloroelhane
Yiehlorocthenc
Telrachloroclticne
BPA Weigh! Concentration Child
of Evidence
-------�
TABLE 4-8 (continued)
EXPOSURE VIA INGESTION OP OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
CARCINOGENIC EFFECTS
Page 2 of 2
Compound!
1,1-DicbloroelKane
1,1-Dichloroelhene
1,1,2-Trktiloroellune
1,2-DkhloroelhiiK
Trichloroethcnc
Telncbloroethcne
Eroocurt DOM fniff/kc/oivi
EPA Weljht Concenlntk
of Evince (mt/U
C
C
C
B2
B2
B2
/ •-
I.29B02
5.32B-02
J.93E-03
2.34 B-03
462E-01
2.79E-02
jo Child
. iL
1.
4.10E-05
4.I3E4M
4.M&46
l.SIE-06
3J9E-04
2.16B-05
Child
iL
1 .348-04
1.35B-04
1 JOB-OS
59IE-06
1.I7E-03
7.07B4B
Child Child
•:. fe
ARHAZ
IJIE-04
1J1E-04
1.69E-OS
6.67E-4K
1.3IE-03
7.93E-OS
1.06B04
I.06E4M
I.I9&06
467E-06
92IE-04
SJ7B4M
Child
15-19
8.07B-Q5
8.07B-05
900&fl6
336&06
7.03E-04
4.24B-OS
Adull
I.IOE-03
1I1E-03
I23E04
4.87B-OS
9.62E-03
S.B1&04
Lifetime Exposure Slope Piclor
l)o«c (mt/kt/dtv)
16IB03
I.62BD3
180IWM
7.13E-05
141&02
9.IB42
6.0&OI
5.7B42
9.1&02
\.\EMl
5.IE-02
Uppeibound Exccu
Lifelime C«ncer Risk
2B44
1B-03
HWtt
7&06
2E-04
Total Pathwiy IE-03
-------�
TABLE 4-9
EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USB
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Page 1 of 2
Compounds
Carbon Tetrachloride
Chloroform
Methylcnc Chloride
1,1-Dichloroethane
1,1-Dichlorocthcnc
1,1,2-Trichloroelhane
Trichlorocthene
Telrachloroelhene
Bis(2-ethylhexyl)phthalate
Benzene
Chloroform
1,1-Dichloroethane
1,1-Dichloroethene
1,1,2-Trichloroethane
Trichlorocthene
Tetrachloroethene
Bis(2-ethylhexyt)phthalatc
EPA
Weight of
Evidence
B2
B2
B2
C
C
C
B2
B2
B2
Exposure Dose fmc/kc/davl
Concentratio
(mg/L)
1.03E-04
2.73E-05
4.15E-04
2.47E-03
1.19E-03
4.18E-05
2.44E-02
5.68E-05
3.00E-03
n Child
Jfcfi
5.42E-07
1.44E-07
2.18E-06
1.30E-05
6.26E-06
2.20E-07
1.29E-04
2.99E-07
7.81E-08
Child Child
7-12 13-17
AREAW
4.05E-07
1.08E-07
2.06E-07
9.73E-06
4.68E-06
1.64E-07
9.61 E-05
2.23E-07
5.84E-08
2.79E-07
7.40E-08
1.13E-06
6.70E-06
3.23E-06
1.13E-07
6.61 E-05
1.54E-07
4.03E-08
AM
6.02E-07
1.59E-07
2.44E-06
1.45E-05
6.70E-06
2.43E-07
1.43E-04
3.33E-07
8.69E-08
Lifetime Upperbound
Exposure Dose Slope Factor Excess Lifetime
(mg/ky/day) fmit/ke/davV1 Cancer Risk
1.82E-06
4.85E-07
7.37E-06
4.39E-05
2.11E-05
7.40E-07
5.77E-04
1.01E-06
2.63E-07
1.6E-01
6.1E-03
7.5E-03
1.3E-01
6.5E-02
6.3E-02
1.2E-02
5.7E-02
9.3E-02
Total Pathway
3E-07
3E-09
6E-08
6E-06
1E-06
5E-08
7E-06
6E-08
2E-08
1E-05
AREAX
A
B2
C
C
C
B2
B2
B2
1.17E-04
3.56E-05
2.88E-04
1.71E-04
3.60E-05
3.61E-03
1.79E-04
6.80E-02
6.82E-08
J.87E-07
1.52E-06
9.00E-07
1.89E-07
1.91 E-05
9.43E-07
1.78E-06
4.70E-08
1.40E-07
1.14E-06
6.73E-07
1.41E-07
1.41E-OS
7.06E-07
U3E-06
3.24E-08
9.65E08
7.81E-07
4.63E-07
9.73E-08
9.83B-06
4.85E-07
9.13E-07
6.98E-08
2.08E-07
1.69E-06
l.OOE-06
2.11E-07
2.11 E-05
1.05E-06
1.98E-06
2.17E-07
6.21E-07
5.11E-06
3.03E-06
6.39E-07
6.44E-05
3.18E-06
6.00E-06
2.9E-02
6.1E-03
1.3E-01
6.5E-02
6.3E-02
1.2E-02
5.7E-02
9.3E-02
Total Pathway
6E-09
4E09
7E-07
2E-07
4E-08
8E-07
2E-07
6E-07
3E-06
-------�
TABLE 4-9 (continued)
EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Page 2 of 2
Compounds
Bromodichloromcthane
Chloroform
Melhytene Chloride
1,1-Dichloroelhane
1,1-Dichloroclhenc
1,1,2-Trichloroethane
1,2-Dichlorelhane
Trichlorocthcne
Telrachloroelhene
EPA
Weight of
Evidence
B2
B2
B2
C
C
C
B2
B2
B2
Exposure Dose f maVkn/dav)
Concentration
(me/Li
4.04E-O4
4.09E-04
6.41E-04
1.80E-03
1.42E-03
4.18E-04
4.10E-04
4.30E-02
4.03E-04
Child
JHt
2.13E-06
2.16E-06
3.37E-06
9.48E-06
7.47E-06
2.20E-06
2.16E-06
2.26E-04
2.12E-06
Child Child
7-12 1H1 AdjjJi
AREAY
1.59E-06
1.62E06
2.53E-06
7.08E-06
5.59E-06
1.64E-06
1.62E-06
1.70E-04
1.59E-06
1.10E-06
1.11E-06
1.74E-06
4.87E-06
3.85E-06
1.14E-06
1.11E-06
1.16E-04
1.01E-06
2.37E-06
2.39E-06
3.74E-06
1.05E-05
8.29E-06
2.44E-06
2.39E-06
2.51E-OS
2.37E-06
Lifetime
Exposure Dose
fmg/kg/dayi
7.20E-06
7.26E-06
1.14E-05
3.19E-05
2.51 E4)5
7.41E-06
7.26E-06
5J7E-04
7.17E-06
Slope Factor
(mg/kg/day)'
1.4E-01
6.1E-03
7.5E-03
1.3E-01
6.SE-01
6.3E-02
13E-01
1.2E-02
5.7E-02
Upperbouod
Excess Lifetime
Cancer Risk
IE-06
4E-08
9E-08
4E-06
2E-05
5E-07
9E-07
6E-06
4EJH
Total Pathway 3E-05
1,1-Dichloroelhane
1,1-Dichloroethcne
1,1,2-Trichloroetbane
1,2-Dichloroelhane
Trichloroclhcac
Tetrachloroelhene
C
C
C
B2
B2
B2
2.57E-02
2.64E-02
2.79E-03
1.57E-03
3.11E-01
9.73E-03
1.3SE-04
1.40E-04
1.48E-05
8.27E-06
1.63E-03
5.13E-05
1.01E-04
1.04E-04
1.10E-OS
6.19E-06
1.22E-03
3.83E-OS
6.97E-05
7.I6E-05
7.56E-06
4.25E-06
8.4SE-04
2.64E-05
l.SOE-04
1.54E-04
1.63E-OS
9.19E-06
1.82E-03
5.69E-05
456E-04
4.70E-04
4.96E-OS
2.79E-05
5.52E-03
1.72E-04
IJE-01 6E-05
6.5E-02 3E-05
63E-02 3E-06
1.3B-01 4E-06
1.2E-02 7E-05
5.7E-02 IE-OS
Total Pathway 2E-04
-------�
TABLE 4-10
EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
CARCINOGENIC EFFECTS
Page 1 of 2
Compounds
Carbon Tetrachloride
Chloroform
Melhylcne Chloride
1,1-Dichloroclhane
1,1-Dichloroethene
1,1,2-Trichloroe thane
Trichloroelhene
Telrachlorocthcne
Bis(2-e(hylhexyl)ph(hala(e
EPA
Weight of
Evidence
B2
B2
B2
C
C
C
82
B2
B2
Exnosure Dose (me/ke/dav)
Concentration
fme/U
1.98E-04
3.23E-05
6.82E-04
7.30E-03
3.21 E-03
9.89E-05
6.68E-02
1.20E-04
3.00E-03
Child
04
1.75E-06
2.85E-07
6.03E-06
6.46E-05
2.84E-05
8.75E-07
5.91 E-04
1.06E-06
1.53E-06
Child Child
7-12 13-17
AREAW
1.30E06
2.12E07
4.10E-06
4.80E-05
2.1 IE 05
6.49E-07
4.38E-04
7.88E-07
1.14E-06
8.95E-07
I.46E-07
3.08E-U6
3.30E-05
1.45E-05
4.47E-07
3.02E-04
5.43E-07
9.38E-07
Adult
7.88E-06
I.28E-06
2.71 E 05
2.90E-04
1.28E-04
3.93E-06
2.65E-03
4.77E-06
7.75E-07
AREAX
Benzene
Chloroform
1,1-Dichloroclhane
1,1-Dichloroclhene
1,1,2-Trichloroelhane
Trichloroelhene
Tetrachloroclhenc
Bis(2-ethylhexyl)phlhalale
A
B2
C
C
C
B2
B2
B2
1.59E-04
5.I8E-05
5.22E-04
2.97E-04
6.71E-05
6.09E-03
5.36E-04
6.80E-02
1.56E-07
4.58E-07
4.62E-06
2.63E-06
5.95E-07
5.39E-05
4.73E-06
3.48E-05
1.16E07
3.40E-07
3.43E-06
1.94E-06
4.41E-07
3.99E05
3.52E06
2.58E-05
8.00E-08
2.35E-07
2.36E-06
1.34E-06
3.03E-07
2.75E-05
2.42E-06
2.13E-05
7.02E-07
2.06E-06
2.07E-05
1.19E-05
2.66E-06
2.42E-04
2.13E-05
1.77E-05
Lifetime Upperhound
Exposure Dose Slope Factor Excess Lifetime
(nip/kg/day) (mg/kg/dav)1 Cancer Risk
1.18E-05 1.6E01 2E-06
1.92E-06 6.1 E-03 1E-08
4.07E-05 7.5E03 3E 07
4.36E-04 1.3E-01 6E 05
5.66E-05 6.5E01 4E-05
5.90E-06 6.3E-02 4E 07
3.98E03 1.2E-02 5E-05
7.16E-06 5.7E-02 412-07
4.38E-06 9.3E-02 4E-07
Total Pathway 2E-04
1.05E-06 2.9E-02 3E-08
3.08E-06 6.1 E-03 2E-08
3.11E-05 1.3E-01 4E-06
1.77E-05 6.5E-01 IE-OS
4.00E-06 6.3E-02 3E-07
3.63E-04 1.2E-02 4E-06
3.19E-05 5.7E-02 2E-06
9.94E-06 9.3E02 9E-07
Total Pathway 2E-05
-------�
TABLE 4-10 (continued)
EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE IAND USE
REASONABLE MAXIMUM EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Page 2 of 2
Compounds
Bromodichloromethane
Chloroform
Methylene Chloride
1,1-Dichloroclhane
1,1-Dichloroethene
1,1,2-Trichloroelhane
1,2-Dichlorclhaoc
Trichloroelhcne
Tetrachloroelhene
l,l-Dichloroc(hane
1,1 -Dichloroet hene
1,1,2-Trichloroclbane
1,2-Dichlorocthanc
Trichloroclhene
TclrachloroethcDC
EPA
Weight of Concentration Child
Evidence fmy/Li
Exposure Dose (mg/kg/dav^
82
B2
B2
C
C
C
B2
B2
B2
1.10E44
3.00E-04
7.30B-04
2.73E-03
2.04E-03
5.50E-04
1.40E-04
S.67E-02
1.30E-04
9.73E-07
2.65E-06
6.46E-06
2.41E-05
1.81E-05
4.87E-06
1.24E-06
S.02E-04
1.15E-06
C
C
C
B2
B2
B2
5.29E-02
5.32E-02
5.93E-03
2.34E-03
4.62E-01
2.79E-02
Child
Jtf
Child
JJ2
Child
Iil2
AM
AREA Y
9.73E-07
2.65E-06
6.46E-06
2.41E-05
1.81E-05
4.87E-06
1.24E-06
S.02E-04
1.15E-06
4.68E-O4
4.71E-04
5.25E-05
2.07E-05
4.09E-03
2.46E-04
7.22E-07
1.97E-06
4.80E-06
1.79E-05
1.34E-OS
3.61 E-06
9.19E-07
3.72E-04
8.S3E-07
AJ
3.47E-04
3.50E-04
3.90E-05
154E-05
3.03E-03
1.83E-04
4.97E-07
1J5E-06
3.30E-06
1.24E-07
9.20E-06
2.49E-06
6.33E-07
2.56E-04
5.88E-07
ygA_z
239E-04
2.41E-04
2.68E-OS
1.06E-OS
2.10E-03
1.26E-04
4.38E-06
1.19E-05
2.90E-05
1.09E-04
5.59E-05
2.18E-05
5.57E-06
2.26E-03
5.17E-06
2.11E-03
2.11E-03
2.36E-04
9.30E-05
1.83E-02
1.11E-04
Lifetime Uppcrbound
Exposure Dose Slope Factor Excess Lifetime
{m?/ke/dav) fme/ke/davY1 Cancer Risk
6.57E-06
1.78E-OS
4.36E-05
1.63E-04
9.64E4B
3.27E-05
8J6E-06
3.40E-03
7.76E-06
3.17E-03
3.17E-03
3.55E-04
1.40E-04
2.75E-02
1.65E-03
1.4E-01
6.1E-03
7.5E-03
1.3E-01
6.5E-01
6.3E-02
13E-01
1.2E-02
5.7E-02
Total Pathway
13E-01
6.SE-01
63E-02
1.3E-01
1.2E-02
5.7E-02
9E-07
\E-ffJ
3E-O1
2E-05
6E-05
2E-06
1E-06
4E-OS
4£JQ
1E-04
4E-04
2B-03
2E-05
2E4)5
3E-04
9E-05
Total Pathway 3E4I3
-------�
TABLE 4-11
EXPOSURE VIA INHALATION OF VOLATILE FROM OFF-TCAAP GROUND-WATER DURING SHOWERING (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
CARCINOGENIC EFFECTS
Compounds
Chloroform /
Melhylepe chloride
1,1-Dichloroelhene
l,l,2-l'richloroelhane
Trichloroclhenc
Tctrachloroelhcne
Benzene
Chloroform
1,1-Dichloroclhcne
1,1,2-Trichloroelhane
1'richloroelhene
1'elrachloroelhene
Chloroform
Melhylene chloride
1,1 -Dichloroclhene
1, 1,2-Trichloroethane
1.2-Dichlorocthane
1'richloroeihene
1'eirachloroeihene
1,1-Dichloroelhene
1. 1,2-Trichloroelhane
1.2-Dichloroelhane
'1'richloroelhene
1'elrachloroelhene
RPA Weight
of Evidence
B2
B2
C
C
02
B2
A
B2
C
C
B2
B2
B2
B2
C
C
1)2
B2
B2
C
C
B2
1)2
B2
Concentration
(UE/U
2.73E-02
4.ISE-OI !
LI9EtOO
4.I8E-02
2.44E401
5.68E-02
1.17E-OI
3.56E-02
I.17E-OI
3.60E42
36lfitOO
I.79E-OI
4.09E4H
64IE4I
I42K + 00
4.IBE-OI
4 IOE-01
4.30E40I
4.03E-OI
2.64E+OI
2.67E400
I.S7E4UU
3.IIE + 02
9.73E + 00
Child
0-6
4 6.74E-08
'* 1.14E-06
3.2IE-06
9.15E-08
6.08E-05
I.3IE-07
3.89E-07
8.79E-08
3ISE-07
7.88E-08
8.99B-06
4IIE-07
I.OIE06
I.76E-06
1 383E-06
9.1SE-07
9.75E-07
I.07G-04
9.26E-07
7.I3E-05
S.85E-H6
3.74E-06
7.74E-04
2.24B-05
Child
7-18 Adult
ARBAW
._ 6.38P.-08 Jj 2.0SE-08
IO8E-06" 3.45E-07
305E05 9.78&07
8.6IE08 2.76E-08
5.76E-OS 1.85E-05
I.23E-07 3.98E-08
ARBAX
I.84E-07 5.9IR-08
833E-08 268E-08
2.99E-07 9.61 E-08
7.4IE-08 2.38E-08
8.52E-06 2.74E-06
3.90E-07 I.2SE-07
ARUAY
9.57E-07 3.07E-07
1.67E-06 5.33E-07
3.64E-06 I.I7E-06
8.6IP.-07 2.76B-07
9.22E-07 2.98E-07
IOIU-04 3.26E-05
8.78E-07 2.82&07
AREA 7.
6.76IJ-OS 2.I7E-05
S.50E-06 1. 7711-06
3.S3E-06 1.14E-06
7.34I?^)S 2.36E-04
2.I2E-05 6.82E-06
Lifetime l:»posurc
Dose (mE/ke/davt
1.5 IE 07
257E-06
7.2411-06
4.S4E-07
137E-04
293E-07
632E-07
1.98E-07
7.IOE-IJ7
I.76E-07
2.03E-06
9.26E-07
2.271306
396E-06
8.64E06
2051-06
2.20E-06
2411:04
2.09E-06
1611! 04
I3lli-05
84II:-06
1081:03
5.0411^)5
Slope Factor Upperbound Excess
(me/de/day)' ' Lifetime Cancer Risk
81E-02
I4IJ-02
1.2E400
5.7E-02
I.7B02
3.3E-03
Total Pathway
2.9E-02
8.1E-02
1.2B+00
5.7E-02
1.7&fl2
3.3E-03
Total Pathway
8.IE-02
1.411-02
121!* 00
5.7E-02
9.IE-02
I.7E-02
3.3E-03
Total Pathway
I2E + 00
57I--02
9IE-02
I.7I!4)2
3.3E-03
Total Pathway
IE-08
4 E-08
9E-06
3E-08
2E-06
JE 11
IE-OS
2E-08
21308
9E-07
IE-OB
3E-07
3EXW
IE-06
2E-07
6E-08
IE-OS
1E-07
2E-07
4E-06
6E-OV
IE-OS
2E-04
7I--07
81:^)7
2E-O5
2JM)7
2li«4
-------�
TABLE 4-12
EXPOSURE VIA INHALATION OF VOLATII£S FROM OFP-TCAAP GROUND WATER DURING SHOWERING (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
CARCINOGENIC EFFECTS
Ennosure Dose fmt/ke/dav)
Compounds
Chloroform
Melhylene chloride
1,1-Dichloroelhene
1,1,2-Trichloroelhane
Tiichloroclhcne
Telrachloroelhene
Benzene
Chloroform
1,1-Dichloroelhene
1,1,2-Trichloroclhane
Trichloroelhene
Telrachloroclhene
Chloroform
Melhylene chloride
1,1-Dichloroelhene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
1'elrachloroelhene
1,1-Dichloroelhene
1,1,2-Trichloroelhane
1,2-Dichloroelhane
Trichloroelhene
Telrachloroelhcne
EPA Weight
of evidence
Concentration
(ut/\.)
Child
04
Child
7J8
Adult
ARIiAW
B2
U2
C
C
D2
D2
323E-02
682B4)I
32IBtOO
989E-02
6.6BEtOI
I.20B-01
I.92H-07
4511:06
209B-05
S.I6E-4J7
4011:04
6611107
I8IE-07
4261106
1. 9712-05
4.87E-07
3.78E-04
63011-07
2.53I--07
5931106
2.751105
6.8IE-07
S.28H-IH
8.7311-07
ARHAX
A
82
C
C
B2
U2
I59E-OI
518PX)2
2.97B41I
6.7IB-02
6.09BtOO
5.36IMII
1.20E-06
3.08E-07
I.93E-06
3.50E-07
3.65E05
2.9SE-06
5.69E-07
2.9IU-07
I.82E-06
3.3011-07
345154)5
28IB-06
1.83E-07
4.06E-07
2J5E-06
4.62E07
4.BIE-05
3901106
ARUA Y
B2
1)2
C
C
D2
1)2
B2
3.00B-OI
730E-OI
2.04BiOO
5.50B-OI
I.40B-OI
5 671:* 01
I.30B-OI
I.79E-06
, 483E-06
I.33E-05
2.871>06
7.99K-07
34011-04
7.1611-07
1.69R-06
4.5611-06
12511-05
2.7111-06
7.5411-07
32111-04
6.82U-07
2.3511-06
6.3511-06
1.7511-05
3.79E-06
I.05E-06
44811-04
9.46E4)7
ARIiAZ
C
C
D2
U2
B2
5.32R*OI
5.93E + 00
2.34B400
4.62B«02
279C*OI
3 4611 (M
31011-05
I.34I--05
2.77E-03
1.S4E-04
3.2611-04
2.921 !-05
12611-05
26111-03
1.461104
4J6I1-04
4.0911-05
I.76E-05
365E-03
2.03E-04
Lifetime Exposure
Dose (me/ke/dav)
6.2f.li-07
1. 4711-05
6811105
1. 6811-06
I.3IE-03
2.161106
1.931346
I01B-06
6.3011-06
1.1411-06
1.19E-04
96611-06
5.B3E-06
I.S7I10S
43311-05
9.37I--06
26011-06
1 111103
2.34 B 06
1.1311-03
1.011:04
4.361:05
9.0311-03
5031-04
Slope Faclor Upperbound Excess
(me/ke/day) Lifetime Cancer Risk
8111-112
141102
121: «00
5.7E-02
1.711-02
3.311-03
Total Pathway
2.9E-02
B.IE-02
1.211*00
5.7E-02
1.711-02
3.311-03
Total Pathway
8.IE-02
1411-02
121'* 00
S.7E-02
9.111-02
1711-02
3.311-03
Total Pathway
1,21:400
5.71102
9.11:02
171:02
331103
Total Pathway
511-08
21147
8D-05
111-07
211-05
711-09
111-04
6E-08
811-08
8B-06
8I:-08
211-06
31; 08
111-05
5I!4>7
2I!4)7
5IH)5
211-07
211-07
2I!OS
715-OT
7114)5
1114)3
61:06
411-06
2I--04
21:06
111-03
-------�
TAB,.- 4-13
ACUTE EXPOSURE VIA INFECTION OF OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARC1NOOENIC EFFECTS
Page 1 of 2
Bxnoture Dote
Conccnlnlkm
Haunl Quotient
Compound!
Vinidium
Chromium
Copper
Nkkel
Zinc
Chloroform
Elhylbenzene
M-Dkhloroelhine
1,1-Dichloroethyleiw
1,1,1-Trkhlorocthine
Bit(2-elhy1he«yl)phlh»Ute
Benioif Arid
3.0B-03
6.S7E-02
1.97B-02
S.47R02
3.8IB-OI
392E-05
2.00B4M
S.16R04
303E-04
1.03E-03
4JOE-03
465B4K
Child
JfcL
1.26B44
2.76B43
8.28B44
2.30B43
1.60B-02
1.65E46
8.41B-06
2.I7E-OS
1.27B-OS
4.33B-05
I.89B4M
1.96&03
Child
JdL
Child
-fcL
Child
10-14
Child
15-19
Adult
AKBAV
1.68 E-04
3.65 E-03
1.10B03
3.06&03
2.13ED2
2.19E-06
1.I2E-05
288E-05
169E-05
S.TSE^JS
2JIE-04
2.60B43
I.15B4M
2J1&03
7J4E04
2.09B40
1.46B42
1JOE-06
7.6SB-06
I.97E-05
1.16B-QS
3.94E-05
I.72B-04
1.78E-03
8.11E-05
l.TBP^n
5.33B44
1.48BD3
1.03842
1.06E-06
5.41E-06
1.40E-05
8.I9B46
2.79B-OS
1.22&W
I.26E-03
6.19B4S
1.36B-43
4.07BW
1.13B4H
7A7B-03
8.09B-07
413E-06
1.07E-05
6.26E4K
2I3E-05
9.29B-05
9.60B-04
6.00B-05
13IE-03
3.94BXM
109&03
762R-03
7.84B07
4.00B-06
1.03E-05
6.06B-06
206B4B
9.00B-OS
9.30B-04
RID
(mi/U/divi
9E-03
lEtOl
4&02
2&02
2Rfll
1E-02
IE* 00
ID + 00
9&03
9ErOl
2Efl2
4B+00
Haurd Index
Child
JfcL
1.4&02
Z8E-W
2.1E-02
1.2E-01
8.0E-02
1.7B44
8.4&4M
2.2E-05
1.4&03
4.8B4K
9.5&03
4.9B04
2JE-01
Child
JfcL
I9&02
3.7E-04
2.8B4Q
U&01
1.1E-01
2.2&M
1.1E-06
29E-Q5
1.9E-03
6.4&OS
1.3B42
^E^M
J.3E-01
Child
-5JL
1.3E02
2^&04
19E-02
l.OE-01
7.3Bfl2
l-5E-fl4
7.7Bfl6
2.0B-OS
1.3E-03
44E-05
8.6&03
4..4&04
2.1E-01
Cliild
10-14
9.0&03
1.8&04
13E-02
7.4E«2
5.2E«2
1.1&04
S.4B46
1.4&OS
9.I&O4
3.IE-05
6IE-03
3.2B4M
1JE-01
Child
15-19
6.9B03
I.4B4M
I.OB42
5.7&02
3.9IMI2
81IUB
4.1&06
I.lRflS
7.0B-04
2.4B-05
4.6&03
24tMM
I.2E-01
Adult
6.7Bfl3
1.3E44
99E-03
53&02
38E-02
7.8B«5
4.0B46
1.0B4S
6.7&04
23E-05
4JB«3
2.3&4M
l.l&OI
1.1 Dichloroeltune 1.39B43
1,1-Dkhtoroelhene 2-J8E-04
1.1,1-TrichlorocllMae 4.99B4O
ARCAW
5.85E4S 7.77B4B 532E4I5 3.76B4H 2.87B« 2.7BB05
1.09B4K I.44B45 987E-06 6.98E46 S.33B-06 5.16B-06
2.10&04 2.79E-04 1.9IB4M \3SBM 1.06B4M 9.98E4B
IB400 5.9E-05 7.8E-05 5.3E-OS 38E-Q5 2.9B-Q5 2.8B4I5
9B-03 12E-O3 I6&O3 1.IB4T) 7.BB-04 5.9B44 5.7E-04
9Bfll 2.3R04 ?.1BO4 2.1&04 UBOf 1 -|M< 1 l&Oj
Huird Index 1J&03 IOB4O 1.4E-03 9.7EO4 7JE-4M 7.1E-04
1.1-Dithloroelhine 1.17E43
I.l-Oichloroelhenc 1.3IB-03
l.l.l-Trichloroethine I.IIB-03
1,1,2-Trichloroclhine S.30&O3
ARBAX
4.92B-OS 634B-05 4.48B-OS 3.16C-05 2.42B-45 234R-05
SJIB-OS 7.32E-05 S.OIB-05 3.54rMI5 2.7I&05 262E-U5
467E-05 6.20B-OS 4.25&05 3.00E-05 229E-05 2.22B-05
2.23E-04 2.96B-04 2.03E4M 1.43E-04 1.09B-04 1.06B«4
ll!»00 4.9B-05 6JB-05 4JB-05 3.2B-05 2.4E45 23B-05
9U-03 6IE-03 8.IB-03 5.6&03 3.9E04 3.0E43 2.9E-03
9E-01 S.2&05 6.9B-05 4.7B-OS 33IMB 2JE-05 23E-05
4&02 5.6E4)3 7.4IM3 5.1B-03 3.6&03 2.7tM>3 2.7B-03
Iliurd Index 12E-02 1.6&02 I.IE-02 4.I&03 5.7B43 5.6B-03
-------�
TABLE 4-13 (continued)
ACUTE EXPOSURE VIA INGESTION OP OPP-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCD4OGENIC EFFECTS
Page 2 of 2
Compound*
Chloroform
Elhyl benzene
Melhytene Chloride
1,1-Dichloroclhinc
1,1-Dkhloroelhykne
1.1,1-Trichloioelhine
I.U-Trkhkuoelhtne
U-Dkhktroelheae
Xykne
2-Buunonc
Di-oclyl phlhaUU
Chloroform
I.l-Dkhloroeihinc
I.l-Dkhloroelhene
1,1,1-TrkhloroelhtiM:
l.l^-Trichloroelhine
1,2-Dkhloroelhcne
Phenol
Vtnidium
Chromium
Copper
Nkkcl
Zinc
ConccntralkM
(mt/L) ,
I.63B4I3
1.7264)3
I.92B-03
6.0864)2
3.6864)2
6.85B-02
5.30B-02
3.8764)2
222640
S.2IE-03
Ckild
JfcL
68SE4B
72364)5
8.07B-05
236B40
1.5564)3
2.88E40
2.23B40
1.63E4O
9.34B-05
2.1964)4
Exn
Child
JbL
9.I1B-05
9.61 B4B
I.07B-04
340E-03
206E-03
3.83640
2.9664O
216E-03
1.24E-04
2.916-04
MUR Do3
9.764)3
5.9B4M
I.8B-02
UB4M
6.864)2
SJB4)2
1.564)?
3.464)1
Child
15-19
3.464)3
3.664B
6.66-05
1.364)3
3.8B4)2
1.664)3
2.764)2
4.064)3
1.2E4B
2.264)4
7.664)2
41640
2.264)2
6.0B4M
8.864)2
3364)3
5.664)3
7.4640
4.5B4M
1.464)2
I.I64M
5.264)2
4.264)2
1264)2
2364)1
Adg||
3.364)3
3.464)5
6.464)5
1.26-03
3.764)2
1J64B
2.764)2
3.964)3
1.1B4JS
2.1B4H
7.464)2
4.064)3
2.1B-02
5.8B4M
8JB4K
3.4B4K3
5.4B4)3
72E4H
4.364)4
1.364)2
I.IB4M
5JB-02
4.064)2
||t!4)2
2.464)1
-------�
TABLE 4-14
ACUTE EXPOSURE VIA INGEST1ON OP OFF-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
RME CONDITIONS
Page 1 of 2
NONCARC1NOGENIC EFFECTS
Exposure Dote fmt/kc/davl
Compound*
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
Elhylbenzene
1,1-Dkhloroclhinc
1,1-Okhloroelhene
I.l.l-Trichloroelhane
Bit(2*lhylhexyl)ptilhalate
Be rook Acid
1,1-Dkhloroelhine
1,1-Okhloroethene
I.l.l-Trichloroelhane
1,1-Dichloroelhane
1,1-Dkhloroelhene Q^,
1,1.1-Trichloroetyne
1,1,2-Trkhtoroelhane
Concentration
(mi/U
4.0E-03
1.24 Bfll
2.35B02
8.93E-02
609E-01
5.51&05
4.20E-04
I.16E-03
649E-04
323E-03
6.0E-03
6.8E42
402&03
6.87D4M
1JOE-02
2.71 B413
3.47E-03
1.90E-03
1.70B42
Child
JtL
2.17B4M
6.73B43
1.27B4H
4.84B4)
33E-02
2.99B46
2.28E-05
6.29E-05
3S2B05
I.75E-04
325B-04
3.69E-03
2.18E-04
3.73R4M
7.0SB44
147R-04
I88B-04
1.03B-04
9.22E-04
Child Child
Jfed. >9
2.37&04 I60E-04
7.34E-03 4.95B-03
139E-03 9.38&04
5.28E4)3 33«E«3
360E-02 243B-02
326E-06 2.2&06
2.49E-OS I.68E-05
6.86B4B 4.63E-05
3.84B45 2J9&05
I9IE-04 I.29E4M
3.55B-04 2.39B-04
4.02B-03 2.71E-03
2.38B-04 1.60B4M
4.07&OS 2.74E45
7.6SE-04 J.I9E-04
'
I60E-04 I.08B4)4
2.05E-04 1.3BB-04
I.I2E-W 7JBB-05
l.OIE-03 6.78E4M
Child
10-14
1.I2E-04
3.47E«3
6J7E44
2JOE4O
I.70B02
1J4E46
1.I7&06
3.24B-05
1.82PX0
9.03K4H
I58IMM
I.90E-03
1.I2B44
1.92B40
3.64B04
7J8E-Q5
9.71 BflS
5.31 B-05
4.75B4M
Child
15-19 AdulS
AREAV
832E-05 I.HE04
2ME-03 M&m
5.0E-04 6.7IB-04
1.90&03 2J5&O3
130B-02 I74E-02
1 17E-06 U7B4M
8.95B-06 1.20B4H
247E-Q5 3.31B45
138E-05 1.85E-05
688E-05 9.23E-OS
1.28E-04 1.7IE-04
I.4SB-03 I.94E-03
ARHAW
836B415 I.I5E-04
I.46E-05 196E-05
2.77E4M 171&M
AKBAX
S.77Bfl5 7.74E4JS
7.39E-05 9.91 E-OS
405E-OS 543E-05
3.62B-O4 4.86E-04
RfD
(mi/k|/day)
9B-03
IBtOI
4E-02
2E-02
2E-OI
IE-02
iB+oo
IE + 00
9&03
9E-OI
2E-02
4B400
Hazard Index
IE tOO
9B43
9B41
Hazard Index
1B4QO
9B-03
9B-01
4E-02
Hazard Index
Child
0-1
2.4B4I2
6.7B-4M
3.2B-02
2.4B-01
I.7E-02
30E-04
2.3E-05
6.3B-05
3.9E-03
1.9B4M
I.6E-02
9.2t>04
3.3E-01
2.2B4H
41E-03
7JR^H
S.IB-03
1J&04
2.I&02
1.IB-O4
2.3B-02
44IMK
Child
2-4
26E-02
7.3E-04
3JE-02
26B-01
I.8B01
3.3E4M
2JB05
6.9B-OS
4.3B«3
2IE-04
I.8B-02
I.OB-03
5.2E-OI
2.4E4M
4.S&03
gJE-04
5AB-03
1.6B-04
2.3B42
I2E-04
25B-02
4.8B42
Jlarard Quotient
Child
5-9
I.8B-02
5.0&04
23E-02
1.8B4)I
I2E-01
2.2B4M
1.7E-05
46E-05
2.9&«3
1.4E-04
1.2&02
68E-04
3.6E-01
16&04
30E-03
5.8E4H
3.7E-03
1IPXM
l^E-02
8.4B-05
|.7E-02
3.211-02
CTiild
10-14
I.2B-02
3-5E-04
I6E-02
1.3B-01
85E02
1-SB4M
I2E-05
3JE-05
2.0B-03
l.OB-04
8.4B-03
4.8E04
23E-01
I1E-W
2IE-OJ
4.0B-04
2.6BU3
7.6RflS
I.IB42
5.9B05
I.?B4)2
2.3&02
Child
15-19 Adult
9.5E-03 13E-02
26E-04 3JE-04
13E-02 I.7B-02
9-5O4J2 1.3B-OI
6JB-02 8.7E-02
1.2B-04 1.6B-04
90E-06 12B05
2-SE-05 3.3E-05
1JE-03 2.IB43
7.6B-05 I.OE-04
6.4B-03 8.6B43
3.6B4M 4.9&04
1.8B-41 2.SE-OI
8.6B4U I.2G-04
16B«3 2.2&03
3.1B-04 4.1E-04
2.0B4O 2.7B-03
5.8&05 7.7&05
8.2E-03 I.IB4)2
4-5E-05 6.0B-Q5
9.IB-03 I2H-02
1.7B-02 2.3E-02
-------�
TABLE 4-14 (continued)
ACUTE EXPOSURE VIA INGEST1ON OP OFF TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
RME CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
EiDoture Dole Iim/lj«/d«vl
Compound*
Chloroform
Elhytbenxcnc
Melhykne Chloride
l.l-Oichloroelhine
I,l-Dkhk>roetheoc
l,l,l-Trichk>roeih»iK
1,1,2-Trichloroelhanc
U-Dkhk>roelbene
Xytene
2-Buunone
ConcenlnUoa
fmc/Lt
2.10E-04
1.20&O3
190E-03
1.19E01
668B-02
1.I7ROI
1.48E-OI
666E-02
3.I4B03
9J3E-03
Child Child Child Child Child
JJJ. JdL JA 10-14 15-19 Adull
ARHA Y
1.14B4S 124B-OS 838E-05 587E-06 4.47E-06 6.00&OS
6J1BOS 7.10E-05 4.79E-O5 3.36E-05 2.56E-05 3.43E4B
1.03B-04 1.I2E-04 7J8B-4M 5.3IE-03 4.05E-OS 543E-OJ
6.46B-03 7.04E-03 4.75B43 3.33B43 2.53B-03 340E-03
362B-03 395E-03 2.67B-O3 1 87E-03 I.42E-03 191E-04
63SB43 6.92E-03 467E-03 3.27B-O3 2.49B43 3.34E-03
B.03E-03 8.76E-03 5.91 BO3 4.14&03 3.151M3 4.23E-03
36IE-03 394E-03 266E-03 1.86&03 I.42E-03 1.90B-04
1.7DB4M 186E-04 I.25E-04 B.7B&O5 669E-05 B.97B45
5.I7BM 5.ME-04 3.80E-04 267E-04 2.03B-04 2.72&04
ilmrd Quolienl
Virudium 6.0&03
Chromium 5JE-02
Copper 101E-01
Nickel 4.0E-03
Zinc 1.14E-01
Chloroform 4.0E-03
1.1-Dichloroelhine 533E-O2
I.l-Dichloroelhene 7.66E-02
Di n-oclyl phlhthle 4E-03
l,l,l-Trichloroelh«ne 3J4E-01
1.1.2-Trichloroelhtne 143E-02
1.2 Dichtoroelhene 130E-01
Phenol 1.3B-02
ARBAZ
325B04
2.9BB03
548E-03
2.17E-03
6.I8B43
2.17&04
300E-03
4.I6B-03
217BO4
I92PX«
7.76B4M
7.05&03
7.0SE-04
3J5E-04
3.25B03
5.98Bfl3
2.37K43
&75E-03
2.37E-04
327B03
4J3E-03
237E-04
209E-02
846B-04
7.69&03
7.69B04
2.39E-04
220E-03
4.03E-03
f.60B-«3
4J5B-03
1.60B4M
221B03
306E-03
l.60a«4
1 41E-02
5.71E4H
5.19B43
5.19E-04
I.68B-04
1J4&03
2S1EM
I.I2E-03
3.I9E-03
1.12&04
IJ5B-04
214&03
I.I2E-04
9.90&03
4.00B-04
364&03
364E-04
I.28E-04
I.I7B43
2.I5B«3
8J2E-04
2.43E-03
8J2B-05
1.1BB-03
I.63B-03
832E-05
734E-03
3D5E-04
2.77Efl3
2.77&04
1.71 B4M
IJ7E03
2.89&03
I.I4B-03
326&03
I.14&04
138E-03
2.I9G43
I.14E-04
I.OIB4)2
4.09&04
3.7I&03
37111-04
RTO
(mt/ki/davt
IE-02
IBtOO
6B-02
IE* 00
9E-03
9B-4I
4B-02
2E-01
4E*00
5E-OI
llturd Index
9&03
1E»01
4B42
2B4)2
2B-DI
IB-02
IBtOO
9E-03
2E-02
9B-OI
4B-02
2R-01
6E-OI
llaurd Index
Child
JbL
I.1B43
6JB4K
1.7B43
6J&03
40E-OI
7.1E-03
2.0ED1
1.8E02
43E-05
1.0R03
8.0B-OI
3.6&02
3.0E-04
I.4E-01
I.IBfll
3.IE42
2.2&02
30E-03
46E-01
I.I&02
2. IE-02
I.9B-02
33IMI2
1.2R-03
8.9B-OI
Child
2-4
1.2&03
7.1E4JS
I9E-03
7.0E-03
44E-OI
7.7B03
2.2&01
20E-02
47E-05
11E-03
8.9&01
39E-02
3.3&04
U&fll
12E-01
3.4B-02
24B4H
33E-03
5.0B-OI
1.2B02
23E-02
2 IE-02
38E-02
Child
JLL
8.4B44
4.8B-OS
I.3C-03
48R03
30B-OI
5.2E-03
I-SB4)!
I.3B.02
3.2B-05
7.6B-O4
6.0E-OI
2.7E-02
2.2B4M
l.OE-01
8.0E-02
2.3B-02
I.6B-02
22E-03
3.4E4I
80&03
I.6&02
\AVAH
26E-02
I.3B01 86PXM
1.0B400b6.6B«l
Child
10-14
59E-04
34E-05
B.9B-04
33E^»3
2IE-OI
3.6B-03
I.OE4I
9.3B-03
22E-05
53B-04
4.1B41
I.9B42
UB4M
7.IE-02
56B-02
16E-02
I.I&02
1.6B-03
24E-OI
56E-03
1 IE-02
IOE-02
1.8&02
6.IB4M
4.6B-01
Child
15-19
4.5B-04
26E-05
6.8E-04
2.5B-03
I.6B-OI
2.8B-03
7.9B«2
7.IE-03
1.7E-05
4.IE-04
3.2&01
I.4B-02
1.2B-04
5.4B-02
43E-02
I.2E-02
8JB4I3
I.2B-03
I.8E-OI
43E-03
8.4B-43
7.6B-03
I.4B-02
4.6B-04
3J5E-OI
Ajtull
6.0B-04
34IW15
9.1B-04
34E-03
21E-OI
3.7E-03
1.IE-01
9.5E-03
2.3E-«S
5.4B4M
42Efll
I.9B-02
I.6B44
7.2&02
5.7B-02
I6&02
1.IB42
I6E-03
2.4&O1
5.7Bfl3
1 IE-02
1.0B-«2
I.9E-02
^.2IMM
4.7E01
-------�
TABLE 4-15
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OPF-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARC1NOGENIC EFFECTS
Page 1 of 2
B»po«ure Do«e j
I.8B4H
Child
J-12
4.1E-04
63B4H
67E4B
6.2B4)3
2.6B4M
1.8B4M
9264)6
3.4B-OS
1.7E4)3
59E4M
3.4B4M
33B40
13E-02
Child
13-17
3.4B4M
52E4B
56E-05
5.2B4)3
2.2B4M
1JE4M
7.6B4K
28E4B
1.4B4)3
4.9E4JS
2.8B4M
2.9E4J3
1.1E472
Adult
2.8B4M
4.3B4U
46E4»
4.3B4U
I.8B4M
I.2B4M
6.3E4M
23E4JJ
I.2B4)3
4.IB4B
2.3B4W
2.4B4)3
8.6&03
I.l-Dkhtorocthinc
1,1 Dichloroelhene
I.l.l-Trkhloroeiluine
I.39&03
2^8E«4
4.99E-03
8.55E-05
I59&OJ
307&04
6.39&C5
1.I8&05
2.30E-04
J.28B-05
9.80B06
1.89B04
AKBAW
4.38B«S
8.13IMM
IJ8B4M
7&OI 1.2&04 9.IE-OS 7JB-05 6.3B-05
8IMI3 2.0B43 H&03 1.2B43 I.OB43
8B-01 3.8B-04 2.9&04, 2.4^04 J.O&04
Haurd Index 2JE-03 1.9B-03 ISEM 13BM
1,1-Dichloroelhane
1,1-Dichloroelhene
1,1,1-Trichloroelhine
1.1,2-Trkhloroelhane
1.17E4)3
13112-03
I.1IB4)3
530E4O
7.20B4B
8.05124)5
682E4»
3.26E4M
5.39E4B
60212-06
5IOB4tf
2.44E4M
444E4J5
4.97E4B
4.22E415
2.01 E4M
ARI2AX
3.67E4B
4.13H4M
350124)5
I67E4M
I.OB4M
IOE4)2
7E4I1
8&03
8I>4)I
4124)2 8.2B4)3
Hazard Index 1.8B4)2
7.7&05
6.4E-OS
61124)3
7.0E4)3
6.3B4K
6.2124)3
5.3I24B
5.0124)3
1.1124)2
5.2E4»
5.2124)3
4.4B4)5
4.2Px4)3
9JE4)3
-------�
TABLE 4-15 (continued)
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OPP-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARONOGBNIC EFFECTS
Page 2 of 2
Exposure DOM (mt/ki/dav)
Concentration
Compoundi
Chloroform
Elhylbcnzcnc
Melhyknc chloride
1,1-Dkhloroelhane
M-Oichlorotlheac
1,1,1-Trichloroelhine
I.U-Trichloroellune
1,2-Dichkuoctheac
Xykac
2-BuUnone
Vtiudium
Chromium
Copper
Nkkel
Zinc
Chloroform
1,1-Dichloroelhine
1,1-Dichlofoclhene
1,1,1-Ttkhloroelhine
1.1,2-Trkhloioelhtne
1,2 Dichloroelhene
Phenol
Di-n-octylphlhilile
16304)3
1.7204)3
1.9204)3
6.08E4)2
3.6804)2
68504)2
5.3004)2
3.8704)2
22204)3
5.2184)3
6.0004)3
5.5104)2
1.0104)1
4.0404)2
1.1404)1
10604)2
2.9204)2
3.8484)2
1.5284)1
10804)2
71504)2
1.3004)2
4.0004)3
Child
Jtt
I.OOB4M
845O4B
I.I8B4M
3.7404)3
226O4B
4.20B4J9
3.2604)3
237E4I3
1.36O4B
2J7B4M
S48O4J7
70404)6
92304)6
3.6904)6
10404)6
6JIO-04
1.7904)3
2.36B4)3
9.3404)3
6640-04
4.3904)3
396U-06
1.2284)6
Child
JiU
7.49B4B
6.32B4B
8.820415
2.7904)3
1.6904)3
3.1404)3
2.4404)3
1.78 E4)3
102E4M
1.9204M
409B4J7
5.2804)6
6.9004)6
2.7604)6
7.7804)6
4.90B4M
I34E-03
1.77114)3
6.98O4I3
4.96B4M
3.29E4)3
2.9604)6
9.1104)7
Child
1H2
6.190-05
5.2204)5
7.3004)5
23104)3
14004)3
26004)3
2.0104)3
1.4004)3
8.43B4H
U9E4M
33804)7
4.3604)6
5.7004)6
2.2904)6
6.4304)6
4.03B4M
I.11B4M
1.4604)3
5.7704)3
4.1004M
2.7104)3
2.4404)6
73104)7
Adult
ARBAY
5.1404)5
433B4K
6.0504)5
1.9284)3
1.16B4)3
2.1604)3
1.6784)3
I.22B4)3
6.9984)5
UIB4M
AKBAZ
2.8184)7
3.62B4W
4.7384)6
1.89E4M
5.34B4M
3.35B4M
9.20B4M
1.2184)3
4.7804)3
3.4I84M
2.2504)3
203114)6
6.25li4)7
Hmrd Quotient
RfD
fmi/kt/davl
IIM)2
8P^)I
6R4)2
7B4I
8&03
8ED1
4&02
21WI2
4B + 00
J&OI
lluird Indci
5&04
I&fll
2^02
6E4M
1114)1
1IJ-02
7Bfll
8IMI3
8B41
4IM)2
2U-OI
5IM)1
3l!-OJ
lltzird Index
Child
^&.
I.O&02
I.IB4M
2.0B-03
5.3E43
2.8B-OI
S3&03
8.2&02
1.2&OI
34U-06
}.1B4)4
4.964)1
IIE4W
70E4B
46E-04
6.2B4B
I.OB40
6SBM
2.6&03
3.0B4)I
1.204)2
I.7U412
2211-02
I.6H4I6
4.IR4)4
4.3E-OI
Child
-ZJL
7SB4)3
7.9B4B '
IJE4J3
40E-03
2.IB4)!
3.9B4)3
6.IE-02
89B-02
2.6B4H
3.8B4H
3.8E4I
8.2E4M
J3B4JJ
3JB4M
4.6B4I3
7.8B41S
49B-02
I9E4J3
22114)1
8.7154)3
I.2B4)2
1.604)2
$.904)6
30E4)4
3IB-OI
Child
1HL
62B4O
6JB4I5
1.204)3
3.3U4)3
1. 884)1
3.3E-03
S.OE4K
7.3B4)2
21O4B
3.2B4M
3204)1
6.8E4M
4.4B4M
2.9B4H
3.804)3
6.4B4B
4.004)2
1.604)3
1.804)1
7.2B4J3
I.0li4)2
I.4H412
49IUI6
2.5I'.4)4
2.604)1
Adtill
5IC-03
5.4B4B
I.IB4)3
2.7E4B
UB4)I
2.7B-03
4.2E-02
6IE4H
1.7B4B
26B4M
2604)1
56G-04
36G4B
2.4B4M
3.2B4>3
3.3B4U
3.404)2
1.304)3
15U-01
6.0IMI3
851W)3
1.104)2
4.I04M
1.1 B4M
2.IB4)!
-------�
TABLE 4-16
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OPP-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USE
RME CONDITIONS
NONCARC1NOGENIC EFFECTS
Rjcpoture Dote (mt/ki/davl
Hazard Quotient
Compound*
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
Elhyl benzene
1,1-Dichloroelhane
1.1-Dichloroelhene
1,1,1-Trichloroelhane
Bii(2-elhy1heiyl)pnllable
BenzoicAcid
Concentration '
rmt/L)
400E-03
1.24E41
2.35&02
8.93B42
6.09B41
5J1E-05
4.20E-04
1 I6E-03
649E-04
323E-03
6.00B03
6.80B-02
Child
f>6
6.I3E-07
265B-OS
3.60B-06
1.37E-06
9.34 E-OS
5.69B-06
3.47B46
120E-04
6.70E-05
3.33B44
3.07E-06
3.48E-OJ
Child
JJ2
4^6E-07
1.97E4B
268E06
1.02 &«S
692&05
4.22&06
2.58B-OS
889E4J5
4.97&OS
2.47E-04
2.28&06
238B05
Child
13-17
3.77&07
1.63B4S
2.21B46
8.40B-06
3.72B4B
348E-06
213IMJ5
7.35 BflS
4.1004)5
2.05B-04
1.88E-06
2.I3&05
Adult
ARBAV
31IE-07
1.35B4K
1.83&06
6.96B-06
4.74&05
2.89B06
1.77B-OS
6.IOE-05
34IE-OS
I.73&04
IJ6B4M
I.77E4B
RfD
fmt/ki/davl
SIMM
IBfll
2&02
6B-O4
1B-01
1E-02
8B-01
TBfll
8E43
8&01
3E-03
2E+00
Hazard Index
Child
-fiS.
1.2B-03
2.7E-04
1.8B-04
2.3B02
9.3E-04
5.7B-04
4.3&06
1.7R04
84E4M
4.2E-04
1.0B03
1.7EOS
3JB4H
Child
7-12
91E-04
2.0E-04
I3E-04
1.7E-O2
6.9&04
42E-W
3 2E-05
1.3E-04
6.2E-03
31B-04
7.6&04
1.3B-OS
2JE«2
Child
13-17
7JE-04
I.6E-04
1.1B-04
1.4B-02
J.7E-04
3-5E-04
2.7BflS
M&04
5.IE-03
2.6E-04
63E-04
1. IB-OS
2.0E42
Adult
6.2D4M
1.4B-04
9.2E-05
1.2B«2
4.7B4B
2.9B4J5
2.2E-OS
B.7&OJ
4.3B-03
22E-04
5.2B-04
8.9B-06
1.7B-02
1,1-Dkhloroelhane
1,1-Dkhloroelhene
1,1,1-Thchloroethaoe
4.02&03
6.87E4M
1JO&02
4I5E-04
7.10B-OS
1.34 E40
3.08B04
5.26E-05
9.96E-04
2.55&04
4.34&05
823IMM
AKBAW
2.11B44
36IE-05
6.83B4M
5.9B4M 4.4B-04 36E-04 3.0E-04
8&03 8.9B43 6.6B-03 5.4E-03 4^E-03
8E-OI I.7&03 >2B^3 l.g&Oj 8-5 B4H
Hazard Indei I.1B-02 8.2E-03 6.8&03 S.7U-03
1,1-Dichloroethine
1,1-Dkhloroelhene
1,1,1-Trichloroelhine
1,1,2-Tnchkiroelhane
27IIH)3
3.47B43
190R-03
1.70E-02
2.80E-04
339&04
1.96E-04
1.7SBD3
2.07&04
2.66WM
145B-04
I.30E-03
1.72rMM
2.yifi4H
1.20&04
1.08B-03
AREAS
I.43G44
1.82&04
9.97B05
893E-04
7E-OI
8U-03
8E-OI
4E42
40E-04
4J&O2
23B04
4APM
Hazard lnde> 8.9B-02
3.0E-04
33B-02
ISfMM
3.3B42
2.8B42
2.0D-04
2.3IJ-02
I2E-04
-------�
TABLE 4-16 (continued)
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OPF-TCAAP GROUND-WATER (UNIT 3)
RME FUTURE LAND USB
RMB CONDITIONS
NONCARCINOGENIC EFFECTS
Pagp2of2
Expoture Dote (mt/ka/davl
Compound!
Chlorofonn
Elhylbeiuene
Melhykne chloride
1,1-Dichtoraitmnc
1,1-Dkhloroelhene
l.l.l-Trkhloroelhine
1.1.2-Trichloroclhane
U-Dkhloreclhcne
Xyknc
2-Bulaaone
Vanadium
Chromium
Copper
Nickel
Zinc
Chlorofonn
t.l-Dichlonxlhane
I.l-Dichloroclhcne
1,1,1-Trichtoroclhine
1,1,2-Trichloioclhine
1.2-Oichloroclhcoc
Phenol
Di-n-octylphlhilatc
Conccntmtkn
ffnt/Ll
2.IOB4M
1.20E-03
1.90E-03
I.I9E-OI
6.68&02
1.I7E-OI
I.48B-OI
6.66B-02
3.I4B-03
9.S3B4B
6.00E-03
5-SOE-02
J01B-01
4.0011-02
1.HE-01
400B-03
SJ3E-02
T.66B-02
3.5484)1
I.43B-02
I.30B4M
I30E-02
4.00E-03
Child
M
2.J7B4M
9.92B4B
I.96E-04
I.23E42
689&«)
I.21B-02
1J3B02
6.88B-OJ
3.24B4M
4.87&4M
9.2I&07
128E-05
155B4M
6.I3IMM
175&OJ
4.I3B4M
5.71 B43
7.92B4H
3.66ROI
I.48&03
I.34B42
6.63&06
2.04B46
Child
JJJ
I.73&05
7.3SB4S
145B04
9.IIBfl3
S1I&03
8.96B03
I.UR02
J.IO&03
241&04
3.61B-06
6.«3&rf?
8.77&06
1.I5&OS
4S6&06
I.30B45
307B04
4.24&03
587&03
2.7I&02
1.IO&03
9.96 E-03
4.93B-06
U2B4)6
Child
1HZ
133E-05
6.06E4S
1.20&04
734E-03
4.23E43
7.41&O3
9.37&03
4.22Bfl3
I98&O4
2.99&06
J.64&07
7.25&06
949E-06
3.77&06
I.07&OS
2.S4&04
3.50B-03
4.85&03
223&02
9.QSB04
B.23&03
4.07B-06
1.2Sa«6
Adjill
ARBAY
1.10&05
S.04B4S
9.971105
625E-03
3JI&O3
6.I5&03
7.78E-03
3JOE43
165B-04
2.48B4H
ARRAZ
469B-07
601&06
7.88&06
3.II&46
889E-06
2.IO&04
2.90&03
4.03&03
1.86B-02
7.5IR-04
6.83E-03
3.38E46
I.04&06
Hasaid Quolienl
mn
fmt/kt/davt
I&02
8&4I
6M2
7B4)I
8&03 .
8&fll
4E-02
2&01
4E*00
5E41
lluard Index
5^04
1E-OI
2B-02
6IWM
IIM1I
IB-02
7B4I
8&03
8B4)I
4&02
2B41I
SBfll
3C43
Iliurd Indu
Child
o*.
22E-03
1.2&04
3.3BD3
I.8B02
86E-OI
UBfl2
3.8&OI
3.4B02
8.IB4S
2JB«W
UBtor
I.8B03
I.3BM
78E-04
1.05*2
I8&04
4.IB-02
82E-03
9.9&OI
4.6124)2
3.7E02
6.7n-02
3.3P.-05
6BIJ-04
I^E+OO6
Child
ilL
1.7E-03
9.2&05
2.3&03
I.3&02
64E-01
11&02
28&OI
26B-02
60E-OS
72E^
9.7Bfll
1.4B-03
88B41S
58E-04
7.6114)3
I3E-04
3.1B-02
6.I&03
7.3&01
3.3&02
2.8B-02
5.0B4)2
2JB-05
5.IU4H
87E-OI
Child
1HL
I.3&03
7.6B4IS
2.0&03
I.1B4)2
5.3E41
9.3E-03
23E-01
2.IE-02
5.0E4B
60B06
7.9Efll
1.1&03
73E-05
4.8B-M
6.3B-03
I.IB-04
2.5E-02
5.0B03
6.IB4)!
2.8&02
2.3B-02
4.IB4I2
2.0&05
42U4H
73E-OI
Adull
1 1E-03
6.3&05
1.7&03
8.9B4)3
44E-OI
7.7B03
I9&OI
18E-02
4 IE-OS
5.0B06
6JE-OI
94&04
60E4M
3.9B04
5.2B413
89B-QS
2.IB4I2
4IE-03
5.0&OI
2.3&02
I.9U-02
3.4E-02
I.7H-05
35B4M
6U1-OI
-------�
4-17
CHRONIC EXPOSURE VIA INGESTION OF OPF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 1 of 2
• Emosure Dote fmt/ti/divl
Compounds
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
Elhylbenzene
1,1-DichloroclhiiK:
1.1-Dkhloroctncne
1,1,1-Trichtoroethane
Bis(2-elhylhc«yl)|>hlhaUle
BciuoicAdd
1,1 Dichtoroelhine
I.l-Dichloroelhene
1,1.1-Trichloroelhine
1,1-Dichloroelhane
1,1-Dkhloroelhene
1,1,1-Trichloroelhane
1,1,2-Trichloroelhane
Concentration
fmi/Li
3.0B43
6J7E-02
1.97E42
5.47E-02
3.81B41
392B-OS
2.00B-O4
S.16E-04
3.03&04
1.03E-03
4.50B43
4.65B42
1. 398-03
2.58B44
4.99B-03
1.I7&03
1.31E-03
1.1I&03
530R03
Child Child Child Child Child
JbL 2-4 5-9 10-14 15-19 Adult
AREAV
1.26B44 1.68B44 I.I5R04 8.1IE45 619E-05 6.00B-OS
2.76&03 3.65B43 2-5IBO3 1.78E-03 1.36B43 1 3I&03
8.28B4M 1.IO&O3 734E-04 5.33IMM 4.07B44 3.94B4M
2.30B4D 3.06&03 2.09BO3 1.48&03 1.13BO3 1.09&03
I.60&02 2.13B412 1.46B42 1.03B42 787E-03 7.62B4J3
I.6SE4W 2.I9B46 1JOB4W 106E-06 8.09B4T7 7.S4D47
8.41E-06 1.12&OS 765E-06 5.4|[MK 4 13B-06 4.00B4K
2.17&05 2.88B4S I.97&O5 1.401MB I.07B-OS 1.03E-OJ
1.27E-05 1.691MJ5 1 16E-05 8.19&06 6.26&O6 6.06&O6
4.33B48 S.7SB4S 3.94B4S 2.79IUW 2.13&QS 2.06B4S
1.89&04 2.S1R4M 172RO4 I.22&04 9.29E4K 9.00BO$
I.96O43 2.60B43 I.78&03 I.26E-03 9.60E-04 9.30E-04
ARBAW
5.8I&OS 7.77Bfl5 5.32B4K 3.76B« 2.87&DS 2.78BOS
109&« 1.44&05 9.87E46 6.981M»6 S.33&06 5.16E06
2.10B-04 2.79B44 1.91B4M I.35B4M 1.06B4M 9.98E-OS
t
ARCAX
4.92&05 654E-05 448E-05 3.16B4B 2.42B-OS 2.34B4H
53IE-05 7.32B-OS SOIE-05 3541MB 2.71&4H 2.62&05
467&05 6201MB 4251MB 3.001MB 229E-05 222E-05
2.23B4M 2.96&04 2.03B4M 1.43IMM 1 09E-04 1 06E-04
Haard Quotient
RID
fmt/kt/dav)
9&03
IBtOO
4B-02
2rM>2
2&OI
IB-02
IE-01
IE-01
9IMJ3
9E-02
2Efl2
41! tOO
Hazard Index
Child
JfcL
1.4B-02
28IJ-03
2.1042
I2E-01
8.0B-02
I.7E-04
8.4B-OS
22E-04
1.4R03
48E-04
9JB43
4.9&04
2JE-OI
Child
Jd.
3.7&fl3
28E-02
15&01
1 IE-01
2.2&04
11E4M
2.9E-04
1.9E-03
6.4&O4
13E-02
65FMM
3.3B-01
Child
$-9
1.3E42
2-SE-03
I.9&02
10E-OI
7.3&02
ISBA4
7.7E-OJ
2.0EXM
1.3E-03
4.4&04
86B43
4.4&04
2.1E-OI
Child
10-14
90E-03
18&03
13&02
7.4&02
5.2B«2
1.1&04
5.4&D5
14E-04
9.IE-04
3.1 &04
6.1E03
3.2B04
I.6B-01
Child
15-19
6.9E03
I.4IM)3
I.OB-02
5.7B-02
3.9E-02
8 IE-OS
41&05
1.1B-04
7.0&04
2.4&04
46FMB
2.4B4M
1.2B-01
Adult
67&03
13&03
9.9B03
5JE-02
38E-02
78E-OS
4.0IMB
1.0B4M
6.TB4M
23E-04
4JIM)3
2.3IMM
12B-OI
1B-OI 59B-04 7.8E-04 5.3E-04 38E-04 29IMM 2.8E-04
9IM)3 I.2E-03 1.6&03 1 ltMJ3 78E-04 59&O4 5.7B-04
9IMtt 2.3E4M ?.lE4q 2.1B03 13&03 1.1&03 IliifiJ
Hazard Indei 4.1B4D 5JB«3 3.7B4Q 17B43 2.0B43 2.0Bfl3
IE-01
9rM)3
9rM)2
4IM)3
Hazard Indei 63B-02 8.3E4K 6.0B42 4.IE-02 3.1&02 3.0IM)2
4.9&04 6-5B4M 4JB«4 32IMM 2.4B4H 23B-04
6.I&03 8.1&03 5.6E-03 39E-04 30B-03 2.9B-03
52B«4 6.9B-04 4.7E-04 3.3E-04 25E-04 25E-04
-------�
TABLE 4-17 (continued)
CHRONIC EXPOSURE VIA INGESTION OP OFF-TCAAP GROUND-WATER (UNIT 3)
. CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARONOGEN1C EFFECTS
Page 2 of 2
PMC fmt/la/davl
Hazard Quotient
Compound!
Chloroform
Eihylbcnzene
Melhylenc Chloride
I,l-Dichk>roelhine
l.l-Dkhloroelhene
1,1,1-Trithtonxlhine
1,1,2-Tfkhloroelhane
1,2 Dkhloioelheoe
Xykne
2-Buuaonc
Conccalnlioa
fnu/Ll
I.63B43
I.72E-03
I.92B-03
6.08B-02
3.68B-02
6.85B42
3.30&02
387E42
2.22B43
S.2IE-03
CbiM
JfcL
6.83B4S
7.23B4S
8.07B4S
2.S6B4B
U5Bfl3
2.88B43
223E-03
I.63B43
9.34B4B
2.19B04
OiiM Child
Jd. Ji
9.11E-OS, 6.24E-05
9.6JE-Q5] 6.58B4S
1.07E-04 7.35B4S
3.40E-03 233E-03
206E-03 1.41B-03
383E-03 2.62B43
2.96E-03 2.03B43
2.I6B-03 1.4BB43
I.24E-04 830E-OS
2.9IE-W 1.99&04
Child
ISbli
4.4IB4B
46SE4B
5I9E4J5
I.64B43
9.95E4M
I.B5&03
1.43&03
1.05B43
6.00B4S
I.4I&04
Child
15-18 Adull
ARHAY
3 37&05, 3.26B-OS
JJ5E4B 344E-OS
3.%E-05 3.84B-05
I.26B-03 1.22&03
7.60E-04 736IJ-04
1.4IB43 I.37B-03
1.09&03 106B-03
7.99E44 7.74&04
4J8IMIS 4.44IM15
1.08&04 I.04&04
R(D
fmt/ki/divt
I&02
HJ-01
6tM)2
l&OI
9Efl3
9IM>2
4B43
2IM)2
21! +00
5&02
llaziid Index
Child
JfcL
6.9B43
7.2IM)4
1.3B43
2.6B42
1.7&01
3.2&02
S.6&OI
B.2B42
4.7&OS
4.4E03
8.8E-OI
Child
Jd.
9.I&03
9.6&04
1.8E-03
3.4&02
2.3E41
4.3B42
7.4ED1
I.1B41
6.2B4S
5.8&03
Child
Ji
6.2B43
6.6B-04
12li-03
23B-02
I.6&01
2.9&02
5IB-OI
7.4B-02
4.3E4B
4.0tM)3
i.2B+ar8.i&fli
Child
10-14
4.4Efl3
4.7&04
8.7&04
I6E-02
5.0&02
21&02
3 6B-OI
5.3&02
3.0E-05
2.8R^3
5.I&OI
Child
15-19, Adyjt
3.4&«3 33E-03
361WM 3.4E-04
661WM 6.4&04
1.3&02 I.2B«2
3.8&02 3.7E-02
1.6B-02 UE-02
2.7B01 2.7Bfll
4.0&02 39B4I2
23LMJ5 2.21^15
2.2&03 2IIM)3
3.8R-OI 3.8E-OI
ARHAZ
Chloroform
1,1-DkhloiDCthine
1,1-Dichloroethene
Di-n-oclyl phthilile
I.l,l-Trichk>roelhtne
1,1,2-Trichtoroelhine
1,2-Dichloroclhcne
Phenol
Vanadium
Chromium
Copper
Nickel
Zinc
1.06&42
292&02
3.84&02
4.00&03
1J2&OI
1.08&02
7.I5B02
I.30B4>2
6.00E43
5JI&02
lOI&fll
4XME-02
1.14&OI
4.4fiE04
1.23&03
1.6IE-03
I.68&04
6.39B43
434E-04
3.0IB-03
5.47E4M
252&04
2.32&03
425E-03
1.70E-03
4.T9&43
5.92E-04 4.06&04
I.63E-03 1 12&03
ZIS&03 I.47E43
223&04 I33&04
8.49&03 5A2&03
6.03B4M 4.I3E-04
3.99B43 2.74B43
7.26B4M 497E-04
335&04 2.30B44
3.0BE-03 2II&03
5.64E-03 3MB4H
2.26&03 I35&03
6J7E03 4.36IM)3
287E-04
7.90&04
I.MB43
I.08E-04
4.UB40
2.92E-04
1.93E-03
3.52B44
1.62&04
I.49E-03
2.73E-03
I.09&43
3.08E-03
219E-04
603B04
7.93&04
8.26B<»
314&03
2.23&04
1.48B4I3
26B&*4
I.24&4M
I.I4&03
209E-03
B.34B04
2.3511-03
2.12Br04
5.84B44
7.68B04
R.OO&Q5
3.04B4U
2.16&04
1.43B43
2.60&04
120U-04
I.101M»3
2.20B-03
8081KM
2281^03
1E-02
I&OI
9&«3
2B02
9B02
4E-03
2R02
6E4I
9&03
IBtOO
4&fl2
2IM)2
2IWI
lUurd Indei
4JB42
1.2B4Q
I.8EOI
S.4B43
71Bfl2
1.IB4I
MB4I
9.1BM
2.8B42
2.3&03
1.0&01
8-S&02
2.4IMI2
8.1E-OI
5.9E4K 4.I&02
1.6E-02 1.I&02
14B4I I.6B«I
1.IE4U 7.7&03
94E-02 6.SE-02
U&OI I.O&01
20Efll 1.4E4I
I.2B-03 8.3B-04
3.7B02 26E-02
3.1&03 2111-03
1.4B-OI 9.7B02
1.1&OI 78E-02
32IM)2 221^)2
l.JB+OOb7JB-OI
29B02
7.9&03
I.2B41
5.4E-03
4.6&02
7.3B«2
9.7ED2
5.911*4
1.8B42
IJEfl3
68&02
53B-02
15IM)I
6.8B01
2.2B-02 2.1B02
60&03 58&D3
88E-02 8JE-02
4.1&43 4.0B43
3.5B-02 34&fl2
S.6E-02 5.4&02
7.4E-02 7.2B«2
43&04 4.3B-04
I.4B-02 1.3&02
I.IB-03 1.IB03
5.2E«2 5-SB02
4.2B«2 40E-02
I2E-0| ).H;-OI
5.1B4I 4.9B-OI
-------�
TABL_ 4-18
CHRONIC EXPOSURE VIA INGESTION OP OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USB
RME CONDITIONS
NONCARC1NOGENIC EFFECTS
Page 1 of 2
Expoture Dote fmt/la/davl
Compound*
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
Blhylbeiucne
1,1-Oichloroelhine
1,1-DicMoroethene
1 ,1 , 1 -Trichtoroelhane
BU(2-ethy)hexyl)pblhalale
BcruoicAcid
Concentration
fmi/U
40PM
1.2484)1
2.3584)2
8.938412
6.09E-01
53IE4B
4.20E-04
1.1684)3
6.49B4M
32384)3
6.084)3
6.SEM
Child
JfcL
2.17B4M
6.7384)3
1.27B4B
4.MB4B
3.3B4B
29984)6
2.28B4B
6.29E4B
332E4B
1.75B4M
3.25B4M
3.69E40
Child
J±
2.37B4M
7.34E03
I.39&03
5.28B4O
3.60&02
326E06
2.49&OS
6.86B4B
3MB4U
19I&04
3J5&04
4.02E-OJ
Child
iL
160E-04
4.9SB-03
9.3B&04
3S6R40
2.43E42
22B06
I.68B-05
463E-OS
2J9&US
I29E-04
2.39E4M
2.7IH-03
Child
10-14
1.12E04
347E-03
6SWM
2-50BflJ
I.7D&02
1.54B4M
1.I7E-06
3.24B05
1.82&05
9.03BD5
1.681J-04
I90&03
Child
15-19
Adult
ARBAV
8J2E-05
264E-03
5.0B4M
1.9084)3
1.30B4)2
1I7E-06
8.95B-06
2.47B45
138E-05
6.88B-OS
128E-M
I.45E-03
1.I4&04
3J4B4>3
671E-04
235E-03
1.74B4)2
U7&06
I20&05
3.31B4S
1.85E05
9.23&05
I.7I&04
I.94&40
ARBAW
1.1-Dichloroclhine
].!-Dichloroelhene
1,1,1-Trichloroelharw
4.02B4X)
6.87B4M
1.30E-02
2.18B4M
3.73B49
7.05&04
2.38B44
407&05
7.6SBO4
1.60B4M
274E-Q5
S.I9B04
i
I.12&04
1.92E4H
3.64B44
856E-05
I.46E-05
2.TTEM
1.I5E-04
I.96&OS
3.7IB-04
AREAX
1,1-Dichloroethane
1,1-Dichloroelhene
1,1,1-Trichloroelhane
1.1.2-TrichloroelhiiK
2.71 B-03
3.4784)3
1.9084)3
1.70B-02
I47E-04
I88E-04
I.03&04
9.22&04
160E-04
2.05B4M
1.I2E-04
I.01B-03
1.08B-04
1 J8B-04
7J8E-05
6.78&04
7.58&05
9.71 EM
5.3IB4K
4.75B44
S77&OS
7.39ROS
4.0SB-05
3.62E-04
7.74&05
9.91 fiJB
5.43B^K
4.86B-M
Hazard Quotient
RTO
fnu/kc/dav)
984)3
1R+00
484)2
284)2
284)1
184)2
184)1
184)1
9B4)3
984)2
284)2
48+00
Hazard Index
Child
0-1
2.484)2
6.784)3
3.284)2
2.484)1
1.784)2
3.0B4M
2.3B4M
6.3B4M
3.9B4I3
1.984)3
1.684)2
9.2B4M
4.984)1
Child
2-4
2.684)2
7.384)3
3384)2
26E-OI
1.884)1
3.3B4M
2384)4
6.9B4M
4.384)3
2.184)3
1.884)2
1.0B4)3
SJB4H
Child
5.9
1.8B4I2
5.084)3
2.384)2
1.884)1
1.284)1
2.2B4M
1.7B4M
4.6B4M
2.984)3
I.4B4)3
1.284)2
6.BE4M
3.784)1
Child
10-14
1.2B4>2
3384)3
1.684)2
1.384)1
8384)2
13B4M
1.2B4M
3.2B4M
2.084)3
1.084)3
8.484)3
4.BB4J4
2384)1
Child
15-19
9384)3
2.684)3
1.384)2
9384)2
6384)2
1.2B4M
9.084)5
238-04
1384)3
7.6B4M
6.484)3
3.6B4M
2.084)1
Adult
1.384)2
33B4B
I.724K
1.384)1
8.784)2
1.684M
1.2B4H
3.38-04
2.184)3
1.0B4M
8.684)3
4.9B4M
2.684)1
1E-OI 2.2E-03 2.48-03 1.6B4H 1.184)3 8.6B4H 1.2B4U
984)3 4.1B4O 43E-03 3.0B-03 2.184)3 1.684)3 2.2B4O
9E-02 78E4)3 B3B40 5.884)3, 4.0B4O 3.184)3 41B-03
llaiard Index 1.484)2 1384)2 1.0B4B 7.284)3 5.684)3 73B4I3
IB-OI 13B4I3 1.684)3 1.184)3 7.6B4H 5.8B4M 7.7B4I4
911-03 2.IB4I2 2.3B4tt 1384)2 1.184)2 8.284)3 1.184)2
984)2 1.184)3 1.284)3 8.4B4M 5.9B4M 43B4M 6.0B4M
4R4)3 2.384)1 2384)1 ).7B4); 1.2B4)| 9.1E4)2 1.284)1
Hazard Index 2384)1 2.8E4H 1.9B4)I 1.384)1 1.084)1 1.384)1
-------�
TABLE 4-18 (continued)
CHRONIC EXPOSURE VIA INOEST1ON OP OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARaNOGENIC EFFECTS
Page 2 of 2
EnxKun Dote (nu/kt/divt
Com round*
Chloroform
Elhylbenzene
Methyltne Chloride
l,l-Dtchloroelh»ne
1,1-Dichloroelhcne
1,1.1-Trichloroeihinc
l,l,2-Trkhloroelh»ne
1.2 Dkhloroetheoe
Xytenc
2-BuUnonc
Conccnlratlo*
Imj/U .
2.IOE-04
1.20B-03
1.9084)3
1.I9B-01
6.68B4J2
1.17B4M
I48E4H
666B-02
314H-03
9J3B-03
Child
JfcL
1.14B4B
6.S1B4B
I.03B4M
6.46B4B
3.62B40
6.35B4Q
803B-03
361B03
1.70B4M
5.17B4M
Child Child
Jd. -fcL
1.24E-05 8.38B-OS
7.10E4K 4.79B4B
1.12E-04 7J8B4M
7.04B40 4.75E-03
3.95E-03 267E-03
6.92B-03 4.67B4»
8.76B-03 5.9IB-03
3.94B4Q 2.WE-03
I.86B-04 1.25B-04
5.64&04 3JOB-04
Child
10-14
5.87E-06
3.36B4H
S.31B40
333E4)3
187E-03
3.27E40
4.I4&03
1.86B4O
B.78E-OS
2.67&04
Child
15-19 Adull
AREA Y
4.47E-06 6.00E-05
2J6B4B 3.43E4B
405B-OS 5.43B-05
2J3B-03 3.40B-03
1.42B4T3 1.9IE-04
2.49&03 3.34B4I3
3 ISB413 4.Z3B4T3
1.42B-43 1.90B-04
669E-05 897E4B
2.03B4M 2.72E-04
RID
(mi/kc/davl
IE-02
1B41I
6B4I2
112-01
9B-03
9&02
4B4I3
2B42
2RtOO
SEMI
Child
0-1
I.1&03
6J&04
1.7E-03
63E-02
4.0B41
7.IB42
2.0E+00
18E-01
8JE4B
1.0&02
Child
2-4
I.2E4B
7.1B4M
1.9B-03
7.0&02
4484)1
7.7E4»2
22B+00
2.0B411
9.3B4B
1.1E-02
Child
5-9
8.4B4M
4.8B4M
1.3B4)3
4.8E4H
30E4)I
S.2B-02
1.5E+00
1.3B4)1
6311-0$
7.6&03
Child
10-^
5.9E-04
3.4B4H
8.9B4M
33E-02
21E-01
3.6B-02
l.OE+00
9.3B-02
4.411415
$.3E4?3
Child
1$.|9 Adull
4JE4M 60E4M
2.6B4H 3.4E4M
6.8B4H 9.1B4M
23B4J2 3.4B4I2
1.6E4)1 2.1B4)1
2.8E4)2 3.7E4)2
7.9B4J1 1IB+00
7.1E4I2 9JE4H
33E-05 4JB41S
4.1E4T3 5.4E40
lluird Index 2.7B+00* 3.0B+00* 2.0B+00* 1.4E+00* 1.IB+00 1 JBtOO*
ARBAZ
Vinwlium
Chromiuin
Copper
Nickel
Zinc
CMorofoim
l.l-Dkhloroclhinc
1,1-Dkhloroelhene
Di-n-oclyl phlhiUte
1.1.1-Trkhloroelhine
1,1,2-TnchtofoelhiM
1,2 Dkhloroelhene
Phenol
60E-03
ts&m
1.0IB4I
4.0E43
1.I4&4I
4.0B43
533&02
7.66E-02
4.0B43
3J4E4I
1.43IM)2
I.30&OI
1.30B-02
3.25&04
2MBM
5.48B-03
2.17&03
6I8B-03
2.17&04
3.00B03
4.16E-03
2I7&04
192B02
7.76&04
7.QS&03
7.0S&4M
3JSB44
3.2SB43
5.96B-03
237&03
67SE-03
2.37E4M
327R03
4J3&03
2.37&04
2.09&02
846E-04
7.69&03
7.69E4H
2.39B4H
2.20B-43
4.03&43
tMBM
4J5E-03
1.60B-04
2.2I&03
3.06E4»
1J9B4M
1.41 B-02
S.7IE-04
5.19B-03
S.19B-04
168B-04
154B43
2.82BD3
I.I2E-03
3I9&03
1.I2B44
USIJ-W
2.14&03
I.I2BO4
990E-03
4.00BA4
3.64B43
3.M&O4
1.28B-04
I.17&03
2.15E-03
8J2E-04
2.43E-03
832&05
1.I8&43
163E-03
833&OS
7^4&03
3.0S&04
2.77&03
2.77B44
1.7IE-04
137BD3
2.B9B43
1.14B-03
3.ME-03
1.14&04
I38B-03
2.I9B-03
1.14B44
1.01&02
4.09&4M
3.7IBfl3
3.7I&04
9&03
IE tOO
4B-02
2K-02
2&OI
1E-02
1B41
9&03
2&02
91i-02
4R4)3
2E-02
6IMII
lluird Index
3.6B02 3.9B-02 27E-02 1.9B02 1.4E-02 1.9E-02
3.0B4) 3.3E49 2.2B-03 UE-03 I.2E-03 I.6B40
1.4E41 1-SBfll lORfll 7.1&02 S.4B-02 7.2B40
I.1B41 1.2B-OI 8.0B-02 5.6B4B 4.3R«2 5.7R02
3.1BH2 3.4B-02 23E-02 1.6B-02 1.2E-O2 1.6B42
2.2&02 2.4B-02 1.6E-02 1.1E-02 8.SE-03 I.1E-02
3.0B02 3.3B-02 2.2E-02 I.6B-02 1.2BO2 1.6E-02
4.6&OI SOE-01 3.4&OI 2.4&OI 18E-01 2.4&OI
1.IB-02 12B-02 80&O3 56&03 4.3&03 571MO
2IE-01 2.3&01 1.6B41 MEM)I 8.4&02 1.1&OI
1.9B4I 2.IB-01 I.4BOI 10G-01 76B-02 10P^fll
33124)1 3.8B-01 26&OI 181WJ1 1.4&«1 19E-OI
I.2H4I3 1.3B-01 86E4M 6.I&04 4.6&O4 6.2R4M
1.6IUOOb1.8B+OObl.2B>(Hb8.3E4)l 62E-OI 84E-OI
-------�
TABLE 4-19
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OPP-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USB
PROBABLE EXPOSURE CONDITIONS
NONCARONOGENIC EFFECTS
Page 1 of 2
Exposure Dote
Hazard Quotient
CompoumU
Vin«Jium
Chromium
Copper
Nickel
Zinc
Chloroform
Blhytbenzenc
I.l-Dichloroelhiiw
1,1-Dichloroelhene
M.l-Trichloroelrune
Bis(2-elhylheicyl)l*lUUte
Benzole Acid
Conrentrallon
(m«/U
300E-03
6.57E42
1.97B42
S.47B4H
3.81B41
392B-OS
2.00E44
5.16&04
3.03B44
I.03B-03
4JOB-03
4.6S&02
Child
2.74B4I7
8.40B46
1.80B4M
4.99E-OS
3.47&OS
24IE-06
9.84 B46
3.17EMB
\MBM
633E-QJ
I.37B-06
1.41&4H
Child
JL12
2.04&07
6.27E46
1.34B4M
3.73&M
261E-05
1.8IB4M
7.33&06
2.37&05
I.39B4B
4.73E4M
I.03E-06
1.06BOS
Child
13-17
1.69B-07
5.20&W
1.II&06
309E4M
2.I6&M
I.49E-06
6.0BB4M
1.96E-05
J.IJB4M
39IR-OS
844E-07
8.75B46
Adult
ARBAV
I.40E-07
4.3I&06
9.22&07
237&06
1.78E-05
I.23E-16
5.04&06
163&05
9J4B-06
3.24&OS
760B-07
7.2SE-06
Rm
fmt/tt/dav^
SIMM
IB-02
2&02
6B-04
l&fll
1B02
8B-02
7&02
8&03
8R-02
3&03
2B+00
Hazard Index
Child
JbL
5-5&O5
84&O4
9.0E-05
8.3E43
3J&D4
24B-04
I.2B-04
4JE-04
2.7&04
7.9E44
4.6&04
7.I&06
1JB02
Child
JJL
4.IB4S
63&04
6.7&OS
6.2E-03
26B4M
18E-04
9.2&4H
3.4E-04
2.0&04
S.9B4M
34E-04
5.3B06
8.7B43
Child
1HL
3.4B-OS
52E-04
J.6E-OJ
S.2B4I3
22E-04
1JE-04
7.6&05
2.8&04
I.6&04
4.9&04
28E-04
4.4B-0^
7.3&03
Adult
2.8B4B
4.3B44
46&05
4.3E-03
18&04
I.2E-04
6.3G-05
2.3&04
I4E-04
4.1&04
2.3&«6
3.6R-06
5.8E-03
1,1-DkMoroelhane
M-Dkhlorocihene
1,1,1-Trkhlotoelhioe
I39E-03
2J8B-04
4.99E-03
8J5E-05
U9B45
3.07E44
6.39B4B
1.I9B08
2.30&04
S.28B45
980E46
I.89B04
AREAW
4.381M5
8.13B-06
1J8&04
7&02 I.2B-0) 9.1E4M 7JE-04 6.3B44
8K-03 20B4J3 UE4O 12E-03 10E-O3
8&02 3BE-03 2.9&03 2.4&03 2.0IV03
lluant Index 7.0E-03 5JE43 4.4E-03 36E-03
1,1-Dichloroelhane
1,1-Oichloroelhene
1,1,1-Trkhloroelhine
1,1.2-Trichloroeihine
1.17IMI3
I3IE-03
I.I1E-03
5.30E-03
7.20E-05
805E-05
6.82B4S
3.26B44
5.38&05
602E-05
5.10E-05
2.44B44
4.44E^)S
4.97B4B
422IM)S
2.01 &04
ARHAX
369fM»
9.I3B4B
3.50B4B
I.67E-04
7IW)2
8&03
81UI2
4E43
I.OED2
8S&04
llaurd Index 9.4&02
7.7B*»
6.4&04
7.0B42
6.3E-04
6.2&fl3
S.3&04
50H-02,
5.7E«2
5.3&04
4.4IMM
4.8B-02
-------�
TABLE 4-19 (continued)
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
Chloroform
Elhylbenzene
Melhykne Chloride
1,1-Dichloroelhine
1.1-Dichloroclhene
1.1,1-Trichloroelluine
1.1,2-Trichloroelhane
1.2-Dichloroelhcne
Xyknc
2-Buianone
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
,1-Dichloroelhane
,1-Dichloroethene
,1,1-Trichlonxlhint
.1,2-Trichloroelhine
,2-Dichlococlhcne
Phenol
Di-n-oclylphlhalate
Concentratloa)
fmi/U
16384)3
1.7284)3
1.92003
60884)2
3.6884)2
68584)2
5.3084)2
38784)2
2.22B-03
5JIB413
60084)3
S^1B-02
l.OIB-01
40484)2
11484)1
1.0684)2
2.9284)2
38484)2
13284)1
10884)2
7.1584)2
13084)2
4.0084)3
Enntuit Dote fmc/k>/dav)
Child
•»*
IOOE4M
I.74E4B
1.1884)4
374B4O
2.26B-03
42084)3
32684)3
23784)3
136B4M
1.59B-06
S.48B47
7.0484)6
92284)6
3.6984)6
I.04B4B
631B4M
17984)3
236B40
93484)3
664B4M
4.39B-03
3.96B4M
12284)6
Child
ill
749B4B
632848
B.82B-05
2.79B4M
1678-03
3.14B-03
2.4484)3
17884)3
I.02B4M
1.1284)6
*
4.0984)7
52884)6
69084)6
27684)6
7.7884)6
4.90B4M
1.3484)3
1.77B-03
69884)3
49684M
3.2884)3
2.96IMM
9.1E4J7
Child
1H7
619E4B
5228-05
7.30B4B
23184)3
14084)3
26084)3
2.0IE-03
1.4684)3
8.43B-OS
98IE4T7
338E4J7
43684)6
5.7084)6
2.2984)6
64384)6
4.0384)4
1.1184)3
14684)3
S.77E4)3
4.10B4M
27184)3
24484)6
7JIE4)7
Adull
ARBAY
5.14E4B
433848
60SE48
1.92B4)3
I.I6B4T3
2I6B4)3
I67B413
I22E4»
699848
8.I2B47
ARBAZ
28IE4(7
36284)6
4.73124)6
18984)6
53484)6
3 34 84)4
9.20B4M
I2IE413
4.7884)3
3.41124)4
2.25B4M
20384)6
6.25B4)7
Hazard Ouolienl
RID
fmt/kt/dav)
184)2
884)2
684)2
7E-02
884)3
884)2
484)3
284)2
28 tOO
584)2
Hazard Index
5E4M
IB4)2
284)2
6B4M
184)1
184)2
784)2
884)3
884)2
484)3
2IU12
584)1
384)3
Hazard Inden
Child
(Mi
1.084)2
2284)4
2084)3
5384)2
2884)1
5384)2
8284)1
1284)1
68848
3.284)5
IJEfOT/1
I1B40
70B4M
46B4M
6284)3
1.084M
6JE4I2
2684)2
3084)1
1284)1
I.7IMII
2284)1
7.984)6
4.184)4
9.184)1
Child
7-12
7.5E4B
7.9E4M
1JB4I3
4.0B4Q
2.164)1
39B4T2
6184)1
8984)2
5.1E4B
2484)5
lOB+OO5
8.2B4M
S.3B4M
33B4M
4684)3
7.8B4B
4.984)2
19B4T2
2.2B4)|
8884)2
1284)1
1.684)1
5.984)6
3084)4
6.884)1
Child
13-17
6284)3
63E4M
1284)3
3.384)2
1884)1
3.3E4J2
3.084)1
7.3B4B
4.2B48
2.0E-OS
8384)1
68E4M
44B4M
2984M
3884)3
6484)5
4.084)2
1684)2
1.884)1
7.384)2
1.084)1
1.484)1
4.984)6
2584)4
5.78-01
Adull
5184)3
5484)4
1084)3
2.7B4I2
1.584)1
2.7E4B
4.284)1
6.1B4U
3JB4JS
1 684)5
6.984)1
56E4M
368-04
24B4M
3184)3
5384)5
3.3B4)2
1.384)2
1JE4)1
6.084)2
8.584)2
1 184)1
4.084)6
2184)4
4.684)1
-------�
TABLE 4-20
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USB
RME CONDITIONS
NONCARC1NOGENIC EFFECTS
Page 1 of 2
Compound*
Vanadium '
Chromium
Copper
Nickel
Zinc
Chloroform
Eihylbenzene
l.l-Dkhlorotlhane
1,1-Dkhloroethene
1,1,1-Trichlorotlhine
Bu(2-«lnylhexyi)phtlalate
BcruoicAcid
l,l-Dichloroelhtn«
I.l-Dichloroelhene
l.l,l-Trichloroelh«ie
M-Dichloroelhane
l.l-Dichlonxlhene
I.l.l-Trichloroethine
1,1,2-Trichloroeltune
Concenlralion'
fmt/Ll
4008-03
1.24 E4)l
23584)2
8.9384)2
6.0984)1
5.5184)5
4.2084)4
11684)3
6.4984M
32384)3
6008-03
6.8084)2
4.0284)3
687E4M
1.3084)2
2.7IE-03
3.47E4)3
1.9084)3
I.70B4)2
Child
Jfcfi
6138-07
2.65B4JS
3.6084)6
1.37B-05
934848
5.6984)6
3.47B4K
1.20B4M
6.70E4M
333B4M
30784)6
3.49B4M
4.15B4M
7.1084)5
1.34 E-03
2.80E4M
3-S9B4M
1.9684)4
1 .758-03
BxmKurc D
Child
7-12
;4.5
Adult
ARBAV
: 3 Si 84)7
135B4H
183E-06
6.9684)6
4.74B4B
2.898-06
I.77E4H
610E4B
34IB4B
I.73B4M
1J6B4M
1.77B4B
AKBAW
2.1IB4M
36184)5
6.84B4M
AREAX
1.43E4M
1.B2D4M
9.97B4B
8.93B4M
H«ard Quotient
RID
fmtVkt/davl
584M
184)2
284)2
6B4M
184)1
184)2
88-02
7E4)2
884)3
884)2
38-03
28+00
Hazard Index
7&02
884)3
Hazard Index
7&02
884)3
884)2
484)3
Hazard Index
Child
M.
1.2B4I3
2.7E03
1.8B4M
2384)2
9.3B4M
3.7E4M
43B4B
1.784)3
8.484)3
428-03
10E4)3
1.784)5
4.4B4)2
5.984)3
898-03
3284)2
4.0B43
4SR4tt
2JB4H
f4B-OI
4.98-01
Child
9.2B4M
2084)3
1.4B4M
1.784)2
6.984)4
4.2B4M
3.3B4K
1.38-03
6384)3
3.1E4O
7.7&04
1.384)5
3JB4T2
4.484)3
6.78-03
2.484)2
3.0E40
3484)2
1.884)3
3.3114)1
3.7E4JI
Child
13J7.
7.6B4M
1.684)3
118-04
1.484)2
5.7B4M
33E4M
2.7E4B
1.IB4T7
5.284)3
2684)3
648-04
1.1B4B
2.7E4)2
3.7BO3
5JB-03
1.064)2
1.984)2
2J&03
2.804)2
138-03
2.7B411
3.IB4JI
Adull
6.3E4M
1484)3
9.284)5
1. 284)2
478-04
2.9B4M
2.284)5
8.884)4
4.3B4)3
2.184)3
S.2E4M
8.9B4B
2.3ED2
3.084)3
4-584)3
1.684)2
2.0B-03
2.304)2
1.384)2
22R4H
-------�
TABLE 4-20 (continued)
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 3)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARdNOGENlC EFFECTS
Page 2 of 2
Enpoture Dote (mi/kt/divt
Conctnlralkn
Compound!
Chloroform
Elhylbenzcnc
Mclhytenc chloride
l.t-Dichloroelhtne
1,1-Dichkuoelhene
1,1,1-Trichlorocihanc
1,1,2-Trichloroclhane
1,2 Dkhtoroelhene
Xylcne
2-ButaiKMie
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
1,1-Dkhloroelhane
I.l-Dichloroelhene
I,l,l-Trichloroelh«ne
1,1,2-Trichtoroclhant
1,2-Dkhlorotihenc
Di-n-octyl phthalile
Phenol
2.10B-04
I20E-03
I.90&03
I19&01
668E-02
I I7BO1
666B-02
3.I4B-03
9J3E03
6.00B-03
5JOE-02
IOIE-01
4.00B-02
I14E-01
4.00B-03
533&02
766E-02
354Bfll
143E-02
I.30&OI
400rW)3
l.30&«2
Child
M
2.17B4S
9.92E-OS
1.96B-04
I2JE-02
6.89B-03
1.21 E-02
1.53E-02
6.88E-03
324E-04
488E-06
921E-07
MSB-OS
I.5SB46
6.13B-06
I.75B-OS
4I3B-04
5.7IB-03
7.92R03
366E-02
I.48B43
1.34E-02
2.04B-06
663B-06
Child
Jill
1.60B4S
7.35E-05
I.45E-04
9.11&03
5.11B43
8.96B-03
I.26B42
5.IOB03
2.41B4M
3.61B-06
683E-07
8.77R06
I.I5E-06
436E-06
130E-05
3.07E-04
424E-03
5.B7BD3
2.71 B-02
1.IOB-03
996E^)3
1 5211-06
4.93B-06
Child
1H2
I33&OS
6.08E-05
120&04
734E-03
4.23B-03
7.4I&03
936B-03
4.22B4T3
I98E-04
2.99E-06
5.64 B-07
7.24E-06
9.49B-06
3.77B-fl6
1.07B-OS
254B-04
350E-03
4.UB03
223E-02
9.05B-03
8.23B-03
I25E-06
4.07B-06
Adull
ARBAY
MOB-OS
5.04 R-OS
9.97B4B
625E-03
3JIB-03
61511-03
7.78&03
3JOB4I3
I.65B44
248E-06
ARBAZ
4.69B4T7
6.0IB-06
7.88&06
3IIE-06
8.89B46
2.IOB-04
2.90B-03
4.01&03
I.86E-02
75IB-03
6.83&03
I04E-06
3.38B^)6
llnard Quotienl
RID
IB-02
8IMJ2
6I!-02
7E-02
8B-03
8 E-02
4B-03
2B02
2E + 00
Hazard Index
SB-04
IB-02
2K4I2
6IMM
IB-OI
IB4)2
7B-02
8E-03
8E-02
4E-03
2B-02
3IU)3
5 E-02
llaurd Indci
Child
22E-03
1.2B-03
3.3B-03
1.8&OI
8.6&OI
IJB-01
3.86*00
34B-OI
I6E-04
S.3B40D*
I8B«3
I.2B-03
7.8B-OS
I.OIUI2
I.8E-04
4.IB-02
8.2B-02
99E-01
4.6B-OI
3.7B-OI
6.7IUII
6RE-W
I3IUM
2.6B+OOb
Child
I6E-03
9.3B-O4
23B-03
I3E-OI
6JE-01
1.IB-OI
29H+00
26&OI
12E-04
7.3E-05
4.0B+00"
1.4B-03
8.8B-04
58E-05
7.7B-03
1.3B-04
3.IE-02
6 IB-02
7.4B-OI
3.4B-01
2.8B-OI
J.OI«J
5.IB-04
9.9U-OS
2.0EtOOb
Child
1ML
I.3E-03
7.7E-04
2.0E-03
1 IE-01
S.4B-OI
9.4E-02
24E+00
2.IB4)!
I.OB-04
6.IE-05
3.3B+00*
1.1&03
72E-04
4.8B-OS
6.4B-03
I.IB-04
2 .5 E-02
5IE-02
6.2B4)I
2.8B-OI
23E-01
4.2B-OI
4.2B-04
8.3IJ-05
l.6I!*OOb
Adull
1.IB-03
6.3B4M
1.7B-03
90B-02
4411-01
7.7Bfl2
20EfOO
I.8B-OI
83E-05
S.OB-05
2.7E+00*
9.4&O4
6.0B44
4.0B-05
5211-03
8.9B-05
2.IB-02
4.2&02
5 IE-01
23E-OI
1.9E-OI
34I!-OI
JJB4M
6SR4JS
1.3BtOOb
-------�
TABLE 4-21
CHRONIC EXPOSURE VIA INHALATION OF VO1ATILES FROM OFF-TCAAP GROUND WATER DURING SHOWERING (UNIT 3)
CURRENT AND FUTURE LAND USB
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Compounds
1,1-Dichloroethane
1,1,1-Trichloroetbane
1,1-Dichloroethane
1,1,1-Trichloroethanc
1,1-Dichlorocthanc
1,1,1-Trichlorocthanc
Chloroform
Melhylene chloride
1,1- Dichloroelhane
1,1,1-Trichloroethanc
Xylene
2-Butanone
1,1 -Dichloroelhane
1,1,1-Trichloroethanc
Concentration
5.16E-04
1.03E+00
1.39E+00
4.99E+00
1.17E+00
1.11E+00
1.63E + 00
1.92E+00
6.08E+01
6.85E+01
2.22E + 00
5.21 E+00
2.92E+01
1.52E+02
Exposure Doye (mg/kg/day)
Child Child
0-6 7-18
AREAV
1.63E-08
3.00E-OS
4.39E-05
1.45E04
3.70E-05
3.23E-05
4.69E-05
6.14E-05
1/J2E-03
1.99E-03
6.97E05
2.55E-05
9.23E-04
4.42E-03
7.74E-09 2.48E-09
1.42E-05 4.75E-06
AREAW
2.01E-05 6.69E-06
6.89E-05 2.30E-05
AREAX
1.76E-05 5.63E-06
1.53E-05 5.12E-06
AREAY
2.23E-05 7.16E-06
2.92E-05 9.27E-06
9.12E-04 2.92E-04
9.45E-04 3.16E-04
3.29E-05 1.06E-05
1.21E-05 3.88E-06
AREAZ
4.3RE-04 1.40E-04
2.10E-03 7.01E-04
Hazard Quotient
RfD
mg/kg/dav
Child
JHL
1E-01 1.6E-07
3E-01 l.OE-04
Hazard Indue l.OE-04
IE 01 4.4E-04
3E-01 4.8E-04
Hazard Index: 9.2E-04
1E-01
3E-01
Hazard Index:
IE 02
6E-02
IE 01
3E-01
9E-02
9E-02
Hazard Index:
1E-01
3E-01
Hazard Index:
Child
TJtS
7.7E-08 2.5E-08
4.7E-OS 1.6E-05
4.7E-04 1.6E-05
2.0E-04 6.7E 05
2.3E-04 7.7E-05
4.3E-04 1.4E-04
3.7E-04
LIMA
4.8E-04
4.7E-03
l.OE-03
1.9E-02
6.6E-03
7.7E-04
2.8E-04
3.2E-02
9.2E-03
1.5E-02
2.4E-02
1.8E-04
11M5
23E-04
2.2E^)3
4.9E-04
9.1E-03
3.2E-03
3.7E-04
1.3E-04
1.5E4T2
4.4E-03
7.0E-03
1.1E^)2
5.6E-05
1.7E-05
7JE-05
7.2E-04
1.5E-04
2.9E-03
1.1E-03
I.2E-04
4.3E-OS
5.0E-03
1.4E-03
2.3E-03
3.7E03
-------�
TABLE 4-22
CHRONIC EXPOSURE VIA INHALATION OP VOLATILES FROM OFP-TCAAP GROUND WATER DURING SHOWERING (UNIT 3)
CURRENT AND FUTURE LAND USB
RME CONDITIONS
NONCARCINOGENIC EFFECTS
Compounds
1,1-Dichlorocthanc
1,1,1-Trichlorocihanc
1,1-Dichloroethane
1,1,1-Trichloroethane
1,1- Dichloroel bane
1,1,1-Trichloroethane
Melhylene chloride
1,1-Dichloroclhane
1,1,1-Trichloroethane
Xylene
2-Bulaoone
1,1-Dichloroclhaoe
1,1,1-Trichloroethane
Concentration
(ma/L)
1.16E-03
3.23E+00
4.02E+00
1.30E+01
2.71E+00
1.90E+00
1.90E+00
1.19E+02
1.17E+02
3. HE+00
9.53E+00
5.53E+01
3.54E+02
Exposure Dose f mg/kg/dav)
Child Child
0-6 7-18 AJuJi
8.81E-08
2.26E-04
3.06E-04
9.10E-04
2.06E-04
1J3E-04
1.46E-04
9.04E-03
8.19E-03
2.36E-04
1.12E-04
4.20E-03
2.48E-02
AREAV
4.16E08 1.34E-08
1.07E-04 3.46E-05
AREAW
1.44E04 4.66E-OS
430E-04 1.39E04
9.73E-05
6.29E-05
AREAX
3.14E-OS
2.03E-OS
AREAY
6.90E-05 2.22E-05
4.27E-03 1.38E03
3.87E-03
1.12E-04
5.36E-05
1.2SE-03
3.ME-05
1.70E-05
1.99E-03
1.17E-02
AREAZ
6.41 E 04
3.79E-03
Hazard Quotient
RfD
nig/kg/day
IE 01
3E-01
Hazard Index:
1E-01
3E-01
Hazard Index:
IE 01
3E01
Hazard Index:
9E-OI
1E-01
3E-01
9E-02
9E-02
Hazard Index:
1E-01
3E01
Hazard Index:
Child
JLJL
8.8E-07
7.5E-04
7.5E04
3.1E-03
3.0E-03
6.1E-03
2.1E-03
4.4E-04
2.5E-03
1.6E-04
9.0E-02
2.7E-02
2.6E-03
1.2E-03
1.2E-01
4.2E-02
8.3E-02
1.3E-01
Child
Hfi
4.2E-07
3.6E-04
3.6E04
1.4E-03
1.4E-03
2.8B-03
9.7E-04
20EJM
1.2E-03
7.7E-05
4.3E-02
1.3E-02
1.2E-03
6.0E-04
5.8E-02
2.0E-02
3.9E-02
5.9E-02
Adult
1.3E-07
I.2E-04
1.2E-04
4.7E-04
4.6E-04
9.3E-04
3.1E-04
fiJEJQ
3.8E-04
2.5E-05
1.4E-02
4.2E^B
4.0E-04
1.9E-04
1.9E-02
6.4E-03
1.3E-02
1.9E-02
-------�
TABLE 4-23
ACUTE EXPOSURE VIA INGBSTION OP OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Exposure Dote (mt/kt/dav) Hatard Quotient
Page I of 2
Compounds
Chromium
Copper
Nickel
Zinc
Caibon Telrachloride
Chloroform
Melhylene Chloride
1,1-Dichloroelhine
1,1-Dichloroelhene
1,1,1-Trichloroelhane
1.1.2-Trichlorocllune
Telrachloroethene
Bi$(2-elhylhexy1)phlhtUte
BenzokAcM
Antimony
Vanadium
Chromium
Copper
Nkkel
Chloroform
Toluene
1,1-Dichloroelhine
1,1-Dichloroelhene
1,1,1-Trichloroethane
1.1,2-Trichtoroelhane
Tetrachloroeihene
Dis(2-elhylheiryl)phlhalale
l)i-n bulylphlhatalc
Di-n-oclyl phlhalale
llenzoic Acid
N-bulyl henzyl phlhalale
Concentration
(mi/Li
I.12O-02
1.1804)2
1.3404)2
2.670+00
1030-04
2.730-05
4.I5O-04
2.4704)3
119O4J3
2.4604)3
4.I8O4H
S.68B4B
3.00E-03
9.000-03
J.73E-02
6.1004)3
I.I3O-02
3.84 04)2
9.2704)2
3.56E4B
1.720-02
2.88B4M
1.7104M
754E-04
3.60E-OS
1.7904)4
6.8C-02
7.00154)3
9.504)2
4.00H-03
2.0004)3
Child Child Child Child Child
0-1 2-4 5-9 10-14 15-19 Adult
ARHAW
47IB4M 6.2604)4 4.2904M 3.0304)4 2310-04 2.2404)4
4.96B-04 6-590-04 4.520-04 3.I904M 2.440-04 2360-04
5.64O4M 7.4904M 5.I3B-04 3.62O04 2.770-04 2.68&04
I.I2B4I I.49B4I I.02&01 7.22&02 5-5ID4)2 S.34&42
433E-06 5.75&06 3.94E46 2.79B46 2.I3B46 2.06IMI6
1.15B46 153E46 1.04&06 7.38Bfl7 5.64B47 5.4A&07
1.75&05 2.32B4S U9E-05 1.I2B4S 8J7E-06 8.30&06
I.04B-04 I.38&04 9.45&05 6.68&05 5 IDE-OS 4.94B4H
5.00&05 665B-05 4J5&05 3.22&05 2.46B40 238&O5
1.03E-04 1.37B04 9.4I&05 6.65EM S.08&05 4.92B4S
I.76B4K 2.34B46 1.60&06 1.13&W 863E-07 8.36B47
2.39B«6 3I7E-06 2.17&06 134B06 1.I7&06 I.14&06
I26E-04 168E-04 I.15&04 8IIG-05 619B-05 600B-U5
3.78&04 5.03B-04 3.44B4M 2.43B4M 146&04 I.80&04
ARBAX
1J7B-03 2.08&03 I.43&03 l.OI&O) 7.70&04 7.46&O4
2J7EXM 3.4IE44 2.33B4M I.6SB04 I.26E-04 1.22&04
4.75E4)3 6.31E-03 4J2E-03 3.06&03 2.33B03 2.26B-03
I.6I&O3 2.ISE-03 I.47E4) 1.04&03 7.93B-04 7.68&04
3.90B-03 5.IBB43 3-55E-03 2 151M»3 1.9IB-03 185E-03
!JOBfl6 I.99B4K. 1.36&46 9.63&07 7.35&07 7.12E-07
7.23B4H 96IE-04 6-58E4M 4.65B44 3JJ&04 3.44B-04
1.2I&05 16IE-05 1 1DE-OS 7.79B4)6 595B-06 5.76&06
7.I9E-06 95SB46 6^4B-06 4.62&M 3J3B-06 3.42B-06
3.17E-05 4.21B-05 2.89B45 2.04B-05 IJ6E-O5 IJ5IR-05
13IB4M 2.0IE-06 1.38&06 9.74&07 7.43R07 7.20&fl7
7.5E-06 I.OOlMrJ 6.8S&06 4.B4B-06 3.70&46 3^8E-06
2.8AE43 3.80B-03 2.60E43 1 84I!-03 1.400-03 13611-03
2.94IMM 39IE-W 268B-04 1.89E-04 1 45IMM I.4UB4M
4.00IM)3 5.3UR-03 3MK-03 2.57B43 I.96IM)3 I.90IMI3
I.68I--W 2.23E-04 IJ>3I!*4 1 08IMM 82611-05 8.0UIMIS
B.4UIWJ3 1.I2E4M 7«i;*S S.40D^)5 4 IKIvO5 4.0U1<^)5
RID
(niB/kg/day)
10+01
404)2
204)2
20-01
704)3
104)2
604)2
10+00
904)3
904)1
404)2
104)1
2O4)2
40+00
Hazard Index
404)4
904)3
10+01
40-02
204)2
104)2
40-01
10+00
9O4)3
904)1
404)2
104)1
204)2
10 + 00
204)2
40100
2001
Hazard IndcK
Child
JdL
4.7O4B
1.204)2
2.804)2
5.604)1
6.204)4
I.204M
2.9B4H
1.00-04
5.604)3
1111-04
4.404)5
2.4O4B
6.304)3
9304H
6.6G-OI
3.90+00
2904)2
4.8G4M
4.004)2
2.004)1
150-04
1804)3
1.2045
8.004)4
3-5B4B
3.80-05
7.J04B
1.404)1
2.904)3
2004)1
4.2H4IS
4.204)4
Child
J±
6.304)5
1.604)2
3.7O4)2
7.504)1
8 204)4
1-504M
3.9O4M
1.404)4
7.404)3
1-504)4
5.904)5
3.204)5
8.404)3
1.30-04
8.8001
5.20+00
3804)2
63O04
5.404)2
2.604)1
2.0E4M
2.404)3
1.604)5
1.104)3
4.704B
5.00415
1.004)4
1904)1
3.904)3
2.704)1
S.6IMK
5604M
Child
-H-
4.304)5
1.104)2
2.604)2
5.104)1
5.6O4M
I.OG4M
260-04
9.504)5
SID4I3
1.00-04
4.004)5
2.204)5
5.80-03
8604)5
60E-01
3.60+00
26O-02
4.30-04
3.704)2
1.804)1
1.404M
1.704)3
1.104)5
7.3O4M
3.204)5
3304)5
6.904)5
1304)1
2.704)3
1.804)1
3804)5
3 81 -4M
Child
10-14
3.00-05
8.004)3
1.80-02
3.6O4II
4.00-04
7.404)5
190-04
6.704)5
3.804)3
7.404)5
2.804)5
1JO-Q5
4.104)3
6.104)5
4.204)1
2 JO +00
1.804)2
310-04
260-02
1.304)1
960-05
1204)3
7804)6
5.104)4
2.304)5
2.404)5
4.804)5
9.2I!4>2
1.904)3
1.304)1
2.704)5
2.71 !4M
Child
)5-19
2.304)5
6.104)3
1.404)3
2.804)1
3.004)4
5.6B4B
1.404)4
5.10-05
2.704)3
5.604)5
2.204)5
1.20-05
3.104)3
4.604)5
3.1O4)1
1.90 + 00
1.404)2
2.3O4M
2.0B4H
9.6O-02
7.404)5
9.004)4
6.0O4K
390-04
1.704JS
1.904)5
3.704)5
7.004)2
1.504)3
8.904)2
2.104)5
2I04M
4.90 « 00a 6.00 » 0()a 4.20 * 00a 2.90 * 00a 2.20 * 00a
Adult
2.204)5
5.904)3
1.304)2
2.704)1
2.9G4M
5.504)5
1.404)4
4.904)5
260-03
5-504)5
2.104)5
1.104)5
3.004)3
4504)5
3.204)1
1.90+00
1.404)2
2.30-04
1.904)2
9.3E-02
7.I04B
8.304)4
5.804)6
3.804)4
1.704)5
1.804)5
3.604)5
6804)2
1404)3
9504)2
2004)5
2IIIMM
'2.2li«0o'
-------�
TABLE 4-23 (continued)
ACUTE EXPOSURE VIA INGESTION OP OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGBNIC EFFECTS
Page 2 of 2
Brooture Dote fmt/fci/dav)
Hazard Quotient
Compound*
Bromodichloroethane
Chloroform
Toluene
Melhylene Chloride
1,1-Dichloroethine
1,1-Dkhloroeihene
1.1,1-Ttichloroelhine
1.1.2-Trichloioethane
Xyknc
Telrachloroelhenc
Concentration
imf/L)
404B4M
40984)4
6.4484)3
6.4IB4M
1.8084)3
'1.42843
621114)3
4. 18844
S.43B-04
4.03B4M
ChikJ
0-1
1.70848
1.7284)5
2.7184)4
2.708415
7.57B4B
S.97B4B
261B4M
1.76B4B
35584)5
1.6984)5
Child Child
2-4 _L9_
2.26B4B 155E4B
22884)5 I57E4B
16084)4 2.4684)4
35884)5 2.45E-OS
1.01 B4H 6.8984)5
7.93B4B 54384)5
3.47B4M 2.38G4M
2.3484)5 160B4B
4.7I&OS 3.2JBOS
2.23BOS I34E-Q5
Child
10-14
1.09E4S
1. HE-OS
I.74B-04
I.73E-05
4.87&OS
3.84B45
1.68B44
II3E-05
2.28&OS
I.09E-05
Child
15-19 Adult
ARRAY
834E-06 808E-06
8.4SE46 8.I8B4M
I.33B44 I29E-04
I.32&05 I.28E-05
3.72B4U 3.60&05
2.93&QS 2.84B4U
1.28B-04 1.Z4&04
8.63E46 8.36124)6
l.74e4B I.69B-05
8.32&06 8.0615-06
RID
(mt/lit/dav)
2E-02
IIM)2
4li4)l
6E4)2
IHtOO
9B03
911-01
411-02
40tOO
IIM)I
Hazard Indci
Child
0-1
»SErOt
1.7&03
6.8B04
45U1M
7.6IW)5
6611-03
2.9&04
4.4B4M
3.61MB
I.7IHH
!.IIM)2
Child
2-4
1.I&03
23B-OJ
90E-W
6.0B44
I.O&04
8.8liflJ
39E-04
S.9&04
4.8B-05
23I'.4M
IJI1-02
Child
S-9
7.884)4
I.OB4I3
6.2B4M
4.IB4H
6.9R-05
6011-03
2.6G4M
40B-04
32B-05
I.SB4M
9.71W)3
Child
10-14
55&04
I.1&03
4.4&04
2.9&04
4.9E-05
4.3B4)3
I.9B-04
2811-04
22IM1S
1.IB-04
7.3B03
Child
15-19
4.2B-04
8-5 IWM
3.3&04
2.2R4H
3.7&OS
3.3&03
14E-04
22H-04
1.7IJ4B
8.3B-05
56114)3
Adult
4.011-04
8211-04
3.2B4M
2111-04
3.6B-05
32E-03
1 .4114)4
2II14M
I.7U4)5
8IU4)5
5.4G4I3
AREAZ
Chromium
Copper
Nickel
Zinc
Toluene
1,1-Dkhloroethane
1,1-Dichloroelhene
1,1,1-Trichloroelhane
1,1.2-Tfkhloroclhinc
1,2 Dkhtoroelhane
Tetnchloroelhene
Bcnzoic Acid
2.82114)2
2.14B432
2.69B4)2
282B400
233B4)2
2-S7E4)2
264B4I2
106B4U
2.79B4)3
263B4K
973E4)3
1.70114)1
1I9&03
900E4M
H3B4)3
1.1984)1
9.80B4M
1.80E4W
1.11E4)3
4.46B4M
I.I7B4M
I.IIE4)3
4.09E4M
7.I5U4O
1J8E4)3 I.08E4)3
1.20B4I3 8.I9B4M
IJOE4)3 103E4)3
1J8B4I1 I.08B4)!
130E4M 8.92E4M
1.44E4)3 9.83B4M
1.47E40 I.01B43
5.92B4)3 406840
1J6E4M I.07B4H
1.4784)3 1.0184)3
544E4M 3.72B4M
930E40 631D4)3
7.63B4M 5.82B4M
5.79114M 442E4M
7.28B4M 53SB4H
76384)2 582B4H
6.30B4M 4.81 B4M
6.9SB4M S.3IB4M
7.I4B4M 5.45B4M
28784)3 21984)3
7-SSI14« 5.76848
7.IIE4M 543B4H
263B4M 20IE-04
4.6084)3 35184)3
S.64B4M
42BI14M
S.38B4M
S.64B4I2
4.66B-04
5.14B4H
S.28B4M
2.I2B-03
538E4B
5.26C4M
1.9SB4M
340114)3
IR»OI
4114)2
2114)2
2114)1
484)1
IBtOO
984)3
984)1
484)2
284)1
184)1
48^00
Hazard Index
I.2B4M
2.384)2
5.784)2
5.984)1
2584)3
1.184)3
1.284)1
5.084)3
2.984)3
5.684)3
4.184)3
1.884)3
8584)1
1.684)4 1.I84M
3.084)2 2.084)2
7584)2 5.284)2
7.984)1 5.484)1
3.284)3 2.384)3
1.484)3 9.884M
1.684)1 1,184)1
6.684)3 4584)3
39114)3 2.784)3
7.484)3 5.184)3
5.484)3 3.784)3
1484)3 1.684)3
I.IB *00b 7.784)1
7.684)5
1.484)2
3.684)2
3884)1
1.684)3
7.0B4H
7.984)2
3.284)3
1.984)3
3684)3
2.684)3
1.28413
5.484)1
5.8B4B
1.184)2
2.884)2
2.984)1
1.284)3
5.3B4M
6.184)2
2.484)3
1.484)3
2.784)3
2.084)3
H8I14M
4.284)1
5.684)5
1.184)2
2.784)2
2.884)1
1.284)3
5.1B4M
5.984)2
2.484)3
1.484)3
2.684)3
2.084)3
BS84M
4.0114)1
-------�
4-24
ACUTE EXPOSURE VIA INGESTION OP OFF TCAAP GROUND WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARC1NOGENIC EFFECTS
Page I of 2
Exposure Dote (mt/kt/davl
Hazard Quotient
Compounds
Chromium
Copper
Nickel
Zinc
Carbon Telnehloride
Chloroform
Melhylene Chloride
1,1-Dkhloroclhane
1,1-Dkhloroelhene
1,1,1-Trkhloroelhane
1,1,2-Trichloroelhane
Tetrachlorocthcne
Bit(2-clhythcxyl)phlhaUlc
Beiuok Acid
Concentration
(mc/Ll
1.1084)2
I.20B-02
1.30B-02
2.678+00
1.98B-04
3.23B4»
682E4M
7.30E4)3
3.2184)3
7.5084)3
9.89805
I.20B-04
3.00E4)3
9.00B4)3
Child
S.97E4M
6.S1B4M
7.05B-04
1.45E411
1.07E4B
1.7584)6
3.70B-05
3.96E4M
1.74E4M
4.07B4M
5.3684)6
6JIB4M
I.63B4M
4.88E4M
Child Child
.M. -LL
6.5184)4 4.39(14)4
7.IOB4M 4.7984)4
7.69E4M 5.19E4M
1.5884)1 1.07E4)!
1.17E4H 7.90B-06
1.9184)6 12984)6
404B4B 2.72B-OS
4.32B-04 2.9IE4M
1.90E4M 1.28E4M
444B4M 2.99R4M
5.85B4K 3.95B4M
7.108-06 4.7984)6
I78B4H 1.2084)4
5.33B-04 3-59E4M
Child
10-14
3.08B4M
3.36B4M
3.64B4M
7.47114)2
534124)6
9.03807
1.918415
2.04804
8.9884)5
2.10114)4
2.7704)6
3.36(14*
8.39B4B
2.52B04
CJiild
15-19
Adult
(me/kt/davl
ARBAW
2.3484)4
2.S6B4M
2.77E4)4
5.69E4)2
4.2284)6
6.88B4>7
1.45B4B
1.55804
6.84B4B
I.60B4M
21184)6
2.5684)6
639B4B
1.92 E4M
3I4B4M
3.43B4M
3.71R4M
7.63E-02
5.66B-06
9.23B4I7
I.95E4B
2.09B4M
9.17C4)5
2.14R4M
283114)6
3.43B4M
837E4K
2-57E4M
IP.+OI
4B4>2
2(14)2
2B4)I
7E4)3
1R4W
6B4>2
IR+00
9E4)3
9114)1
4114)2
1114)1
2R4»2
412*00
Hazard Index
Child
0-1
60(14)5
I6E-02
35E4)2
7.3B4M
IJE4)3
I.8B4M
62B4M
4.0E4M
1.9E4B
45R4M
I.3B4M
6^E4)S
82E4)3
I.2B-04
81E4)I
Child
2-4
65&O5
I.8B4)2
3.8B-02
7.9E-01
1.7B43
I9B4M
6.7B-04
4.3E4M
20E4)2
49124M
I.5B4H
7.IE4B
8.9E4)3
I3B4M
88E4)I
Child
4.4B4)5
1.2B4)2
2.6E4)2
5.4E411
1.184)3
1.364)4
4-5U4M
2.9B4M
1.4124)2
33E-04
9.9E4)S
4.8B4)5
6.0114)3
9.0I!4)5
S.TBfll
Child
IQ-H
3.1B4)5
8.4B4)3
1.8E412
3.7E-01
7.9B4M
90E4»
3.2B-04
2.0E4M
l.OE-02
23B4M
6.9E4JS
3.4B-05
4.2B4)3
3.2E4)3
42E4J1
Child
15-19 Adult
2.3B4B 3IE4K
6.4B4)3 B.6B-03
1.4E4)2 1.9B-02
2.8B-01 3.8B-OI
60E4M 8.1B-04
69B4K 92B415
2.4B-04 33B4M
16(24)4 2.IB4M
7.6E-03 I.OE4K
I8B4M 24E4M
5.3E4B 7IB4K
2.6114)5 34(14)5
3.2B4)3 43(14)3
48114)5 64124)5
3.IB-OI 42124)1
Antimony
Vanadium
Chromium
Copper
Nkkel
n-Butyl benzyl phthalate
Chloroform
Di-n-oclyl phlhalale
Toluene
1,1-Dkhloroelhane
1,1'Dkhloroelhene
1,1,1-Trichloroelhane
1,1,2-Trichloroelhane
Telrachloroelhene
nis(2-elhylhc«y1)phlhalale
l)i-n-Butylphlhalale
Ucruoic Acid
3.70B-02
6.IOE4)3
1 I3E4)1
3.80B-02
930E4)2
2.00B-03
518B4J5
8.50114)2
J.70&02
522B4J4
2.97E4M
193B4)3
67IB4)5
5.36B4M
680E4)2
7.00E4)3
4.0UB-03
ARBAX
2.01 R4)3 219114)3 I48E4)3 1.03114)3 7.88E4M 1.06114)3
33E4M 3.6IB4M 2.43B4M 1.7IB4M I.30E4M I.74B4M
6I3E4J3 669114)3 4J1E4O 3.I6B4I3 2.41 E4)3 323H4)3
2.06&03 225E4)3 U2B4» I.06B4T3 809E4M 1.09B-03
S.04B-03 5JIE4)3 3.7IB-03 2.60B4O I.98B-03 2.66114)3
I.08B4M I.I8E4M 8.00E4B 5.60E4J5 4.26E4)5 5.70E4B
2.8IB4M 3.07B-06 2.07B-06 1.45B4M I.10E4W I.48I14M
5.1684)3 5.6284)3 3.8084)3 2.64114)3 2.0284)3 2.7284)3
309124)3 3.378-03 2.2784)3 U9B4I3 1.2184)3 1.6384)3
2.83E4» 3.0984)5 2.0884)5 1.46(24)5 1.118-05 1.4984)5
1.6184)5 1.768-05 1.1984)5 8.3184)6 6.3384)6 8.4984)6
1.0584M I.I4B4M 7.7084)5 5.40B4rJ 4.1184)5 5JIB4I5
3.6484)6 3.978-06 2.68B4J6 1.88(14)6 1.4384)6 1.9284)6
2.9I84B 3.178415 2.1484)5 I.50B48 I.4IE4» 1J3E4I5
3.6984)3 4.0284)3 2.784)3 1.90114)3 1.4584)3 1.9484)3
38011-04 4.I4B4M 2.79R4M I.96IMM I.49R4M 2.0114)4
2.1711-04 2.37IMM I.60li4M 1.1211-04 8J2B-05 1 1411-05
4E4M
984)3
18+01
484)2
284)2
211+00
184)2
2124)2
484)1
18400
98413
9B4)I
484)2
184)1
21:4)1
IP. + 00
411*00
Hazard Index
S.OB tOO 5.58*00 3.78400 2.68400
3.784)2 4.084)2 2.784)2 1.98-02
6.1B4H 6.784)4 4-5B4M 3284)4
5.2B4)2 5.684)2 3.884)2 2.784)2
2-584)1 2.884)1 1.984)1 1.384)1
5384)5 6.084)5 4.084H 2.884)5
2.8B4M 3.1804 2.IB4M 13B4M
2.684)1 2.884)1 1.984)1 1.384)1
7.5B4I3 8.384)3 5.784)3 4.084)3
28B4M 3.IB4H 2.1B4H UE4M
1.884)3 2.084)3 1.384)3 9.284)4
I.2B4H I.384H 8.684)5 6.084)5
9.184)5 9.984)5 6.784)5 4.784)5
2.984)4 3.284M 2.I84M I.584M
1.884)2 2.0IM)2 1.4114)2 93114)3
3.81 J4M 4.IU4M 28I14M 20U4M
5.4114)5 5.9IMI5 4 01 MIS 2.BI1-O5
5.68tOOa6.28tOOa4.ZII+OOaZ.9IJtOOa
2.08400 2.78400
1.484)2 1.984)2
2.484M 3.2804
2.084)2 27114)2
9.984)2 1.384)2
2.1805 2.9805
1.1804 I-5B4M
1.084)1 1.484)1
3.084)3 4.184)3
1.1(14)4 1.584)4
7.0804 9.484M
4.684)5 6.184)5
3.684)5 4.884)5
I.I84M 1584)4
7.28-03 9.784)3
I.5B4M 20P.4M
2.1114)5 2.9114)5
2.2114 00° 2.911*00°
-------�
TABLE 4-24 (continued)
ACUTE EXPOSURE VIA INGESTION OFOFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARCINOGEN1C EFFECTS
Page 2 of 2
Rroosutc Dose fme/fct/dav)
Compound!
Bromodichloromethane
Chloroform
Toluene
Melhyknc Chloride
1,1-Dichloroethane
1.1-Dkhloroelhene
l.l.l-Trichloroelhanc
1,1,2-Trichloroelhanc
Xytene
Tclrachlorocihcnc
Chromium
Copper
Nkkcl
Zinc
Toluene
1,1-Dichloroelhine
1,1-Dkhloroelhene
I.l.l-Trkhtoroelhane
1,1,2-Trkhtoroelhane
1,2 Dknloroelheiw
Telnehloroelhenc
Denioic Acid
Concentration
fmt/U .
1.1084)4
3008-04
1.9364)2
7.3064M
2.7364)3
2.0464)3
100124)2
550B4M
1.2664)3
1.3084)4
Child
JfcL
5.9764)6
1.6384)5
1.05603
3.9684)5
1.48604
1.1184)4
5.4264M
298B4B
6.84605
7.0564)6
Child
Jd.
65I6O6
1.7884)5
1.1464)3
4.32605
1.6264M
1.2164M
5.92U4H
3.2564)5
7.468-05
7.6964)6
Child
JLL
4.3964)6
1.208-05
7.7064M
2.9164)5
1.0964M
8.1464)5
3.9964M
2.2064)5
5.0384)5
5.1984)6
Child
10-14
3.0864)6
8.3964)6
5.4064H
2.0464r3
7.6484)5
5.716415
2.808-04
I5464B
3328-05
3.6484)6
Child
1519
Aduli
ARRAY
2.34606
6.3984)6
4.I164M
155605
5.8164)5
4.34605
2.1364)4
1.1764)5
2.6864)5
2.7764)6
3.1464)6
85764)6
53111-04
2.0984)5
7.80605
5.8384)5
28611-04
13764)5
3.608-05
3.718-06
ARI2AZ
2.8064)2
2.1064)2
2.7064)2
2.828400
6.8764)2
5.2964)2
5.3264)2
2.2064)1
S.93E4)3
6.4164)2
2.7964)2
1.7064)1
13284)3
1.1464)3
1.46603
1 .5384)1
3.7364)3
2.8764)3
28984)3
1.1964)2
3228-04
3.4864)3
1 .518-04
9.2264)3
1.6664)3
1.2464)3
1.60603
1.6764)1
4.0764)3
3.1364)3
3.1564)3
1.3064)2
35IB4M
3.7984)3
1.65603
1.0164)2
1.1264)3
8388-04
1.0864)3
1.1364)1
1.7464)3
2.1184)3
2.1264)3
S.7BB4>3
2.37E-04
25684)3
1.1164)3
6.7864)3
7.8364M
5.8764M
755604
7.8964)2
1.9264)3
1.4864)3
1.4964)3
6.1564)3
1.6664M
1.7964)3
7.864M
4.7564)3
5.96604
44784)4
5.7564)4
6.0164)2
1.4664)3
1.1364)3
1.13640
4.69603
1.2664)4
1.3764)3
5.94604
3.6264)3
8.00804
6.00B4H
7.71 84)4
8.0684)2
1.9664)3
151603
1 .528-03
6.29BO3
1 .698-04
1.8384)3
7.97604
4.86603
Hazard Quotient
KID
(mt/lct/davl
2602
1602
484)1
684)2
18+00
9124)3
984)1
4602
48400
184)1
Hazard Index
18+01
46O2
2124)2
2124)1
484)1
IBtOO
9603
96OI
4602
284)1
1601
48+00
Hazard Index
Child
JB_
3.06O4
1.6603
2.6603
6.6B4M
1511-04
1.2B4)2
6.084)4
75604
1.784)5
7.184)5
1.9602
13804
2.984)2
7.384)2
7.7BOI
9.0603
2.9B4)3
3.2601
1.384)2
8.1603
1.784)2
13114)2
Child
•*•
3.3604
1.884)3
2.9603
7.2604
I.66O4
1.384)2
6.68-04
8.1604
1.9605
7.784)5
2.184)2
1. 76-04
3.1602
80602
8411-01
1.1802
3.1603
35601
1.4602
88603
1.9802
1.7602
Child
.Si
2.2604
1.2803
2.084)3
498-04
1.1604
9.1803
4.484)4
5511-04
1.384)5
5.28415
1.4602
1.1604
2.1602
5.4602
5.6601
6884)3
2.1603
2.4601
9.884)3
5.9803
1.3602
1.1802
2,311-03 2.584)3 1.784)3
l.3E+OObl.4B+OOb 9.384)1
Child
10-14
15604
8.4604
1.484)3
3.4604
7.6605
638-03
3.1604
3.9604
9.0805
3.6605
9.9803
7.8B4H
1584)2
3.8602
3.9801
4.8803
15603
1.764)1
68603
4.2603
9.0603
7.8603
1.284)3
6564)1
Child
15-19
1.2604
6.4604
1.1603
2.6804
5.8605
4.884)3
2.4I24M
2.9804
65805
2.8124)5
7.6603
6.0805
1.1602
2.9602
3.0601
3.7603
1.1603
1.3801
5.2803
3.2603
6.9603
5.984)3
9.1804
5.0801
Adult
1.6804
8.6804
1.4803
358-04
7.8605
65803
3.2804
3.984)4
9.084)5
3.7805
1.0602
8.08-05
15802
3.9602
4.0601
4.9803
15603
1.784)1
7.0603
4.2603
9.28O3
8.0604
1284)3
65801
-------�
TABLE 4-25
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 1 of 2
ComDoundi
Chromium
Copper
Nkkel
Zinc
Carbon Telrachloride
Chloroform
Melhyienc Chloride
1,1-Okhloroelhane
1.1-Dkhloroelhene
1.1,1-Trkhloroelhine
1,1,2-Trichtoroethane
Telnchloroelhene
Bita-clhylheiyOphlhalate
BenzokAcid
Barium
Antimony
Vanadium
Chromium
Copper
Nickel
Zinc
Chloroform
Toluene
l.l-Dkhloroelhane
1,1-Dkhloroelhcne
1.1,1-Trichloroeihine
1,1,2-Trkhloroelhane
Tetnchlnroelhene
Bis(2-elhylhe«yl)phthalale
Ui-n-butylphihaHite
Benzok Acid
l)i-n-oclylphlhalale
N-Bulylbenzylphlhalale
Concentration
fmf/Lt
I.I2E-02
I.18E4B
I.3404H
2.670+00
1.03E-04
2.7304B
4.15O4M
2.47B4B
1.19E4)3
2.46E-03
4.18B4B
5.6804)5
30004)3
9.000-03
1.I3B4I2
3.73E4B
6.10E4)3
1I3E-OI
3.8404)2
9.27E4B
1.83B4M
3.S6E4M
1.72E-02
2.88B4M
1.71 E4M
7J4B4M
360E4H
1.7904)4
6.80124)2
7.0004)3
40004)3
9.50124)2
2.00B-03
Child
Jfcfi
1.43E-06
1.0804)6
1.2204)6
2.44 E4M
6.44B4K
16804)6
2J5O4B
1 .52004
7.31B4B
U2E4M
2.56O06
3.48B4M
9.1304)7
2.74E-06
1.0304)6
3.4104)6
5.S704J7
1.44B4B
3JIE-06
7.78 E-06
167E4B
2.1BH46
1.19E413
1.77B-OS
1.05U-O5
4.63E4U
2.21B4XS
1 IOE4B
2 0711-05
2.1311-06
1.22124)6
28911-05
6.10B4I7
Child
Jd2
107E4)6
806E-07
9.1SBfl7
I.82B4M
4.73B4M
1.2SE46
I.91B4H
I.13B4M
5.47E4B
I.I3E4M
1.92 E-06
2.61 B4K
6.81B4T7
2.Q5B4I6
7.72&07
2J5C4J6
4.16B4J7
I08E4B
2.63B4M
632E-06
1.25E4M
164 E-06
8.89B4H
I33E4K
7 85 E-06
3.46E4B
I.65B4K
8.23B4I6
1.55E-05
1.59B06
9.13E4n
217E4IS
4J7B4I7
Child
12J2
885E4B
666E-07
7^6E4T7
1-SIB4M
391E-06
1.04BD6
1J8E-05
9J8E4B
4J2B-05
9.34 E4M
139B4M
2.I6B4K
5.64B-07
1.69B4I6
6.36E-07
2.IOE-06
3.43B4)7
9.HB4M
2.I8B4W
523E4»
1.03B4T3
1.35B4W
7.34E4M
1.09E-05
649&06
2.87E4J5
1.36B4M
6.79B4I6
I.28B4»
1.32B4M
7JOE4)7
1.78E4IS
3.7SE4)7
. Adu»
ARBAW
7.35 E4J7
533E4T7
6.26 E4T7
125E-04
3.24B4M
8J9&07
13IE-05
7.79E4«
3.7SE-OJ
7.7SE4B
I.3IB4M
1.79E-06
4.68124)7
I.4IB4J6
A^BAX
5.29E4)7
1.7SE4T7
2.8SB4)7
7.40E-06
1.BOE4M
433E-06
8J6E-06
1.I2B4J6
609E4M
9.08 E-06
539E-06
237E4B
II3U-16
S.64B4)6
1 061MB
1.09124)6
6.24124)7
14811-05
3.I2E4T7
RTD
(mi/kt/dav)
1E-OI
2E-02
6B4M
IE-01
6E4)3
IB4)2
6E-02
7E-OI
8E-03
8E-OI
4B4)2
9I24B
3E-03
2400
Hazard Index
JE4I3
2 1MB
5IUM
IE-01
2B4)2
6I24M
IIW)I
IE4)2
4124)1
7B4I1
BE-05
8.IE-01
4E-02
9E4)2
3124)3
2E-OI
2B400
211-02
2114)1
Hazard Indei
Child
JfcL
I4E-05
S.4E-OS
20E-03
2.4E-03
1IE-03
1.7E-04
4.3B4H
2.2E-04
9.1&03
1.9B4M
6.4E4K
3.9E4H
3.0E-04
14BOJ
1.6B-02
2.IB4M
I.7E4)I
1.IB-03
I4E-04
I.8B4M
13124)2
1.7B4M
2.2B4M
30E-03
2-5B-OS
13E-03
5.7E4B
5iB4K
I.2PXM
6.9E4I3
1.1 1MB
6.1IMI7
14114)3
3.IH4I6
2.0E-01
Child
JJ2_
1.IB4B
4.1E-05
1JB4)3
1.8E-03
8 IE-04
1.3B4M
3.2E4M
1.6E-04
6.9E4)3
1.4B4M
48E4B
2.9B4K
2.3B4M
IOB4)6
1.2E4H
UE-04
13E-OI
8.4B4M
1 IE-04
I3E-04
9.7E4)3
13E-04
1.6B-04
2.2B413
1.9E4)5
9.8B4M
4.3B4I5
4IE-05
9.2124)5
5.2E4I3
8.0124)6
4.6E4)7
1.IB4I3
2311-06
1.5IMJI
Child
13-17
8.9E-06
34E4B
13E-03
UE4O
6.7B4M
1.0B4M
2.6B4M
1.4B4M
5.7E4)3
I.2B4M
4.0E-05
2.4B05
19E-04
8,4B4f7
1.0B4Q
I3E-04
11B4)|
6.9B4M
9.1 E4B
I.1B4H
8.104)3
10E4M
I4E-04
1.9E4»
I.6B415
8.1E4M
3.6B4T3
3.4B4B
7.6124)5
4.2E4)3
6.6E4K
3.8U4)7
89E-04
I.9IMJ6
1.2124)1
Adult
74E-06
2.8B4K
l.OE-03
1.3B40
5JB4M
86E4K
2.2E24M
1. IE-04
4.764)3
9.7B05
3.3E4B
2.004)5
16E-04
6.904)7
8.3E4O
I.1B4M
8.7E4)2
5.704M
7.4G4B
9.004)5
6.604)3
8.604K
1.104M
UE4)3
1.304)5
6.7E-04
2.90415
28IMB
62124)5
3504)3
5404)6
3.104)7
7.40-04
1.6E-06
1. 012-01
-------�
TABLE 4-25 (continued)
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
Comooundt
Bromodkhloromelbaoe
Chloroform
Toluene
Melhykne Chloride
I.l-Dirhloroclhane
I.l-Oichloroelhene
1,1,1-Trkhloroelhane
1,1.2-TiKhloroclhaoc
Xykne
Iclrachloroelhcne
Barium
Chromium
Copper
Nickel
Zinc
Toluene
1,1-Dichloroelhane
1,1-Dichloroelhene
1,1,1-Trkhloroelhane
1,1,2-Trichlorotihane
1,2 Dkhkuoelhcne
Telnchloroelhene
Bcnzoic Acid
Concentration
ImtlLl •
4.04B4M
4.09E4M
6.44B43
6.41E-04
1.BOB40
142B-03
6.21B-03
4.18B4M
843B4M
403B4M
1.66E4I2
2.82E-02
2I4B-02
269B4H
2.82B400
2.33E-02
2.57B-02
2.64E-02
106E-01
2.79B-03
2630-02
9.73&03
I.70B4M
Child
Jfcfi
2.49B4B
2.SIB4B
4.46B4M
3.94 IMS
1.1IB-04
8.72B4B
3.8IB4M
2.56B4B
J.1BE4B
2.47E-OS
1.5204)6
3.60B4*
1.95E4M
2.46B-06
2-S7E4M
I.62E-03
1.5904)3
I.63E-03
6SIE-03
I.72B-04
162E-03
J98E-04
5.17E4B
Emotufc D
Child
7-12
I.86E-OS
1.88B-OS
3.33BO4
2.94B4S
8.27E4B
6S3EM
2R5E-04
1.92&05
3.87E-OJ
I.86B4B
1.14E46
270&06
1.46B46
I.84E06
1.93E-04
1.20BA)3
1.18E-03
1.21 E-03
4.88 E-03
I.29B4M
1.21&03
4.47E-04
387BDS
«ce ( n»/kg /dffl
Child
13-17
1.S4E-05
USE-OS
27S&04
2.44BW
683B-05
SJ9E4B
2ME-04
I39E-05
32IE-05
U3E4K
9.34B47
2.23B4K
I.2IE-06
1J52&06
. I.S9E-04
9.96E-04
9.76E-04
1.00&03
4.03&03
I06E-04
9.99B4M
3.70EXM
3191MB
r)
Adull
ARBAY
I.28E-05
1.29E-05
229E-04
202E-OS
5.67E4B
4.42&OS
1.96B-04
I3IE-05
2.65B4B
1.28EOS
ARBAZ
7.78E-07
I.B5B4M
IOOE-06
I26&06
I32E-04
826E-04
8.09B-4M
8.32B4U
3.3SB43
8.79E-OS
8.28B4M
3.07IWM
2.65B-OS
Hazard Quotient
RID
rmi/ktydav)
2E-02
1B-02
4B-OI
6B42
7E-01
8B-D3
8&OI
4B-02
40400
9&4)2
Hazard Index
5&fl3
1IM)I
2B-02
6B-4M
1E-OI
4E-OI
711-01
8B-03
8IW)I
4IM)2
2B-OI
9U-02
2H400
Hazard Index
Child
0-6
I.2B-03
2JE-03
1.1B4)3
6.6B44
12&04
I.1B42
4.B&04
6.4B44
1.3BD5
2.7E-04
I.8U02
30E-04
3.6&05
9.8B45
4IE-03
2.6B40
4.IB-0)
2.3E-03
2.0B-OI
8.IB-03
4.3B43
81E-03
6.6B-OJ
26B4)S
2.4E-OI
Child
JJJ_
9.3E-04
1.9B-03
84E-04
4.9ED4
1.2B4M
8.2B4)3
3.60-04
48B-04
9.7E-06
2.1IMM
I.3&02
2.3B-04
27E-05
7.3E-OS
3.I&03
1.9B-03
30E-OJ
1.7&03
UE-01
6.I&03
3.2B-03
6. 10-03
S.OIi-03
1.91^15
I.8B-OI
Child
mi
7.8&04
16EJ-03
6.9C-O4
4.I&04
9.9B-05
68IWJ3
3.0O-04
4.0E-04
8.10-06
1.7IMH
1.IB42
1.9E-04
2.204)5
6.10-05
26E-03
16E-03
2J&03
I4E-03
1.30-01
5.10-03
2.70-03
5.0E-03
4.IR-03
1.6IM>5
UE-01
Adult
6.4B-04
I.3B-03
5.7E-04
3.40-04
8.20-05
5.60-03
24E-04
3.3B04
660-06
1.4IHM
9.2&03
I6&04
1.9&4B
5.00415
2.1O-03
1.304)3
2.1&03
I.2E43
1.10-01
4.204)3
2.2E4>3
4.10-03
3.404)3
1.3R-OS
1.2U4)1
-------�
TABLE 4-26
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OFF TCAAP GROUND-WATER (UNIT 4)
. CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARONOGENIC EFFECTS
Page 1 of 2
Comnoundi
Barium
Chromium
Copper
Nickel
Zinc
Carbon Tetraehloride
Chloroform
Melhylene Chloride
1,1-Dichtorotlhane
1,1-Dichtoroclhene
I.l.l-Trichloroelhane
1.1,2-Trkhloroelhaiw
Telrachloroelhene
Bit(2-eihylhexyl)phlhalaie
BenzoieAcid
Barium
Antimony
Vanadium
Chromium
Copper
Nickel
Chloroform
Toluene
1,1-Dichloroelhane
U-Dkhtoroelhene
1,1.1-Trichloroelhane
1,1,2-Trichloroelhane
Tctrachloroelhene
BU(2-tlhylhe«yl)phlhalale
Ui-n-Butylphlhalate
Bcnzoic Acid
N-Kulytbentylphlhalate
Ui-n-oclylphlhalale
Concentration
fmt/U
3.70B02
1.IOE-02
1.20B4J2
1.30&02
267B+00
IWE-04
3.23&05
6.82&04
7.30&03
3.21E43
7JOE-03
9.89&05
1.20E-04
3.00B43
9.00E-03
1.13&02
3.70&02
6.IOB-03
I.13E-02
380E-02
930E-02
5.I8B-05
5.70E-02
J22E-04
2.97E-04
193B4M
6.71 B-OS
5.36E-04
6.80&4)2
7.00E-03
400O-03
2.0UB43
9.SOE-02
Child
Jl&
S.63B46
2.36B-06
1.84B-06
1.99B46
4.09B4M
212B-OS
333&06
7.04B-05
7.S4&04
3.32B4M
7.75E«
I02&OJ
1.24E-05
1J3E-06
4.60E4M
1.72&06
568&06
9.36&07
1.I3B41S
5.83&06
1.43E-OS
S.35&06
5.89E-03
5.39^05
3.07B4M
1.99B4M
693&06
5.53mH
3.48B4J5
3.58&fl6
2.04 E-M
I.02B4M
4.85&05
Child
-ili
4.22B46
1.75E«6
1.37E-06
I48&06
3.04E4M
1J2E-05
2.47&06
523E-OS
5J9B4M
2.46E44
S.74E-04
758B06
9.I9E-06
1I4E-06
3.41B46
1.29B4M
4.20E-06
6.94E«T
I80&05
433&06
106B-05
3.96E46
4.36E03
4.00&05
2.27B-OS
I.48B44
5.I4&06
4.IOE-05
2J8&05
2MR-06
1.51E-06
7J5U«7
3J9IM1S
Child
12J2
3.47Bfl6
. 1.45E-06
I.I3E-06
1.22E4M
2-51E-04
1.25&05
2.05&06
4.32&05
4.62E04
203R-04
4.75&4M
626R-06
7.60&06
9.38&07
182B46
1.06&06
3.49R-06
5.74&07
1.49E-OS
3.S8IHH
8.74B4W
3.28 E-06
3.60H-06
331E-05
1.88B45
1.22B-04
4 24 E-06
3.40&05
2.13E-Q5
2.I9B46
1.26&06
63011-07
2.99&05
Adull
ARBAW
289B-06
I.20E-O6
936E-07
l.OIE-06
2.08B-04
1.04RO5
169&06
3J9&05
3 84 E-04
I.69E-04
3.94 E-04
519E-06
6.30&O6
7.75&07
2.34E4M
ARUAX
88IE-07
2.89B-06
4.76B-07
I.23E-05
2.96B-06
7.26B-06
2.7IE-06
2.99E-03
2.74B4B
1J7E-OS
1. 01 E-04
3J2U-06
282E-05
1 77PJK
1. ' 1 t>vj
I82U-06
1.04 B-O6
5.20EMT7
2.47E-05
RfD
(mt/kt/dty)
S&03
1E-01
2E-02
6E-O4
1B-OI
6E-03
1D-02
6&02
7B-01
8E-03
8U-OI
4E-02
9B-02
3E-03
2E+00
Hazard Index
5Bfl3
2C-05
5O-04
IIW)I
2B-02
6B-04
IB-02
4U-OI
7E-01
8B-03
Sllfll
4U-02
9&02
3B-03
2E-OI
2 13 tOO
311-01
3E-03
Hazard Index
Child
Jbt
I.IE-03
24&05
9.2B45
3.3E-03
4.IB-03
3.5B-03
3.3B4M
1.2B43
11E43
4.2&02
9.7&04
2.6&O4
I.4B-04
5.IE-03
23&06
61B-02
3.4&04
28E-OI
I.9&03
11E-04
2.9E-04
2.4&02
5.4D4M
1-5E-02
7.7E-05
3.8E-03
25&04
I.7U-04
6.1IMM
I.2&02
I.8R-OS
I.OU-06
3.4IW»
1.6H02
3.4liOI
Child
JJJ.
8.6E-04
1.8B-05
7.2B-05
2.6&03
3.0B-03
2.8E-03
2JB-04
9.2E-04
8.4&04
3.2B-02
7.6B-04
2.0IP04
1.IB-04
4.0&03
18&06
4.BB42
2.7&04
22&fll
I-5E-03
I8E-04
2.2B-04
I9B-02
4.0B-04
1IE-02
60R05
3.0E-03
1.9B-04
I.4B-04
48B-04
9.0E-03
1.4&OS
B.OK-07
2.5IJ-06
1:2I'X)2
2611-01
Child
12JZ.
6.9B-04
IJE-05
5.8B-05
2.1 &03
2J&03
22£W)3
2.1&04
7.3BW
6.7E04
26R-02
6.0B-04
I6C-04
8.6B-05
3.2B-03
14B-06
3.8E-02
2.IE44
1.8B-OI
12E-03
1JB-04
I8E-04
1J&02
3.3B4M
9.2E-03
4.8B-05
2.4E03
I.6D-04
MB44
3 SIMM
7.2li4)3
I.IG-05
6.4R-07
2III-06
JUIMI2
2.IIMII
Adult
5.8B4M
I.2E-05
48E-05
1.7&03
2.IB-03
I.9&03
I.7B-04
6.2&04
5.6EM
2.2&02
5IE-04
13U-04
7.2&4I5
2.7B«3
12&06
3.2&02
I.8B-04
IJE-OI
9.8&04
I2U-04
I.5H-04
I2K-02
2.7EO4
7.7&03
4.0E-05
2.0E-03
1 3IJ-O4
9.IU-05
32IMM
6IH-03
94IJ-06
5.31^)7
I.7R-06
8.2I'^03
IRfJ-(tl
-------�
TABLE 4-26 (continued)
ACUTE EXPOSURE VIA DERMAL CONTACT WITH OPF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USB
RME CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
Ejcpoture Pott fmi/kt/davl
Conmoundi
Bromodichloromclhane
Chloroform
Toluene
Melhyfene Chloride
l,l-Dichk>roethane
1,1-Dichloroelhcne
1,1,1-Trichloroelhane
1,1,2-TrichloroelhaiM
Xykne
Tclnchlofoethene
Barium
Chromium
Copper
Nickel
Zinc
Toluene
1,1-Dichloroethtne
1,1-Dichloroelhene
I,l,l-Trkhk>roelhane
1,1,2-Trichloroclliane
1,2 Dkhloroelhanc
1'clrechloroelhcne
Benzok Acid
Concentratkn
fmi/L)
I.10B4M
3.00Q4M
1.9304)2
7.3004M
17304)3
20404)3
1000-02
530B4M
I 260-03
1.3004)4
I.66O4T2
2.8004)2
210114)2
2.7004)2
2.820+00
687E-02
5.2904)2
5.32B4Q
2.2004)1
5.9304)3
6.4104)2
2.7904)2
1.7204)1
Child
JH
- 1
1.1404)5 •':*
3.09B4B
2.00O4)3
73404)5
282G-04
2.II04H
1.0304)3
5.6804)5
1.30B4M
I.34B4M
23304)6
6.0104)6
3.2304)6
4.140-06
43311-04
7.10O4>3
5.4704)3
5.4904)3
2.2704)2
6.12E-04
6.6204)3
2.8804)3
8.6904)5
Child
JJ2
8.4204)6
2.30E4B
148B40
53904)5
2.10O4M
1370-04
7.66O4M
4.2204)5
9.6504)5
9.9604)6
1.8904)6
4.4604)6
2.3804)6
30804)6
3.2I04M
5:2604)3
4.050-03
4.0804)3
1.6804)2
43504)4
4.9104)3
2.1304)3
64404)5
Child
1M2
--' •:- V
6.9604)6
1.8904)5
1.2204)3
4.6204)5
I.73O4M
1.29O4M
6.33O4M
3.4804)5
798H-05
8.2304)6
13704)6
368114)6
1.9704)6
23304M
2.64O4H
4.3404)3
3.3504)3
3.3704)3
1.390-02
3.75O4M
4.0304)3
1.7704)3
5.3304)5
Adult
ARBAY
5.78 E-06
138B40
101 E-06
3.84B4)5
I.44B4M
I.07H4M
5.25B4M
289B4B
6.62B4K
6.83B4M
ARBAZ
1.30E-06
3.05B-06
1.64 E-06
2IOE4)6
2.I9B4M
3.69B-03
2.78E-03
2.79B4>3
116B-02
3.I2B-04
337B-03
146B4)3
4.42E-05
RID
-------�
e 4-27
CHRONIC EXPOSURE VIA INGESTION OP OFF-TCAAP C JROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 1 of 2
Exposure Dose fmt/kt/davl
Compound!
Chromium
Copper
Nickel
Zinc
Carbon Telrmchloride
Chloroform
Melhylene Chloride
1,1-Dichloroelhane
1,1-Dichloroelhene
t.l.l-Trichloroethane
1.1,2-Trichloroeihinc
Telrachloroelhene
Bis(2-elhylliexyl)phthalate
Benzole Add
Antimony
Vanadium
Cadmium
Chromium
Copper
Nickel
n-BulylBcnzylPhthalate
Chloroform
Di-n-oclyl phlhalale
Toluene
1,1-Dichloroelhane
1,1-Dichlorotlhenc
1,1,1-Trichlorotlhine
1,1,2-Trichloroelhane
Telrachtoroelhcne
Uis(2-elhylhe«yl)phlhalale
Di-n-Bulylphlhalale
Benzoic Acid
Conccnlralkm
(mi/Li
I.12&02
1.1804)2
13404)2
2.670400
1 .0304)4
2.73&OS
4.15E4M
2 4704)3
1.I9B-03
24604)3
4.I8E-OS
56804B
3.00B-03
9.0004B
3.73E-02
61004)3
8.20E-03
1.13&02
38404)2
9.27B4B
2.00E-03
3.5604)5
9.5004)2
1.72B-02
2.88 B4M
I.7IE-04
7-54B4M
3.6004)5
I.79E-04
6.8004)2
7.00B-03
4.0004)3
ChiM Child Child Child Child
0-1 2-4 5-9 10-14 15-19 Adult
ARBAW
4.7IB4M 6.26E-04 429O4M 3.03B-04 2.3IB-04 2.24B4M
496B4M 6J9B4M 4.52O4M 31904)4 2440-04 2.360-CM
S.64B-04 7.49B4M 5.I3B4M 3.62&O4 2.77E-04 268E«4
1.I2B4I 1.49B41 I02E-OI 722E-02 S-51E-02 S.34E42
433B-06 S.75B06 3.94B46 279E-06 2.I3B4M 2.06&06
I.15B-06 M3B46 1.04&06 738li4)7 5.64H-07 S.46E-07
I.75B4S 2.32E-05 I39E-05 1 I2B-05 8.57B-06 8.30EM
I.MB44 I.38B44 9.45&O5 6 MEM 5.IO&OS 4.94B4K
5.00&05 6.65&05 435B45 3..-&O5 246WK 238IWB
103IWM 1.37B44 9.4I&OS 665E«5 508I«» 4.92B4S
1.76&06 2.34P^06 1.60ED6 I.IJ&06 8.63B07 836E-07
2.39B4K 3.I7E-06 2.I7B4M 154C-06 1 17IJ-06 1 I4C-06
1.26B4M I.68E-W 1.I5EO4 8.11E-05 619E-05 600B-05
3.78B4M 5.03E-W 3.44&O4 2.43E44 I.86B44 1.80BO4
ARCAX
1.57E-03 2.08E-03 1.43&03 1.016-03 7.70&04 7.46E-04
2J57&04 3.4I&04 2.33G4M 1.65&04 I.26E44 1.22&04
3.45B4M 4J8B4M 3.I4&04 2.22B-04 1.69&4M 1.64B4M
4.75&03 6.3IB43 4.32B-03 3.06&03 2.33&03 226&01
161&03 2.15B-03 I.47&03 1.04&03 7.93B4M 7.68&04
3.90B43 S.18&03 ^5&03 2 15E-03 1.91&03 1.85B-03
8.40&05 1.12&OS 7.WE-OJ 5.40BflS 4.13&OS 4.00B05
\SOBM 1.99E-06 1.36B4M 9.63B47 7.35B47 7.I2E47
3.99B-03 530B-03 3.63E-03 2J7&fl3 I.96B43 1.90&03
7.23E44 96IBO4 6J8&04 4.6S&4M 3JS&04 3.44&04
1.2IB-05 1.61&05 1.10B-05 7.79E-06 3.9S&06 5.76E46
7.I9B06 9-55&06 634&06 4.62&06 3J3&06 3.42B4M
3.I7E4S 4.2I&OS 2.89&05 2O4E-05 1J6&05 UIE*5
MI&M 2.01B-M 138E-06 9.74&07 7.43&07 7.20B4I7
7JE-06 I.OOfKB 6.85C-06 4.84&06 3.7DIMW 3J8B-06
286E-03 3.80IM)3 2.60114)3 I.84IM)3 l.40li-03 I.36B-03
2.94IMM 3.9IIJ4M 2.«8B-04 I.89BO4 I.45H44 140IWM
I.68E4M 2.23B4M IJ3E-04 1.08&04 8.26IMI5 8.00&OS
Hazard Quolienl
RfD
10400
404)2
2B-02
204)1
7B-04
104)2
604)2
10-01
904)3
904)2
404)3
104)2
204)2
40400
Hazard Index
4O4M
9B-03
5B4M
10400
404)2
204)2
204)1
IE-02
2O-02
304)1
104)1
9B-03
90-02
404)3
104)2
204)2
IO4)I
40400
Hazard Index
Child
-fiJ-
4.7E4M
1204)2
28O-02
5.60-01
6.264)3
I.2B4M
2904M
1.004)3
5.604)3
1 104)3
4.4B4H
2.404M
6304)3
9JB4M
6.204)1
390400
290-02
6904)1
4804)3
400-02
2.004)1
4204)4
I-SB4M
2004(1
240-03
1.204M
8.004M
3JB4M
3.8B4M
7.504)4
1404)1
2.904)3
Child
JbL
63G4M
1604)2
3.7B4)2
7-5B4M
8204)3
IJO4M
3.9E4M
1404)3
7.4B4)3
1.504)3
5.9B4W
3.2B4M
8404)3
8.304)1
520400
3804)2
9204)1
6304)3
5404)2
2604)1
5604M
200-04
2.7E-OI
3204)3
16O4M
1104)3
4.7B4M
5.0B-04
1.00-03
1.904)1
3.904)3
Child
-£2.
4.3E-04
1.104)2
2.604)2
5.104)1
5.604)3
l.OB-04
26C4M
9.5 B4M
5.1E413
100-03
4.0B4M
2204M
5.804)3
8.604)5
5.7B4H
3.60400
2604)2
6304)1
4304)3
3.7E-02
1.804)1
3.8G4M
1.4B4M
1804)1
220-03
1.104)4
7.3B4M
32B4M
3.5B-04
6.90-04
1.30-01
2.704)3
4.204)5 5.604)5 3.804)5
5.0B 4 OOa 6.7B 4 UU8 4.60 4 OOa
Child
10-14
3.0B4M
8.00-03
1804)2
3604)1
4.00-03
7.4B4B
I.9B4M
6.764)4
3804)3
7.4B4M
2.80-04
UE4M
4.104)3
6.IE-OS
4.0B41I
2.5B400
1.804)2
4.404)1
3104)3
2604)2
1.3B4)I
2.7B4)4
9604)5
130-01
1.6E-03
7.8E-05
5IB4M
2.3B4M
2.4B4M
4.B04M
9.2E-02
1.904)3
Child
15-19
2.3B4M
6104)3
1.404)3
2804)1
3.004)3
5.604)5
1404)4
51O4M
2.7B4)3
5.6B4M
2.2B4M
1.2E4M
3.10413
4.604)5
3.00-01
1.90400
I.4B4)2
3.404)1
2.3B413
2.004)2
9604)2
2.IB4M
7.4B4)5
9804)2
1204)3
6.0O4J5
390-04
1704)4
1.9O4M
3.7B4M
7.004)2
1^04)3
Adult
2.2B4M
5.9B03
1.3E4)2
2.7E-OI
2904)3
5-5E-05
I.4D4M
4.9B4M
2604)3
5^B4M
2.ID4M
1 IB4M
3.004)3
4JE4»
3.004)1
1.90400
1.404)2
3.304)1
2.3M3
1.904)2
9.304)2
2.0B-04
7.IE4B
9^04)2
1 IO4)3
5804)5
3.8B4M
1.7B4M
1.8G4M
36I14M
6804)2
1404)3
2.704)5 2.104)5 2.00415
3.20 4 OO8 2.40 4 OO8 2.4O » OO8
-------�
TABLE 4-27 (continued)
CHRONIC EXPOSURE VIA INGGSTION OP OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABIJB EXPOSURE CONDITIONS
NONCARONOGENIC EFFECTS
Page 2 of 2
Compound*
Bromodichloroelhane
Chlotofonn
Toluene
Melhytene Chloride
1,1-Dichkuoelhane
1,1-Dichloioelhene
l.l,l-Trkhloroelh«ne
1,1,2-Tiktitoiotlhane
Xykne
Tclrachloroelhene
Chromium
Copper
Nickel
Zinc
Acetone
Toluene
I,l-Dichk>roelhine
1,1-Dichloroelhcne
1,1.1-Trichloroelnane
1,1,2-Trichloroelhane
1,2-Dkhlotoclhenc
Tclrxhloroelheoe
BeiuokAcid
Concentnlioa
fmt/U .
1.10E-04
3.00OO4
6.44 E-03
6.4IO4M
I.80O03
1.42O03
6.21O03
4.I8O04
8.43004
403B-04
Child
JbL
5.97B-06
1.63O05
2.71 O04
2.70005
7.S7R4B
S.97E-QS
26IO04
I.76O48
3.S5O05
I.69B-03
Ero
Child
JeA.
6J1&06
1.78&4B
3.60B-04
338&OS
I.01&04
7.93&05
3.47B04
234B4J5
4.7IB05
2.25B4S
mure Dot<
Child
Ji
4.39E-06
I.20B4W
2.46B4M
2.45B4S
6.89&OS
S.43E-Q5
2.38E-04
1.60B4S
3.23B4S
I34U-OS
; tmt/tt/t
Child
10-14
308B06
8.39&06
I.74E-04
1.73&OS
4.87BOS
3.84B4H
1.68&04
1.13&OS
2.28EOS
109&05
lav)
Child
1S-I9
AduU
AREA. Y
2.34B06
639E-06
1.33&04
132EAS
3.72E-05
2.93BOS
1.28E44
863E-06
174&OJ
8.32&06
3.H&06
8^7U-06
I.29B44
1.28tM)S
3.60B4H
2.84&OS
I.24B-04
8.36B46
1.69B-05
8.06B46
ARBAZ
2.82B-02
2.14002
2.69E-02
2.82B+00
7.00O03
2.33002
2.S7E-02
2.640412
I.06OOI
2.79O03
2.63B-02
9.73E-03
1.70E-01
1.I9E-03
9.00B04
1.I3B03
1.I9E-OI
2.94B4M
9.80B44
IMBM
I.1I&03
4.46&03
1.I7B44
I.IIE-03
409E-04
7.1SB-03
I38&03
1.20E-03
1JOE03
1J8B4I
3.91 &M
1.30&03
1.44 &03
1.47&03
5.92 E-03
I36WM
I.47&03
5.44 E4M
930^03
1.08B-03
8.I9E-04
1.03B41
1.08B-OI
2.68B-04
«.92B«4
9.83BW
10I&03
4.06B4>3
1.07E-04
1. 01 E-03
3.72&04
6JltM)3
7.63B4M
5.79&04
7.28&04
7.63B02
1.89&04
6.30E-04
69SB-04
7.14E-04
2.87B03
7J5E-OS
7.II&04
263&04
4.COB43
S.82&04
4.42E44
535&04
S82&OJ
1.45&04
48IB04
$318-04
5.4SB44
2.I9&03
S.76B05
5.43B44
2.01 B04
35IBfl3
S.64B-04
4.28 E-04
S.38B44
$64B«2
I.40E-04
466E-04
S.14&04
5.28044
2.12B43
5J8&OS
5.26&4M
1.95E-04
3.40&03
Hazard Quolitnl
R(D
fmt/fct/dav)
2E-02
IE-02
3B4II.
6H4J2
IBfll
9&03
9BO2
4&03
21] +00
HM)2
Hazard Index
10*00
4B4)2
2G-02
2B4I
l&fll
3H-OI
llifll
9&03
9E4)2
404)3
21242
1&02
40 + 00
llaurd Indei
Child
-2J.
3.0B-04
I.6&43
9.0E-04
43E4M
7.6B4M
66E-03
2.9B-03
4.4E-03
I.8&Q5
I.TP^tt
18E-02
I.2&03
2.3B-02
5.7E-02
59E-01
2.9EM
3.3&03
l.lli-02
I2B-01
soiwn
2.9&02
5.6&02
4 IE-02
18PX>3
99E-01
Child
2±
3.3&04
1.8B-03
I.2&03
6.0E-O4
I.OE-03
8.8&03
3.9&03
S.9&03
2.4E-05
231M)3
2.6B-02
16E-03
3.0&02
7JE02
7.9&OI
3.9E-03
4.3&03
1.4002
I6E-OI
6.6O02
3.9&02
7.4O02
5.4O02
Child
J^.
22D4M
I2B-03
8.2&04
4.IE-04
6.9D4M
60E-03
2.6B-03
4.0E-03
I6E-OS
1.5tH)3
1.7D-02
1.1E43
2.004)2
S2E-02
54E-01
2.7O4)3
3.0O4)3
98B-03
I.IB-OI
43IV02
2.7002
5.IO4I2
3.7E-02
2.4O03 I.6B03
l3EtOOb90E-OI
Child
10-14
1JE-04
8.4004
3.8004
2.9O04
4.9O04
4.3O03
1.9O03
2.8O03
MOOS
1.1003
1.2O02
7.6OO4
1.4O02
3.6O02
3.8OOI
1.9O03
2.IO03
7.0O03
7.9O02
3.2O02
1.9002
3.6O02
2.6O02
I.2O03
6.3001
Child
15-19
I.2OO4
6.4004
4.4O04
2.2O04
3.7O04
3.3O03
1.404)3
2.2O03
8.7O06
83B4M
9.SE-03
5.8O04
1. IE-02
2.8O02
2.9OOI
1.5E-03
1.6O03
5.3O03
6.IO02
2.4O02
I.4O02
2.7O02
2.0O02
8.8004
48001
Adult
1.6B-04
86B-04
4.3O4M
2.1004
3.6O4M
3.2O03
1.4OO3
2.IO03
8.500&
8.IH-04
95E-03
5.6O04
I.1O4J2
2.7O02
2.8O01
1.4003
1.6003
5.1O03
5.9O02
2.4O02
1.4O02
2.6O02
2.0O02
8.5R04
4.7OOI
-------�
TA^ ..£ 4-28
CHRONIC EXPOSURE VIA INOESTION Of OIV-TCAAT GROUND-WATKR (UNIT 4)
CURRENT AND RME FUTURE LAND USE
RME CONDITIONS
NONCARCINOGENIC EFFECTS
I'agc 1 of 2
Hroosure Dose (rnt/kt/dav)
Compounds
Chromium
Copper
Nickel
Zinc
Cartxm Telrachloride
Chloroform
Mcthylcne Chloride
1,1-Dichloroethine
1,1-Dichloroelhene
I.l.l-Trichloroelhtne
I,l,2-Trichloroelh«nc
Tclrechloroelhene
Dis(2-cthylhc>iyl)phthalale
Benzoic Acid
Antimony
Vanadium
Cadmium
Chromium
Copper
Nickel
Chloroform
n Butyl beniyl phlhalale
Dl-n-oclyl phthalate
Toluene
I.l-Dichloroelhane
1,1-Dichloroelhene
1,1.1-Trichloroelhane
1, 1,2-1 richloroclhane
lelrachloroelhene
nis(2-elhylheiyl)phlhalale
Di-n-Ruiylphthalale
Iknzuic Acid
Concentration
(mc/L)
1 IOE-02
I.20B-02
I.30E-02
267E400
I.98B4M
3.23&4K
6.82B-04
7.30B-03
3.21B43
750B4I3
989E-05
1 2011-04
300E-03
9.0UB43
3.70E-02
61011-03
820B*3
1.I3B4)!
380&02
9.30B-02
5.IBE4B
2.00B-03
9-50&02
S.70IM)2
S.22B4M
2.97&04
I.93B43
6.71 1MB
5361MM
t mum
7.00H-03
4.UOIM)3
Child Child Child Child Child
0-1 J± 5-9 10-14 15-19 Adiill
ARCAW
S.97E4M 6JIE-04 439B-04 308E4M 2.34B4M 3I4IWM
6.5IB-04 710&04 479E-04 336U-04 256B-04 343&O4
705E-04 7.69R-04 5.I9B-04 3.64B-04 277E-04 371E-04
I.4JE-OI IJ8&01 1.07E-OI 7.47B-02 5.69B-02 763E-02
107D4B 1 17E-05 7.9004)6 554B-06 4.22EX)6 5.66&06
17J&06 I.9IB46 I.29&06 9.03E«7 6.B8&07 9.23B47
3.70B-OJ 404C-05 2.72&05 I.9IB-OS 1.45B-05 195E-05
396E-04 432B-04 29IB-04 2.04B-04 IJ5E-04 2.09B-04
1.74B-04 I.90&4M 1 28EO4 B.98B-05 684B05 9.I7IM15
4.071^04 444B-04 299C-04 2.IOB4M I.60&04 2.I4B-04
5.36D-06 5.850-06 3.950-06 2.77&06 2IIE-06 2.83&06
6.5IB4M 7.1013-06 4.79B4K 33611-06 2S6Efl6 343R-06
1 631WM 1.78&O4 I.20B-04 839&O5 6.39B-05 tMBM
4.88E-04 J.33E-04 3J9&O4 2-S2B-04 I.92&O4 2J7B-04
ARUAX
20IR-03 2I9E-03 I48E-03 I.03&03 788E-04 I.06B-03
3.3P^04 36IB4M 2.43B4M 17IE-04 I.30B-04 1.74B44
4.45B-44 485E-04 3.27E-04 229E-04 1.75E-04 234E-04
6.13B-03 669E-03 45IO-03 3.I6&03 2.410-03 323E-03
206B-03 225E-03 1.52E-03 1.0604)3 809BO4 I09E-03
504E-03 55I&03 3.7I&03 26004)3 1.9804)3 266B4I3
2.BIB4W 307E4» 2.07G4W 1.4504)6 1.100-06 I.48B4W
1.0904M I.I9G4M 8.000415 5.60E-05 4.2604)5 5.70B4H
5.1604)3 5.6204)3 3.8004)3 2.6404)3 2.0204)3 2.7204)3
3.0904)3 337E-03 2.2704)3 15904)3 1 21E4>3 1 63E-03
2.8304)5 3.09B4H 2.0804)5 1.4604)5 1.1104)5 I.49B4B
1.6104)5 1.7604)5 1.1904)5 83104)6 63304)6 B49B4M
1.05IMM I.I4B4M 7.7004)5 5.4004)5 4.1104)5 5.5IK4U
36415-06 3.9704)6 2.68E4W 1.8HH-06 1.43124)6 19211-06
2.9104)5 3.1704)5 2.1404)5 15004)5 I.4IIMJ5 15311-05
36904)3 4.02G4I3 2.7l<4)3 1 90114)3 1.45114)3 19411-03
380U4M 4.I4O4M 27911-04 I.%I!4M 1.490-04 20IUM
21711-04 2.37114)4 I.AOI>O4 1.12124)4 852B4IS IH 11-04
Hazard Quotient
R1U
(mi/U/davl
111 400
404)2
204)2
20-01
704)4
104)2
6B4)2
104)1
904)3
904)2
404)3
104)2
204)2
40400
Hazard Indei
404M
904)3
504M
10+00
404)2
204)2
104)2
204)1
2124)2
3114)1
104)1
904)3
9I!4)2
411413
1124)2
2114)2
1114)1
411400
Hazard Index
Child
JhL
6.004V*
1.604)2
3504)2
7.304)1
1.504)2
I.BB4M
6204)4
4.004)3
1.904)2
4.504)3
1.304)3
6.504)4
8204)3
).2B-04
8.4B4)1
5.00+00
37E4K
8.904)1
6.104)3
5.204)2
2504)1
28E-04
55B4M
2.604)1
10E-02
2.864)4
1.804)3
1.204)3
9.II24M
2.9124)3
1.8124)1
3804)3
Child
-**-
65B4M
1.8O4)2
3804)2
7.904)1
1.704)2
1.9B4M
6.704)4
4.304)3
2.004)2
4.904)3
1504)3
7.I04M
8.904)3
).3B4M
9.004)1
550+00
4.004)2
9.7E4M
6.704)3
5604)2
2.804)1
3.IB4M
6.004H
2804)1
1.104)2
3104)4
2.0I!4)3
13114)3
9.9I24M
3 21! 03
2011-01
4.IR03
Child
iL
4.4B4M
I.2B412
2604)2
5.404)1
1.104)2
1.30-04
45E4M
2.904)3
1.404)2
3.304)3
9.904M
4804)4
6004)3
9.gC4)5
6 213-01
3.7B+00
2.704)2
6504)1
4504)3
3.804T2
1.904)1
2.IB4M
4.0O4M
1.904)1
7.604)3
2.104)4
1.3B4J3
8604M
671104
2.112-03
I.36P.-01
280-03
Child
10-14
3.I04M
8.404)3
1.804)2
3.704)1
7.904)3
9.0E-05
32B4M
2.004)3
1.004)2
2.3E4)3
6.904M
3.404)4
4.2124)3
3.2B4)3
4.3B4M
2.60+00
1.904)2
4.604)1
3.204)3
2.704)2
1.304)1
I5E4M
2.804M
1.304)1
5.304)3
1504)4
9.204M
60IMM
4.7I24M
1SI24I3
95124)2
2.004)3
5404)5 5.9114)5 40114)5 2811-05
6.8B 4 00a 7.412 400° S.OI! 4 00a 3.51! 4 00s
Child
15-19
2.304)4
6.404)3
1.404)2
2.804)1
6.004)3
69E-05
2.4D4M
1604)3
7.604)3
1.804)3
5.3I24M
2604M
3.204)3
48R-05
3.204)1
2.00 + 00
1.404)2
3504)1
2.404)3
2.004)2
9.904)2
1.104)4
2.104)4
1.004)1
4.004)3
1.104)4
7.004M
46E-04
3.6124)4
l.tl!4)3
7.204)2
1504)3
Adult
3.IB4M
8.604)3
1.904)2
3804)1
8.104)3
9.204B
3.304)4
2104)3
1.004)2
2.4124)3
7IH4M
3.4C4M
4.3E-03
6.404)5
4.4B-01
2.70+00
1.904)2
4.70-01
3.204)3
2.704)2
1.304)2
150-04
2.904M
1.404)1
5.404)3
I5E4M
9.404)4
6.I04M
4811-04
15R4)3
9.7IMJ2
2.0124)3
2.10415 2911-05
'2.7tl400836l!400a
-------�
TABLE 4-28 (continued)
CHRONIC EXPOSURE VIA INGESTION OF OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND RME FUTURE LAND USE
RMB CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
Compounds
Bromodichlotomclhine
Chloroform
Toluene
Melhylene Chloride
1,1-Dkhloroclhine
1,1-Dichloioclhene
M.I-Trichloroelhane
1,1.2-Tiichloroelhane
Xytcne
Telnchloroelhene
Chromium
Copper
Nickel
Zinc
Acetone
Toluene
1,1-Dichlofoelhane
U-Dkhloroelhene
1,M-Tikhtoroethane
1,1,2-Trichlototlhtne
1.2 Dkhloroelhene
Tclrachloraethene
Deiuoic Acid
BxDofure POM (mt/kj/day)
Concenlraliqa
fmt/U
I.IOB-04
3.00B-04
I9JB4>2
730E4M
273E40
20404)3
100E4H
550B4H
1.26E-03
1.30B4M
Child
JJ-
S.97B06
1.63B4B
1.05B4)3
396B4JS
1.48B4M
III&04
5.42B4M
298E-05
6.84&OS
7.0S&06
Child
Jd.
631E-06
I.78B4S
1MB03
4.32B4U
1.62B4M
I2I&04
5.92B44
325E-05
7.46&05
7.69U4M
Child
5-9
4.39B-06
I.20&4S
7.70B4M
29IB-QS
1.09&04
S.14B4M
3.99B-04
2.20B4S
5.03&OS
5.I9B-06
Child
10-14
3.08&06
8.39B46
5.40&04
2.04B-OS
7.64&fl$
5.7I&OJ
280&04
1 -MR-OS
332&4S
3.ME-06
Child
15-19
Adull
ARI'-AY
2.34B46
6.39B46
4.IIB4M
I-55IWM
S.SI&OS
4.34&4S
2.I3&04
1.I7&OS
268EJ-QS
2.77B-06
3I4B06
*31BA6
5^IB-04
209&OS
7.80D4B
5B3B4B
2.86B44
I37&OS
360B4IS
3.71 Efl6
ARIiAZ
280B4B
2.IO&02
270E-02
2B2B+00
700E4>3
687E4)2
S29B4B
S32E4H
2.20B4M
S.93B43
64IB4>2
2.79B4U
I.70B4)I
I32&03
I.HB4J
I.46&43
IJ3E^)1
3.80&04
373&fl3
287E-03
2.89B4)3
1.19&02
3.22B4M
348&03
UI&04
9.22E-03
I.66B03
I.24B43
I60B43
1.67B4)!
4.16IMM
4.07E43
3.I3&03
3.1SE-03
I.30B4I2
33I&04
3.79&03
I6S&03
I.OIB02
I.12&03
838IWM
I08IWI3
I.13B-01
,2.79B4M
2.74&03
2.IIB43
2.I2B43
B.78B-03
2.37B4M
236&03
I.I1B43
6.7B&03
7.B3&W
S.87&W
7JSB4M
7.89B-02
I.9MMM
I.92B43
I.48&43
I.49E-OJ
615&OJ
I.A6&04
I.80&03
7.8B-04
4.7S&03
5.96&04
4.47&04
S.7S&04
6.0IB-02
I.49&04
I.46B43
1.1304)3
I.I3&03
469Bfl3
I.26E04
1.37O03
S.94B4M
3.62B43
8.00&04
6.00B«4
7.7IB44
806B-02
2.00B44
1.96E43
I3IB«3
IJ2B-03
6.29B43
1.69E4M
I.83&03
7.97E-04
486IM)3
Ilitanl Quotient
RID
(mt/tt/davi
2B-02
1124)2
3124)1
6124)2
1124)1
9124)3
9124)2
4124)3
2 11 » 02
IE4)2
Hazard Index
IB + 00
4114)2
2114)2
2114)1
1114)1
304)1
1114)1
9124)3
912-02
4114)3
2124)2
1114)2
Hazard Index
Child
0-1
3.0E4M
1.6124)3
35124)3
6.6B4M
15124)3
12114)2
6.0E-03
7JE4)3
3411415
7.IB4M
3.4B4J2
I5E4)3
2.9B4H
7.3B4)2
7.7B4H
38124)3
12114)2
2.9B4H
3.2B4)I
1.3124)1
8IB4H
I.7B4I1
I.S&OI
Child
2-4
3.3B4M
I8E4J3
38E413
7.2B4M
16114)3
13E4)2
6.6B4J3
8.IB4>3
37114)5
77B4M
3.7114)2
I.7B4I3
3IB4J2
8.0B-02
8.4B4JI
4.2E4J3
I.4B-02
31114)2
3-5B4)l
14E-OI
88E4)2
I.9B4)I
I7E-OI
2.3R4)3 25B4)3
1.8B»OObl.9BtOOb
Child
5-9
2.2B4H
12114)3
2.6B-03
49E4M
11114)3
9.0B-03
4.4E-03
5JB4)3
2.5124)5
5.264)4
2JB-02
IIE4)3
2.IB-02
5.4B4J2
5.6B4)1
28114)3
91 114)3
2IE4)2
2.4B4II
9.8E4)2
5.9B4)2
I3B41I
1.1124)1
Child
10-14
I5E4M
84C4M
1.8B4J3
34U4M
7.6B4M
63E-03
3IE4)3
39E4)3
1.8(24)5
36B4M
I.8B4J2
7.8B-04
15E4I2
3.8B4J2
39114)1
20114)3
6.4B-03
15E4)2
1.7114)1
68114)2
4.2B4)2
90B4)2
7.8114)2
1.7B-03 1.2B-03
1.3E + OOb9.2E-OI
Child
15-19
12114)4
6.4B4M
14114)3
2.6G4M
5.8E4M
4.8E4)3
24C4)3
2.9B4J3
1.3114)5
2.8B4M
I.3E4)2
6.0B4M
I.1B4)2
2.9124)2
30114)1
UB4M
4.9B4J3
1. IE-02
1.3B4JI
52E4)2
32E4I2
6.9B4)2
S.9E4)2
9.1B4H
7.0124)1
Adult
I.6B4M
8.6B4M
I.8B4)3
3504)4
7.8B4M
65E4)3
32114)3
3.9E4I3
1811415
J.7E4M
18114)2
80E4J4
15(14)2
3.9(14)2
4.0124)1
20(14)4
65114)3
I5B4)2
I.7E4)I
70E412
42H4)2
92(14)2
8.0B4)3
86(14)1
-------�
CHRONIC EXPOSURE
TABLE 4-29
VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USB
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 1 of 2
Compound^
Chromium
Copper
Nickel
Zinc
Carbon Telnchloride
Chloroform
Melhyfene Chloride
1,1-Dichloroelhane
1,1 Dkhloroelhtne
I.l.l-Trichk>roelhane
1.1,2-Trichtoroelhane
Tclrachloroelhene
Bit(2-elbylhe«yl)phlhatale
BeiuokAcid
Antimony
Vanadium
Cadmium
Chromium
Copper
Nickel
Chloroform
Toluene
1,1-Dichloroelhane
1.1-Dichloroethene
1.1.1-Trichloroelhane
1,1,2-Tikhloroelhane
Tclrachloroelhene
Bu(2-elhythe«yl)Phlhalate
Oi-n-Bulylphlhilile
Benzok Acid
n-Butyl benzyl phlhalale
Di-n-oclyl phlhalale
Coocenlralion
imt/n
1.I2E-02
1.I8E-02
1.34 O42
2.670+00
1.03044
2.73O45
4.15E-04
2.47043
1.I9B43
2.46043
4.18045
568045
3.00B-03
9.00E-03
3.73042
6100-03
8.20O-03
I.I3E-01
3.84042
9.27E-02
3.56045
1.72 E-02
2.88044
1.71044
7.54B44
3600-05
1.79044
6800-02
7000-03
4000-03
2.00B-03
9.50O42
Child
M
1.43B46
1.08046
1.22046
2.44044
6.44046 1
1.68B-06
2.55045
1.52044
7.31E-05
1.52044
2.S6E-06
3.480-Ofi
9.13047
2.74046
341046
5.57047
7.48047
1.440-03
3.5IO46
7.78046
2.180-06
1.06043
1.77O45
1.05045
4.63B4S
2210-06
1.10B-05
2070-05
2.13046
1.220-06
610O-07
2900-05
Child
Jd2
1.07E-06
8.060-07
9.15E47
jU2B4M
I4.73EOS
1.250-06
1.91B05
1.I3E-04
S.47B45
1.130-04
1.9204)6
2.610-06
68IB07
2.05B-06
2JSB46
4160-07
5610-07
1.07E-05
2.63046
632&06
1.640-06
7.90B-04
1.33&05
7.85 B46
3.46O45
1.65046
8.23046
1 .55045
1.59046
9.I3O47
4.57B47
2.17B45
Child
1112
8.85047
6.66047
7.56047
1-51E-O4
3791046
1.04046
IJ8045
9.38O45
4J2G-05
9.34045
U9O46
2.16046
5.64047
I.69O46
229046
3.43047
4.63B47
9.11046
2.18046
5.23046
1.35046
6.53044
1.09045
6.49046
2.87045
1.36046
6.78046
1.28045
132046
7.50047
3.nwi
1.78045
Adult
ARBAW
7.35047
5J3G47
6.26O47
V | ?ca_nj
K-^ I.AJOtlQ
~f 3.24046
8600-06
1.31045
7.79045
3.75045
7.75045
1.3IO46
1.79046
4.68047
1.41046
A"B*X
1.75O46
2.85047
3.84047
7.40046
1.80046
4.33O46
1.12046
5.42044
9.08046
5.39046
237B4S
1.13046
5.64 O46
1.06045
1.09046
6.23047
3.12047
I.48O45
RID
imc/ki/day)
1042
2O42
6044
1041
6044
1O42
6O42
7042
8043
8042
4043
9043
2042
204-00
Hazard Index
2045
5044
3045
1042
2042
6044
1042
3041
7042
8043
8042
4043
9IM)3
3043
2042
20 + 00
31142
3043
Hazard Indei
Child
J&
1.4B44
5.4045
2.0043
2.4043
1.1042
1.7044
4.3O44
22043
9.1O43
1.9O43
6.4044
3.9044
4.6045
1.4B46
3.0B42
I.7E41
1.1043
2JE-02
1.4043
1.8044
I.3O42
2.2044
3.5043
2.5044
1.3043
5.8044
S.SO44
1.2043
6.9043
1.1044
6.IO47
200-05
9.7043
2.4041
Child
JdL
I.IO44
4.0045
UO-03
1.8043
8.0043
I.3O44
3.2044
1.6043
6.8O43
1.4043
4.8044
2.9044
3.4045
1.0O46
2.3G42
1.3O41
8.3044
1.90-02
1.1043
1.3044
9.7043
I.6O44
2.6043
1.9044
9.8044
4.3O44
4. HUH
9.1044
5.1043
8.0045
4.6047
1.5045
7,20-03
180-01
Child
1HL
89045
3.4045
1.3043
1J043
6.7043
1.0O44
2.6044
1.3043
S.7O43
1.2043
4.0044
2.4044
2.8045
8.504?
1.9E-02
1.1041
6.9044
130-02
9.1044
1.1044
8.0O43
1.4044
2.2043
1.6044
810-04
3.6044
3.4044
7.6044
4.3043
6.6045
3.8047
I.3E45
5.9043
1.5041
AduH
7.4045
2.8045
1.0043
I.3O43
5.5043
8.6G45
2.20-04
1.1043
4.7B43
9.6044
3.3044
2.0044
2.3O45
7.0B47
I '~Tf **!
1.6042
9.5042
5.7044
1.3042
7.4044
9.0045
6.7043
1.1044
I.8O43
1.3044
6.7044
3.0044
2.8044
6.3044
35043
5.5045
3.IB-03
1.0045
4.9043
130-01
-------�
TABLE 4-29 (continued)
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFF-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Page 2 of 2
Hmrd Quotient
Compound*
BromodiehloranellMne
Chloroform
Toluene
Melhytcnc Chloride
1,1-DichloroelhiM
IJ-Dkhloroelhene
1,1,1-Trichloroelrunc
l,I.I-Trichloroelh«M
Xytcnc
TelrachlofoclheM
Conccntnllaa
fmi/U
4.04E-04
4.09E-04
644E-03
6.4IB-04
1.80B-03
I.42E-03
621E-03
4.18E-04
B.43E4M
4.03E4M
Child
2.49B4JS
2-S1E-QS
396B4M
3.94B-05
1.1IB-04
872E4B
38IB-04
256B-05
J.18&4O
2.47B4B
Child
ill
I86E4JS
1.88B4B
2.96B-04
294E4B
8.27B4B
(5.S3E4B
2.8SB4M
1.92E4JS
388E-05
I.86B-05
Child
1112
1J4E4B
1.55E4B
245E4M
2 44 1KB
6.83B4B
S39B4B
2.36B4M
U9E-05
3.2IB-05
U3B4B
Adult
ARPAY
I.28&4K
I.29E-05
203B-04
2.20B4B
S67E-05
442E-05
196B-O4
I3IE-05
2&5lifl5
1.28B4S
RID
2B42
iiwn
3E-01
6B-02
764)2
8E-OJ
8&02
4E-03
20 tOO
9H-03
llaurd Indci
Child
2JrW)3
I.3B42
6.6B44
1.6B4H
1 IE-02
4.8B4I3
6.4&413
2.6B4S
2.7&03
4.4E-02
Child
JJt
9.3B44
I9E-03
99E-03
4.9B4M
1.2B43
82E-03
3.6&03
4.8B03
19li05
2.I&03
3.3B02
Child
lill
7.7E-04
I.6&03
B2U-03
41E-04
9.8B-04
6.7&03
3.0B-03
4.0B4)3
I.6D-A5
1.7H-03
2.7E-02
Adult
6.4E-04
I.3&03
68E-03
34E-04
8.1B04
5JB-03
2JB-03
3.3B-03
1311-05
1.4B4I3
23E-02
Barium
Chromium
Copper
Nickel
Zinc
Toluene
1,1-Dichtoroelhine
1,1-Dichloroelhenc
1,1.1-Trichloroelhine
1.1,2-Trichloroethine
1,2 Dichloroelhine
Telrachtorotineoe
BcnioicArid
1.66E42
2.82B42
214E-02
2.69E-02
282B+00
2.33B42
2J7EJ12
264E-02
1.06EOI
2.79E43
2.63B42
9.73B-03
1.70E4)!
U2&fl6
3.60B46
1.95E-06
2.46B-06
237E-04
1.44IW)3
U8B4J3
I63E-03
6J1B-03
1.72 B-04
I.62B-03
5.98B-04
SITE-OS
I.14&06
2.70E46
1.46&46
I84E-06
I.93E-04
1.07E-03
1.I8E-03
I.2I&03
487E-03
1.29B-04
I.21B03
4.47E-04
3.87E4S
9.34&07
223B-06
1.2I&06
132B-06
1.59&04
8.85&04
976E-04
l.OOB-03
4.03114)3
106E-04
9.99E-04
3.70E-04
3I9B-05
AREAZ
7.78B«7
I85&06
I.OOB4K
I26&06
132E-04
7.34&04
8.09E434
832U-O4
3.35B4)3
879B-QS
828E-04
3.07B-04
2.65&05
SB-03
IE-02
2E-02
6E4M
1B4I
312-01
71MI2
8B-03
8E-02
4E4)3
2E-02
9E-03
2E+00
llauid Index
3.0B4M
3.6B-04
9.8&05
4IB-03
2.6B43
48E03
2.3B4I2
2.0B4I1
8.IE4J2
4.3B-02
8.I&02
6.6B-02
2.6R-OS
5.I&OI
2.3B-04
2.7E-04
7.3E«
31E-03
1.9&€3
36E-03
1.7B42
UE-fll
6111-02
32E-02
6.1B-02
S.O&02
19E-OS
3.8B-01
I.9E44
2.2U44
6.1B-05
2JE-03
1.6B43
3.0E-03
I.4E-02
1. 311-01
500-02
2.7B-02
5.0E-02
41114)2
1.6B4B
32114)1
1.6B4M
1.9E-04
5.0E4J5
2IE4J3
13E-03
14E4J3
12E4)2
I.OE4H
42114)2
22E-02
4. IE-02
34E-02
13B4»
26E-OI
-------�
TABLE 4-30
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFF TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARCINOGENIC EFFECTS
Page 1 of 2
llaiard Quotient
Concentration
fmt/U
110&4H
1.20B42
1JOE-02
2.67B+00
1.98B-04
323&4B
682B4M
7JOE-03
3.2IE-03
7JOB03
9.89&4M
1.20B04
3.00E-03
9.00&06
Child
H
2.36B06
1.84B4K
1.99B46
409E4M
2.05E4B
3.33B46
7.04B45
7-54B4M
3.32&4H
7.7SB04
1.02R4B
I.24ROS
I.S3E-06
460E-06
Child
7-12
1.7S&06
1.37B06
I.48B4M
3.04&O4
1J2HOS
2.47B4K
523B4B
JJ9E-04
2.42B4M
5.79H04
7-58E-06
9.19E4K
I.HB-06
3.4IB-06
Child
13-17
*>
145&06
113&06
122E46
2JIE-04
1.2S&4S
2.04B46
4.32B4S
4.62&04
2.03B04
4.75B44
6.26B06
760E-06
9.38E07
2.B2&06
Adult
AREAW
I20B06
936B-07
1.0IB4M
2.08B4M
1.04B4H
1.69B-06
339B-Q5
3.84E4H
1.69B44
3.94B04
3.19BW
630B4J6
7.7S&07
2.34BXM
RfD
rmi/kc/davl
IE-02
2B42
6B-04
1E-OI
6B44
1B4)2
6&02
7E-02
8E-03
8E-02
4E-03
9&03
3B-03
2EtOO
Hazard Index
Child
0-6
2.4&04
9.2&05
3.3&03
4.1 B03
3.4B42
3.3B«
I.2E436
11&02
4.2&O2
9.7B«3
26&03
1.4&03
S.I&04
2.3B06
1.1B01
Child
7-12
1.8&04
6.9&05
2.4B4t3
30B-03
26E-02
2J&04
8.7E04
8.0B43
31E-02
7.2&03
1.9&03
1.0B43
38B-04
1.7B06
8.2&02
Child
13-17
UE-04
S.TBflS
21B-03
2J&03
2.IB-02
2.0B4M
7.2B44
6.7E43
26B4J2
6.0&03
1.6B43
8.6&04
3.2E44
I.4B-06
6.9&02
Adult
12R04
4.7&OS
1.7R03
2.1&03
I.7B02
1.7&04
6.0B4M
S5&03
2.I&02
5.0B-03
1.3&03
7.1E4M
2.6B4M
I2B-06
5.7B02
Antimony
Vanadium
Cadmium
Chromium
Copper
Nkkel
Chloroform
Toluene
1,1-Dichloroelhane
1,1-Dichloroethenc
1.1,1-Trichlorotlhane
1 ,1 ,2-Trkhloroelhane
Telnchloroelhene
Bif(2-elhylhc»yl)phthalaie
Oi-n-Butyl phlhaUte
Benioic Acid
n-Hulyl benzyl phlhalale
Di-n-Ocljl phlhalale
3.70&02
6.10B03
820&03
1.13BM
380E-02
930E-02
S.18B4B
5.70E-02
5.22E44
2.97E-04
1.93E-04
6.71 BOS
5.36&04
680IKJ2
7.00B43
4.00&03
200E-03
4JOB-02
6.2IB46
9.36B-07
1.26&06
1.11B4H
583114)6
1.43E4B
535E-06
589E-03
539&OS
3.07B4B
1.79B44
6.93B-06
5J3E4M
3.48B-05
3^8E-06
2W&D6
I02E-06
4.B5BAS
420E-06
6.94&07
9.34&07
1.80&OS
4.33E-06
106B4»
3.96B4W
4.3AR-03
4.00E4B
2.27E4B
1.48E-04
5.14B06
4.IOE-OS
2J8B-06
2.6S&06
MI&06
7JSB4J7
3J9B-05
3.49E-06
J.74B-07
7.7I&07
1.49B4M
3-58E416
8.74&06
3.28&06
3.ME43
331&4B
1.88E-05
8.43B4B
4.24E06
3.40BHS
2I3E-05
2I9E-06
1.26&06
630E4T7
2.99E-05
ARBAX
2.89B4K
4.76fWT7
639E-07
123B4B
2.96B4M
7.26B06
2.7I&06
300E-03
2.74B4S
1J6&OS
1.01IMM
3J2&06
202n-05
1.77B4B
I.82B4H
1.04 rK>6
5.20Bfl7
2.47B48
2B-05
5R-04
3BOS
WA)2
2&02
6B«4
1&02
3E-OI
71M)2
8E4J3
8G42
4E-03
9114)3
3B-03
2114)2
2E + 00
3B412
3E-03
Hazard Index
31B41I
I.9R03
4.2E4J2
I.1E473
2.9&4M
2.4B4K
5.4B4M
2.0E4H
7.7B04
3.8B-03
1.4E-05
I.7B4M
6.IB4)3
I1E4H
I.8B-04
I.OIMK
3.4B415
\ann
4.4114)1
23114)1
1.4&4I3
3.1114)2
I.8B4J3
2.2B4M
18E-02
4.0B-04
I-5B4«
S.8B4M
2.9B43
1.IE4»
131103
4.6114)3
9.6B-03
1.3&04
7.6&07
2.5E4)5
12114)2
3.3E-01
1.9&01
1.2B4)3
2.6H4J2
UB4J3
1.8G4M
UE«2
3.3E-04
I2E-02
4.8E4M
24E4)3
8.9H06
11&03
38E-03
8.0114)3
I.Ui-04
6.3E4)7
2IH4)5
10114)2
2.7114)1
16114)1
9.6B4M
2.254)2
121103
UB4M
121102
2.7E4M
10&02
4.01104
20Bfl3
7.4E06
891104
321103
66B4J3
9.2R-OS
J.2H07
1.71MI5
B2R4)3
2.3I1OI
-------�
TABLE 4-30 (continued)
CHRONIC EXPOSURE VIA DERMAL CONTACT WITH OFP-TCAAP GROUND-WATER (UNIT 4)
CURRENT AND FUTURE LAND USE
RMB CONDITIONS
NONCARCINOGENIC EFFECT
Page 2 of 2
Emoture Pott (naAmldui\
Hmrd Quotient
Compound!
Bromodichloromelhiae
Chloroform
Toluene
Melhytenc Chloride
1,1-Dichtoroelhane
1,1-Dichloroelhene
1.1,1-Tfkhtoioclbinc
1,1.2-Trkhloioelhine
Xykne
Teinchtoroelneoe
Concenlntloa
fmt/Ll
I10E-04
3.00&4M
1.93E-02
7.30B44
2.73B43
2.04B43
1.00&02
S.SO&04
I.26B43
I.3B4M
ChUd
M
\.14EM
3.09B4S
2.17B43
7.S4E-OS
2J2B44
2.11E44
I.03B-04
5.68B4S
1.30&04
I.34B4B
Child
Jttt
8.42B46
2.30B4B
1.48&03
5J9E4B
2.IOB04
U7&04
1.66B-04
4.22B-05
965B4J5
9.96B-06
Child
1HZ
6.96B4M
1.89&OS
I.22&03
4.62&OS
I.73B-04
I.29B4M
6J8E-04
3.48B45
7.98&OS
823BW
Adull
AREA Y
5.78E-06
1J8&4B
I01E-03
3.M&48
1.44B-04
I.07B4M
5.2SB-M
2.B9B-OS
6.62&OS
6.83E46
Rm
fm«/fct/d«v>
2B42
1E42
3B4I
6E-02
7B02
8B-03
8&02
4B43
2C+00
9&03
lluird Indei
Child
M.
S.7B44
31IM)3
7.2&03
I.3&O3
4.0B43
2.6&02
1.3&03
1.4E-02
6J&05
I.5&03
58E-02
Child
JdL
4.3EMM
2.3B43
S.4B43
9.4B-04
3.0E-03
2.0E-02
9.6B44
M&02
4.9&QS
1IB-03
4.4B42
Child
lill
33&04
I.9&03
4JEM)3
7.8E-04
2-5E-03
I.6&02
8.0E-04
8.8&03
4.0E-05
9.2IMM
3.6IMJ2
Adult
2.9&04
I6E-03
3.7B43
6J&04
2IE-03
I4E-05
6.6B44
7.3&03
3.3E4B
7.71^01
30B-02
Chromium
Copper
Nickel
Zinc
Toluene
1,1-Dkhtoroclhinc
1,1-Dichloroclhcnc
l.l.l-Trkhloroelhane
1.1,2-Trichloroelhane
1.2 Dichloroelnine
Tetrachloroclhcnc
Bcnzok Add
Acetone
2.80E-02
2.IO&02
2.70B42
2.82B+00
6.87B02
J.29B42
5.32E42
2.20&01
593E-03
6.4IB42
279E-02
I.72&OI
7.00B43
6.01B-06
323E-06
4.14B46
4.33B44
7.09B4H
S47&03
5.49B43
2.27B42
612E-04
6.62B43
288B-03
8.69B4U
7.23&M
4.46E4NS
2.38E-06
3.08&06
32IE-04
S.26B-03
4.0$feo3
4.08&03
I.68E-02
4J5E-04
4.9IB43
2.13B03
6.44&OS
5J4B4M
3.68&06
1.97B46
233B06
2M&04
4.34&03
33SG-03
3.37R03
I.39&02
3.7SB«4
4.0S&03
I.77E03
533&05
4.44&04
ARIiAZ
3.05B-06
1.M&06
2.IOE-06
2.I9&O4
3.6IB-03
2.78Br03
2.T9&43
I16E-02
3.I2&04
337E-03
I.46B-03
4.42B4B
3.66B-O4
1E-02
2&02
6^04
I&OI
3C-OI
7E^I2
BIW)3
8E-02
4E-03
2&02
9&03
2R»00
9B-02
Iliurd Index
60E-04
I6B04
6.9B43
4.3B4B
24&02
78E-02
4.4E-OS
28E-OI
1J&OI
3.3B4I
3.2B4)1
4.3&OS
B.OB-03
l^EtOO*1
4J&O4
1.2&04
5.1 &03
3.2B4)3
I.8&02
5.BE42
3.3BOS
2.IB4I
I.IB4)I
2-SE-01
2.4B41
3.21MIS
S.9B4)3
8.9&OI
3.7E-04
ion-04
4.3B43
2.6BO3
I5B«2
4.8B42
2.7E4M
18&OI
9J&02
2I&01
2.0E41
2.7E4)5
4.9Bfl3
7.4&OI
31E-04
8.3B4S
3JB^)3
2.2&03
12B-02
4.0B4H
2.3&QS
UE-OI
7.9E4)2
I.7&OI
I.6&4I
22E-05
4I&03
6.IB-OI
-------�
TABLE 4-31
CHRONIC EXPOSURE VIA INHALATION OP VOLATILES PROM OFP-TCAAP GROUND WATER DURING SHOWERING (UNIT 4)
CURRENT AND FUTURE LAND USE
PROBABLE EXPOSURE CONDITIONS
NONCARCINOGENIC EFFECTS
Compounds
Methylene Chloride
1,1-Dichloroelhane
1,1,1-Trichloroethane
Toluene
1,1-Oichlorocthane
1,1,1-Trichlorocthane
Toluene
Melhylene Chloride
1,1-Dichlorocthane
1,1,1-Trichloroethane
Xylene
Concentration
flte/Ll
4.15E-01
2.47E+00
2.46E+00
1.72E+01
2.88E-01
7.54E-01
6.44 E+00
6.41E-01
1.80E+00
6.21E+00
8.43E-01
Toluene
1,1-Dichloroethane
1,1,1-Trichloroethane
2.38E+01
2.57E+01
1.06E+02
Exposure Dose (mg/kg/davl
Child Child
0-6 7-18 Adult
AREAW
1.33E-05 6.31E-06 2.03E-06
7.81E-05 3.71E-05 1.19E-05
7.16E-05 3J9E-05 1.13E-05
AREAX
5.68E-04 2.68E-04 8.62E-OS
9.10E-06 4.32E-06 1.39E-06
2.19E-05 1.04E-OS 3.48E-06
AREAY
2.13E-04 l.OOE-04 3.23E-05
2.05E-05 9.74E-06 3.10E-06
15.69E-05 2.70E-05 8.66E-06
1.81E-04 8.57E-05 2.86E-05
2.65E-05 1.25E-05 4.02E-06
AREAZ
7.69E-04 3.63E-04 1.17E-04
8.12E-04 3.86E-04 1.24E-04
3.08E-03 1.46E-03 4.89E-04
Hazard Ouotient
RfD
my/kp/day
9E-01
1E-01
3E-01
Hazard Index:
6E-01
1E-01
3E-01
Hazard Index:
6E-01
9E-01
1E-01
3E-01
9E-02
Hazard Index:
6E-OI
1E-OI
3E-01
Hazard Index:
Child
JBL
1.5E-05
7.8E-04
2.4E-04
l.OE-03
9.5E-04
9.0E-05
7.3E-05
1.1E-03
3.6E-04
2.3E-05
5.7E-04
6.0E-04
2.9E-04
1.8E-Q3
1.3E-03
8.1E-03
1.0R-02
1.9E-02
Child
7-18
7.0E-06
3.7E-04
1.1E-04
4.9E-04
4.5E-04
4.3E-05
3.5E-OS
5.3E-04
1.7E-04
1.1E-05
2.7E-04
2.9E-04
1.4E-04
8.8E-04
6.1E-04
3.9E-03
4.9E-03
9.4E-03
Adult
2.3E-06
1.2E-04
3.8E-05
1.6E-04
1.4E-04
1.4E-05
1.2E-05
1.7E-04
5.4E-05
3.4E-06
8.7E-05
9.5E-05
4.5E-05
2.8E-04
2.0E-04
1.2E-03
l.f.E-03
3.0E-03
-------�
TABLE 4-32
CHRONIC EXPOSURE VIA INHALATION OF VOLATILES FROM OFF-TCAAP GROUND WATER DURING SHOWERING (UNIT 4)
CURRENT AND FUTURE LAND USE
RME CONDITIONS
NONCARCINOGBNIC EFFECTS
Compounds
Methylene Chloride
1,1-Dichloroethane
1,1,1-Trichloroelhane
Toluene
1,1-Dichloroetbane
1,1,1-Trichloroethane
Toluene
Melhylene Chloride
1,1-Dichloroelhane
1,1,1-Tfichloroethane
Xylene
Toluene
1,1-Dichloroelhane
1,1,1-Trichloroelhane
Concentration
fUg/Ll
6.82E-01
7JOE+00
7 JOE tOO
5.70E+01
5.22E-01
1.93E+00
1.93E+01
7.30E-01
2.73E+00
l.OOE+01
1.26E+00
6.87E+01
5.29E+01
2.20E+02
Exposure Dose (mg/ky/davi
Child Child
0-6 7-18 Adult
ARBAW
4.89E-05 2.48E-05 7.98E-06
S.SSE-04 2.62E-04 8.47E-05
5.25E-04 2.48E-04 8.03E-05
ARBAX
4.51E-03 2.13E-03 6.84E-04
3.97E-OS 1.87E-OS 6.06E-06
1J5E-04 6.39E-OS 2.07E-05
(1.53E-03
'5.63E-05
2.07E-04
7.00E-04
9.45E-05
AREAY
7.22E-04 2.32E-04
2.66E-OS 8.54E-06
3.17E-05
1.07B04
9.80E-OS
3.31E-04
4.50E05
1.45E-05
AREAZ
5.43E-03 2.57E-03 8.27E-04
4.02E-03 1.90E-03 6.14E-04
1.54E02 7.28E03 2.35E-03
Hazard Quotient
RfD
mg/kg/day
9E-01
1E-01
3E-01
Hazard Index:
6E-01
1E-01
3E-01
Hazard Indec
6E-01
9E-01
IE 01
3E-OI
9E-02
Hazard Index:
6E-01
IE 01
3E-01
Hazard Index:
Child
M.
5.4E-05
5.6E-03
1.8E-03
7.5E-03
7.5E-03
4.0E-04
4.5E-04
8.4E-03
2.6E-03
6.3B-05
2.1E-03
2.3E4J3
1.1E-03
8.2E-03
9.1E-03
4.0E-02
5.1E-02
1.0E-01
Child
us
2.8E-05
2.6E-03
8.3E04
3.5E-03
3.6E-03
1.9E-04
2.1E-04
4.0E-03
1.2E-03
3.0E-OS
9.8E-04
1.1E-03
5.0E-04
3.8E-03
4.3E-03
1.9E02
2.4E-02
4.7E-02
AjluJl
9.9E-06
8.SE-04
2.7E-04
1.1E-03
1.1E-03
6.IE-05
6.9E-OS
1.2E-03
3.9E-04
9.SE-06
3.2E-04
3.6E-04
1.6E-04
1.2E-03
1.4E-03
6.IE-03
7.8E-03
1.5E02
-------�
TABLE 5
NONCARCINOGENIC CONTAMINANT INHALATION REFERENCE DOSES (Rfl>s)
Chemical Parameter
Acetone
2-Bulanone
1,1-Dichloroclhane
Manganese
Melhylene Chloride
Toluene
1,1,1-Tricbloroelhane
Xylcnc
Notes:
Developmental effects
Chronic/
Subchronic
(mf /kg/day) Critical Effect
IE- 1"*/ Increased liver and kidney weight, nephroloxicity
NA'*
9E-02"/ Central Nervous System (CNS) effects
9E-01 CNS effects
1E-01/ Kidney damage
IE ^00 Kidney damage
3E-04/ CNS effects
3E-04 CNS effects
9E-01"/ None observed
9E41" None observed
6E-01"/ CNS effects, eye and nose irritation
6E-01" CNS effects, eye and nose irritation
3E-OI'/ Hepatotoxicily
3E+001 ( Hepatotoxicily
9E-02*'/ CNS effects, nose and throat irritation
9E-02" CNS effects, nose and throat irritation
have been used as the basis of calculation.
RfD
Basis/Source
HEASr
II EAST
HEAST
II EAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
HEAST
Carcinogen Risk Assessment Verification Endeavor (CRAVE) verified as Carcinogenic Assessment Group (CA(i)
Health Effects Assessment Summary Tables, U.S. EPA, I990c.
Under review by RfD
Verified, Work Group
workshop.
concurrence on final database file and IRIS input pending.
Combined
Uncertainly
factors
1,000
UNI
1,1(00
100
1,000
100
ion
100
too
100
100
100
1,000
100
100
100
group D substance.
Values derived from reference concentrations identified in HEAST.
These values differ from those in U.S. EPA (I9H4) hecause the study chosen as the l>asis for
inhalation RfD values
was changed lo conform lo
the inhalation study chosen as (he basis for oral RIDs derived on IRIS.
-------�
TABLE 5 (continued)
NONCARCINCXJENIC CONTAMINANT ORAL REFERENCE DOSES (RfDs)
Chemical Parameter
Anthracene
Antimony
Arsenic
Benzole Acid
Bis(2-elhylhexyl)phthalate
Bromodichloromethane
2-Butanone
Cadmium
Carbon Telrachlnride
Chronic/
Subchronic
(mp/kp/davl
3E-011"1/
3E+00
4E-04'/
4E-04
1E-03V
1E-03
4E+OOY
4E+00
2E-02'/
2E-02
2E-02'/
2E-02
5E-02'*W/
5E-01«*
5E-04/
ND
7E-041/
7E-03
Conf.'
Level
NA
L
NA
M
M
M
•M
H
H
Critical Effect
No effects
No effects
Reduced life span, altered blood chemistries
Reduced life span, altered blood chemistries
Keratosis, hyperpigmenlationd
Keratosis, hyperpigmenlalion
Irritation, malaise
Irritation, malaise
Increased relative liver weight*
Increased relative liver weight
Renal cytomegaly*
Renal cytomegaly
Fetotoxicity
Fetotoxicity
Renal damage
NA
Liver lesions'1
Liver lesions
RID Basis/Source
Gavage/HEAST"
Gavage/HEAST
Water/HEAST
Water/HEAST
Oral/HEAST
Oral/HEAST
Diel/HEAST
Diet/HEAST
Diet/HEAST
Diel/HEAST
Gavage/HEAST
Gavage/HEAST
Oral/HEAST
Oral/HEAST
Water/HEAST
NA
Oral/HEAST
Oral/HEAST
Combined
Uncertainty
Factors
3,000
300
1,000
1,000
1
1
1
1
1,000
1,000
1,000
1,000
1,000
100
10
NA
1,000
UK)
-------�
TABLE S (continued)
NONCARCINCXiGNIC CONTAMINANT ORAL REFERENCE DOSES (RIDs)
Chemical Parameter !
Chloroform
Chromium
Copper
Cyanide
1,1-Dichloroethane
1,1-Dichloroelhene
1,2-Dichloroelhene
Di-n-butylphthalate
Di-n-octylphthalate
Chronic/
Subchronic
fmg/kg/davl
1E-02'/
1E-02
1E+001-'/
IE + 01'
4E-02"/
4E-02*
2E-02Y
2E-02
1E-01V
1E+00
9E-031/
9E-03
2E-020/
2E-01
1E-01/
lE + 001
2E-02/
2E-02
Conf.
Level
M
L
M
M
NA
M
«L
L
NA
!
Critical Effect
Liver lesions'1
Liver lesions
None observed
None observed
Local Gaslro intestinal (Gl) irritation
Local Gl irritation
Weight loss, thyroid effects, and myelin degeneration
Weight loss, thyroid effects, and myelin degeneration
None observed11
None observed
Liver lesions'1
Liver lesions
Increased serum alkaline phosphatase
Increased serum alkaline phosphalase
Mortality
Mortality
Elevated liver and kidney weights; increased serum
glulamic-oxaloacetic transaminase (SGOT) and serum
glutamic-pyruvic Iransaminase (SGPT).
Elevated liver and kidney weights; increased SGOT and
SOFT.
RfD Basis/Source
Oral/HEAST
Oral/HEAST
Dict/IRIS*
Diet/IRIS
Oral/IRIS
Oral/IKIS
Diet/HEAST
Diet/HEAST
Diel/HEAST
Diet/HEAST
Waler/HEAST
Water/HEAST
Water/HEAST
Water/HEAST
Diet/IRIS
Diet/IRIS
Diet/HEAST
Diet/HEAST
Combined
Uncertainly
Factors
1,000
1,000
1,000
1,000
1,000
500
500
1,000
100
1,000
1,000
1,000
100
1,000
1,1X10
1,000
1,000
-------�
TABLE 5 (continued)
NONCARCINOGCNIC CONTAMINANT ORAL REFERENCE DOSES (RIDs)
Chemical Parameter .
Ethylbenzcne
Manganese
Mercury
Melhylene Chloride
Nickel
Phenol
Pyrene
Selenium
Silver
Telrachloroethene
Chronic/
Subchronic
fmg/kf/dav)
1E-01"/
1E+00
2E-01"/
5E-01
3E-04"/
3E-04
6E-02'/
6E-02
2E-021/
2E-02
6E-0!'-14/
6E-011
3E-02m/
3E-01
3E-03m'7
3E-031
3E-03'/
3E-03
1E-02'/
IE 01
Conf.
Level
L
NA
M
M
M
L
NA
t
H
M
M
Critical Effect
Hepalotoxicity, ncplirotoxicily
Hepatoloxicily, nephroloxicily
CNS
Reproduction
Kidney effects
Kidney effects
Liver toxic!!/
Liver toxicity
Reduced body/organ weight
Reduced body/organ weight
Reduced fetal body weight
Reduced fetal body weight
Renal effects
Renal effects
Hair/nail loss, dermatitis
Hair/nail loss, dermatitis
Argyria
Argyria
1 Icpatnloxicily*1
Hepalotoxicily
RID Basis/Source
Oral/HEAST
Oral/HEAST
Water/HEAST
Gestation/HEAST
Oral/HEAST
Oral/HEAST
Water/IRIS
Water/IRIS
Diet/HEAST
Diet/HEAST
Gavage/HEAST
Gavage/HEAST
Gavage/HEAST
Gavage/HEAST
Diet/HEAST
Diel/HEAST
Therapeutic/I R IS
Therapeutic/IRIS
Oral/HEAST
Oral/HEAST
Combined
Uncertainly
Factors
1,000
mi
100
100
1,000
1,000
1(K)
100
300
300
100
100
3,000
300
15
IS
2
2
1,000
KM)
-------�
TABLE 5 (continued)
NONCARClN(X;eNIC CONTAMINANT ORAL REFERENCE DOSES (RIDs)
Chemical Parameter '
Thallium
Toluene
1,1,1-Trichloroelhane
1,1,2-Trichloroelhane
Vanadium
Xylene
Zinc
Chronic/
Subchronic
(mp/kg/dav)
7E-050/
7E-04"
3E-01'*V
4E-01
PE-O?*/
9E-01'
4E-03'/
4E-02
9E-037
9E-03
2E+007
4EtOO"
2E-017
2E-01
Conf.
Level
NA
M
M
M
L
M
t
NA
Critical Effect
Increased SCOT and serum lactic dehydrogenase (LDH)
level, alopecia
Increased SCOT and serum LDH level, alopecia
CNS effects
CNS effects
Hepatotoxicily
Hepatotoxicily
Clinical chemistry alterations'*
Clinical chemistry alterations
Decreased hair cystine
Decreased hair cysline
Hyperactivity, decreased body weight, increased mortality
None observed
Anemia
Anemia
RfD Basis/Source
Oral/HEAST
Oral/HEAST
Oral/HEAST
Gavage/HEAST
Oral/HEAST
Oral/HEAST
Water/HEAST
Water/HEAST
Oral/IRIS
Oral/IRIS
Oral/HEAST
Oral/HEAST
Therapeutic/HEAST
Therapeutic/HEAST
Combined
Uncertainly
Factors
3,1)00
300
100
100
1,000
too
1,000
100
100
100
100
100
10
10
-------�
TABLE 5 (continued)
NONCARC1NOGENIC CONTAMINANT ORAL REFERENCE DOSES (RfDs)
Notes:
NA
ND
Confidence level: L = low, M = medium, and H = high.
Verified, available on IRIS. .. J fc
Health Effects Assessment Summary Tables, U.S. EPA, 1990c.
Under review by RfD Work Group.
Also see Table 4-5.
A new RfD will be verified, and the old number on IRIS will be changed.
CRAVE-verified as a CAG Group D substance.
Developmental effects have been used as the basis of calculation.
Based on route-to-route extrapolation.
The oral RfD, although still available on IRIS, is being reconsidered by the RfD Work Group.
Values for trivalent chromium as a soluble salt.
Estimated from drinking water standard of 1.3 mg/L.
Values are for 1,2-l-dichloroelhene; data for 1,2-c-Dichloroethene are not adequate.
Verified, Work Group concurrence on final database file and IRIS input pending.
Value for selenious acid.
Value for thallium in soluble salts.
Value for o-xylene.
U.S. Environmental Protection Agency, 1990f. Integrated Risk Information System (IRIS), On-line Database.
i
Not applicable or not available.
Not determined.
-------�
TABLE 6
CARCINOGENIC CONTAMINANT ORAL SljOPE FACTORS (SF)
Compound
Arsenic
Scr.iene
3is(2-ethylhexyl)phthalale
Bromodichloromelhane
Carbon Telrachloride
Chloroform
1,1- Dichloroel hane
1,2-Dichloroethane
1,1-Dichloroelhene
2,4-Dinilrololuene
Melhylene Chloride
N-Nilrosodiphenylamine
Polychlorinaled biphenyls
Polycyclic Aromatic Hydrocarbons
Telrachloroelhene
1,1,2-Trichloroelhane
SF
fmp/kf-dayV
1.8E+001
2.9E-02"
1.4E-02'
1.3E-01'
1.3E-011
6.1E-031
9.1E-02'
9.1E-02'
6.0E-01'
6.8E-01"1
t
7.5E-031
4.9E-03*
7.7E+00*
1.15E+01'
5.1E-021
5.7E-02*
Weight of Evidence
ClassiHcalion*
A
A
B2
B2
B2
B2
C
B2
C
B2
B2
B2
B2
B2
B2
C
Tvpe of Cancer
Skin
Leukemia
Liverc
Liver
Liver'
Kidney*
Hemangiosarcoma
Circulatory system
Adrenal
NA
Liverc
Urinary bladder
Liver
Stomach
Liver0
Liver1
SF Basis/Source
Waler/HEAST"
Occupal ional/l 1 EAST
Diet/HEAST
Gavagc/HEAST
Gavage/HEAST
Walcr/HEAST
Gavage/HEAST
Gavage/HEAST
Gavage/HEAST
Diet/HEAST
Air, Waler/HEAST
Diet/HEAST
'Diet/HEAST
Diet/HEAST
Gavagc/HEAST
Gavage/HEAST
-------�
TABLE 6 (continued)
CARCINOGENIC CONTAMINANT ORAL SLOPE FACTORS (SF)
Compound
Trichloroelhene :
Vinyl Chloride
SF
fmg/kg-day)'1
1.1E-02'*
2.3E+001
Weight or Evidence
Classification*
B2
A
Type of Cancer
Liver
Lung
SF Basis/Source
Gavage/HEAST
Diel/HEAST
Notes:
' Verified, available on IRIS.
b Slope factor derived from unit risk proposed by Risk Assessment Forum and noted in HEAST, U.S. EPA, 1990c.
c Also see Table 4-3.
d Health Effects Assessment Summary Tables, U.S. EPA, 1990c.
' Based on route-to-route extrapolation.
' Verified, Work Group concurrence on final database file and IRIS input pending.
' The slope factor, although still available on IRIS, is being reconsidered by CRAVE Work Group.
k This value applies to a mixture of 2,4- and 2,6-dinilroIoluene isomers.
1 Value for benzo(a)pyrene is used for the carcinogenic PAHs benzo(a)pyrene, ben7o(a)anlhracene, benzo(b)fluoranthene,
benzo(k)fluoranthene, and chrysene as directed in memorandum from P.P. Hurst, Environmental Criteria and Assessment Office, U.S. EPA,
August 8, 1990.
' Under review by CRAVE.
* Based on metabolized dose.
* U.S. EPA weight of evidence classification.
%
Group A Human Carcinogen (sufficient evidence of carcinogenicily in humans)
Group B Probable Human Carcinogen (Bl - limited evidence of carcinogenicity in humans; B2 - sufficient evidence of carcinogcnicity in animals
with inadequate or no evidence of carcinogenicity in humans)
Group C Possible Human Carcinogen (limited evidence of carcinogenicity in animals and inadequate or no human data)
Group D Not Classifiable as to Human Carcinogenicity (inadequate or no evidence)
Group E Evidence of Noncarcinogenicily for Humans (no evidence of carcinogenicity in adequate studies)
-------�
TABLE 7
CARCINOGENIC CONTAMINANT INHALATION SLOPE FACTORS (SF)
SF Weight of Evidence
Compound (mp/kp-davY1 Classification' Tvoe of Cancer
Arsenic : 5.0E+011*
Benzene 2.9E-02*
Cadmium 6.1E + 00"
Carbon Tetrachloride 1.3E-OI*
Chloroform 8.1E-02*
Chromium 4.1E+01"
1,2-Dichloroethane 9.1E-02'4
1,1-Dichlorocthcne 1.2E-KW*
Methylenc Chloride 1.4E-021
Nickel 1.7E+00"
Tctrachloroethene 3.3E-03
1,1,2-Tricbloroelhane 5.7E-021*
Trichloroethene 1.7E-02hJ
Vinyl Chloride 3.0E-Ol'j
Notes:
Verified, available on IRIS.
An absorption factor of 30 percent is used in calculation
Also see Table 4-2.
Health Effects Assessment Summary Tables, U.S. EPA,
Values are for hexavalenl chromium.
Values are for nickel subsulfide.
Based on route-lo-route extrapolation.
A
A
Bl
B2
B2
A
B2
C
B2
A
B2
C
B2
A
of the
1990c.
Respiratory tractc
Leukemia
Respiratory tract'
Liver'
Liver'
Lung'
Circulatory system
Kidney*
Lung, liver'
Respiratory tract'
Leukemia, liver'
Liver'
Lung
Liver
unit risk.
SF Basis/Source
Air/HEAST"
Occupational/HEAST
Occupational/HEAST
Gavage/HEAST
Waler/HEAST
Occupalional/HEAST
Gavage/HEAST
Air/HEAST
Air/HEAST
Occupalional/HEAST
Air/HEAST
Gavage/HEAST
Air/HEAST
Air/HEAST
Still available on IRIS, but under review by Work Group.
Verified, Work Group concurrence on final database file and IRIS input pending.
U.S. EPA weight of evidence classification.
-------�
TABLE 8
SUMMARY OP RISKS FOR EXPOSURE TO OFF-TCAAP GROUND WATER
PROBABALE AND REASONABLE MAXIMUM EXPOSURES
CURRENT AND PROBABLE FUTURE & RME FUTURE LAND USE CONDITIONS
Expoeuni
Ama/lHI
IS
Unit t
TOI
3V
Unlt3
TOI
3W
Units
TOT
:P-h-»
Ingeatlon
Inhalation
Dermal
Contact
rAL ;. !
Ingeatlon
Inhalation
Dermal
Contact
AL -; '.-•-•"••
Ingeatlon
Inhalation
Dermal
Contact
AL
Evpoaure
Probable"
RMF
Probable
: "RKtE"
Probable
Probable
"RM6
Probable
"RHS
Probable
T8J§
Probable
: TW§
Probable
W£
Probable
°fiW£
Probable l
"fifa?
Probable
TiW£
Probable
we
Uppofbound
Excen Cancer
Rate
R-td-rt
4E-08
2E
-------�
TABLE 8 (continued)
SUMMARY OP RISKS FOR EXPOSURE TO OFF-TCAAP GROUND WATER
PROBABALE AND REASONABLE MAXIMUM EXPOSURES
CURRENT AND PROBABLE FUTURE A RME FUTURE LAND USE CONDITIONS
Expoeure
Area/Unit
3X
Unlt3
TOT
3V
Unlt3
TOT
3Z
Unlt3
TOT
PUhway
Ingeatlon
Inhalation
Dermal
Contact
rAL .. .
In0eitlon
Inhalation
Dermal
Contact
AL
Inhalation
Dermal
Contact
AL
****"
Probable
— TfrtE —
Probable
:"RMf' :
Probable
TlME
Probable
"^
Probable
'"-"RW
Probable
"KXS ~
Probable
"RME"
Probable
•RH§
Probable
"R"ME "
Probable
"Mr!
Probable
' RME
Probable
TfME
Upperbound
Eneaa Cancer
Rtefca
l^»Al*4A«^
MBMjBVII
2E-OS
i§5fl
IE-OS
.-li^w Tji
3E-05
2E-04
6E-OS
4E<)4
4E-04
2?
-------�
TABLE 8 (continued)
SUMMARY OP RISKS FOR EXPOSURE TO OFF-TCAAP GROUND WATER
PROBABALE AND REASONABLE MAXIMUM EXPOSURES
CURRENT AND PROBABLE FUTURE & RME FUTURE LAND USE CONDITIONS
Expoaura
Area/Unit
4W
Unit 4
T01
4X
Unit 4
TO!
4Y
Unit 4
TOT
P-""V
Ingettkm
Inhalation
Darmal
Contact
*"-
Ingettlon
Inhalation
Darmal
Contact
AL'. •••••;•::.'
(ngettlon
Inhalation
Dermal
Contact
AL
Expoeura
Probable
RME
Probable
" TfMf
Probable
WE
Probable
we
Probabl*
WE"
Probabl*
W£
Probabl*
WE
Probabl*
— WE""
Probabl*
"W§ »
Probabl*
—we —
Probabl*
WE"
Probable
RME
Upparbound
Excess Cancer
Hhka
IMd«rt
2E-OS
1I4
4E05
4E*»
8E-05
2E-04
1E-06
IE-OS
3E-06
2E35
8E-05
2E-O5
4E-OS
JE-05
3E-05
1E-04
6E-05
2E
-------�
Expowr*
42
Unit 4
TABLE tf (continued)
SUMMARY OP RISKS FOR EXPOSURE TO OFF-TCAAP GROUND WATER
PROBABAI.E AND REASONABLE MAXIMUM EXPOSURES
CURRENT AND PROBABLE FUTURE A RME FUTURE LAND USB CONDITIONS
Ingtttion
Inhalation
Dermal
Contact
TOTA
Probable
TWT
Probable
Probable
Probable
"•• KHf
Upperbound
3E-04
2E-04
2E-04
Acute Hazard MfcM
o*r
I.IEtOO*
NA
2.4E-01
ND
«T
AduK
4.0E-01
NA
1.2E-OI
NO
Chronic Hazard kidioN
CNW
t.3+00*
1.9E-02
S.1E-01
NO
R6-
AduH
4.7E-OI
3.0E-03
2.6E-01
ND
-------�
TABLE 8 (continued)
The risk eslimatcs listed under this heading are for the child age group most at risk.
Probable = Probable exposure conditions
RME = Reasonable maximum exposure
Hazard index (HI) greater than 1, including at least one individual chemical with a hazard quotient (HQ) greater than 1. This HI
indicates the potential for adverse noncarcinogenic health effects via the associated exposure pathway.
HI greater than 1 with no chemical-specific HQ greater than 1, and no sum of chemical-specific HQs (effect-specific His)
associated with similar target organs or chemical effect are greater than 1. Because all effect-specific His are less than 1,
exposures via the associated pathway are not expected to result in adverse noncarcinogenic health effects.
HI greater than 1 with no chemical-specific HQ greater than 1, but at least one sum of chemical-specific HQs (effect-specific HI)
associated with similar target organs or chemical effect is greater than 1. Because at least one effect-specific HI is greater than 1,
exposure via the associated pathway has the potential to cause adverse health effects.
- = Used to represent upperbound excess cancer risks less than 1E-07 or noncarcinogenic risks (HQ and HI) less than 1E-
02.
ND = Not determined; the sum of chemical specific HQ across exposure pathways was not estimated due to the complexity of
evaluating noncarcinogenic effects associated with similar target organs or chemical effects. However, any combination of
exposure pathways which include chemical-specific HQ greater than 1 (footnoted d as discussed above) or including target
organs or chemical effect sums greater than 1 (footnoted f as discussed above) is associated with the potential for adverse
noncarcinogenic health effects.
NA = Not assessed; risks were not evaluated for these particular exposure pathways. (See discussion in Chapter 3).
-------�
TABLE 9
AREAS OP UNCERTAINTY AND
EFFECTS ON RISK ESTIMATES
Area of Uncertainly
Risk Factors
- Extrapolation
Most risk factors are extrapolated from animal lest results. Extrapolations may be
made for species, exposure dose, and exposure period; extrapolations are generally
conservative.
Adjustment of Oral Risk Factors
In order lo characterize risks from dermal exposures, generally expressed as absorbed
doses, oral risk factors are adjusted lo account for oral absorption efficiency.
- Slope Factors (SP)
SFs represent upper 95-percent confidence limit values; carcinogenic risks calculated
using SFs generally represent upper-bound estimates.
- Lack of Risk Factors
Risks from exposure lo chemicals with no available chemical-specific or substitute risk
factors cannot be quantitatively characterized.
Risk Summations
Risks from chemical mixtures are characterized by summing the individual chemical risks.
lliis procedure assumes thai chemicals have the same toxic end points and mechanisms of
action and do not interact, either syneigislically or antagonistically. These assumptions may
be incorrect.
May
Overestimate
Exposure
May
Underestimate
Exposure
May f>ver-or
Underestimate
Exposure
Exposure Periods
Acute exposures are characterized by comparison lo suhchrontc risk factors. Evaluating
exposures using risk factors based on • longer exposure period is conservative.
-------�
TABLE 10
SCREENING OF GROUNDWATER
REMEDIAL TECHNOLOGIES
Remedial Technology
1. Groundwater Monitoring
2. Institutional Controls
- Deed Restrictions
- Zoning Restrictions
- Well Permitting Restrictions
3. Groundwater Containment, Slurry Wall
4. Hydraulic Containment
- Extraction Wells
. Subsurface Drain
5. Groundwater Treatment
- Activated Sludge (POTW)
- Fixed Film Systems
- Activated Carbon Adsorption
- Air Stripper
- Aeration Basin
- Chemical Oxidation
- Ion Exchange
Applicable as a
Remedial Alternative
Component
Yes
Yes
No
Yes
No
Yes
No
No
No
Yes
Yes
No
No
No
Comments
Common to most NPL sites.
Readily implemented.
Site already zoned for multiple uses.
MOOH permitting process already instituted.
Mainly used for source containment Technically
impractical to implement. Costly to construct.
Collects ground water and prevents future
migration. Will reduce levels of contamination over
time.
Technically impractical to implement at
these depths. Costly to construct.
Difficult to sustain process with low levels of
hydrocarbon feed from groundwater environment.
Unacceptable to MWCC due to hydraulic
loading.
Difficult to sustain process with low levels of
hydrocarbon feed from groundwater.
Effective in treating large array of organic
contaminants. Can be used as primary treatment or
as polisher in combination with other treatment
technologies.
Effective in removing volatile compounds.
Not as effective as air stripping. May require
additional polishing by other technology. Difficult
to implement due to space limitations.
High cost of materials.
Used to treat inorganic waste (i.e. metals),
therefore, not applicable at this Site.
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TABLE 10 (CONPD)
SCREENING OF GROUNDWATER
REMEDIAL TECHNOLOGIES
Remedial Technology
5. Groundwater Treatment (Cont'd)
- Reverse Osmosis
- Spray Evaporizaaon
- Ultraviolet Oxidation
6. Groundwater Disposal
- Injection
- Discharge to Surface Water
- Discharge to POTW
- Municipal Use
- Groundwater Recharge
Applicable as a
Remedial Alternative
Component
No
No
No
Yes
Yes
No
Yes
Yes
Comments
Used to treat inorganic waste (i.e. metals) and high
molecular weight organics, therefore, not generally
applicable at this Site. Also, highly subject to
fouling by precipitates and biological growth.
May be effective in treating volatile compounds.
Presence of other nonvolatile compounds may
restrict use of this technology. Effectiveness is
difficult to evaluate. Large area needed.
High cost of power and materials compared to
similar acceptable technologies.
Acceleration of remediation. Reuse of extracted
groundwater. Pilot study required.
Cost effective. Groundwater must meet surface
water criteria prior to discharge. NPDES permit
required.
Would be restricted by operating permit of POTW.
May not be required if groundwater treated cm-Site.
Unacceptable to MWC.C due to hydraulic
loading concerns.
Redily irnplemcntable. Prudent use of
groundwater resource.
Reuse of extracted groundwater. No institutional
constraints.
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TABLE 11
ALTERNATIVE ANALYSIS SUMMARY
Assessment Factors
Alternative 1 •
No Action, with Monitoring
Alternative 2 •
Croundwaier E
Treitmcnt i| TCAAP
Alternative 3 •
Croundwaier Extraction,
Local Treatment and Discharge
Alu-mauve4-
G round water Infraction, I jrxal Treatment,
Mississippi Kiver Discharge
Description
No further remedial work on South Plume
groundwater contamination
Croundwaier b pumped from the
Unit 4 aquifer, b pumped via forcemain
loTCAAP. Water is air-stripped and discharged
atTCAAP.
Croundwaier la pumped a5 in Alternative 2
and is treated In the New Brighton Public
Works Garage area using CAC Treated
water is discharged to New Brighton municipal
system.
Ground water pumping and treatment as in
Alternative 3. Treated water discharge via
forcemain to the Mississippi River.
1. Overall Protection of
Human Health and
Environment
Th* no action alternative provides no
additional protection of human health o
the environment.
Hydraulic containment, extraction and treatment of
VOC impacted groundwater prevents future exposure
to previously unexposed persons.
VOC Impacted groundwaler prevents future exposure
to previously unexposed persons.
Hydraulic containment, extraction and treatment of
VOC impacted groundwater prevents future exposure
to previously unexposed persons.
2. Compliance with ARARs
ARARs established for the PGRS will not be
met. Currently uncontaminaled parts of Ih*
affected aquifer could become contaminated.
Utilizes well proven and demonstrated technologies
which will likely meet proposed ARARs.
Utilizes well proven and demonstrated technologies
which will likely meet proposed ARARs.
Utilizes well proven and demonstrated technologic*
which will likely meet proposed ARARf.
3. Long Ttirm Hffrctiveness
No action provides no long term effectiveness,
This alternative at part of the overall remedy
for TCA AT will prtvenl further migration of
the South Plume. Potential negative impart on
OCRS capture if the grave) pit U Ihe sole
discharge point htt not been determined.
Alternative 3 effectively contains the South Plume
for the long term. This discharge alternative is a
permanent discharge opdon with no adverse impact on
existing interim remedies.
Alternative 4 effectively contain! the South Plume fur
the long term. This discharge alternative is permanent
unless water discharge criteria are lowered or ke safely
becomes an issue.
Reduction of Toxicity,
Mobility and Volume flMV)
There b no reduction in TMV.
This alternative significantly reduces the
mobility by preventing further migration of
the south plume. The loxldty of the VOC
contaminated water b also reduced by treatment.
Volume of VOCs is reduced by extraction of VOC
contaminated groundwater
This alternative significantly reduces Ihe
mobility by preventing further migration of
Ihe south plume. The loxicity of the VOC
contaminated waicr b also reduced by treatment.
Volume of VOCs U reduced by extraction of VOC
contaminated groundwater
This alternative significantly reduces Ihe
mobility by preventing further migration of
the south plume. The loxiclry of the VOC
contaminated water is also reduced by treatment.
Volume of VOCs is reduced by exlracUon of VOC
contaminated ground w*tcr
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TABLE 11
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Table 12
TCAAP OU3 COST ESTIMATE
ALTERNATIVE 3:GROUNDWATER EXTRACTION,
LOCAL TREATMENT & DISCHARGE
Item
CAPITAL COSTS
Extraction wells (2)
Pumphouse with elec/ mech
Forcemain to treatment plant
Inorganics treatment plant
Granular carbon system
Effluent forcemain
TOTAL CAPITAL COST
Unit Price
$ 164,000
$ 96,000
$ 10,000
$ 562,000
$1,391,000
$ 26,000
Cost
$2,249,000
OPERATION AND MAINTENANCE COSTS
Effluent monitoring
Groundwater monitoring
Electrical
Equipment maintenance
Carbon usage
Chemical costs
$
$
$
$
$
$_
12,000
50,000
94,000
44,000
51,000
25,000
Total Annual Cost
PRESENT VALUE
30 years @ 10%
$ 276,000
$2.602,000
TOTAL COST:
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APPENDIX B
FIGURES
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\\
4
N
*
Spring i
Lok« '
Frldloy
Shoravfow
THBV
CITIES
A/MY
AMMUNITION
PLANT
i Now \
Brighton ,
i I / Ardon
••- ,1 J_ L Hllli ,
ijj J Columbia i L J ', j
1 S
J__ r Mopl.wood L
I i !
St. Paul
2 1 0 1-1/2
SCALE: 1' - 3 Mll««
TVUN OT1ES ARMY AMMUNITION PLANT
NEW BRIGHTON. MINNESOTA
FIGURE 1
MINNEAPOLiS-ST.PAUL. AREA
PRO ENVIRONMENTAL MANAGEMENT. INC.
-------�
MftCMM
Arm* Ammunition Ptonl
CoiwuMng Englnxn. Inc
TWIN CITIES ARMY AMMUNITION PLANT
NEARBY SURFACE WATER BODIES
-------�
TWN CITIES ARMY AMMUNITION PLANT
NEW BRIGHTON. MINNES01A
-------�
TWIN CITIES
ARMY AMMUNITION PLANT
CRA
figure 4
CONCEPTUAL ILLUSTRATION OF THE
TCAAP NORTH AND SOUTH PLUMES
TCAAP OU3
}«7T-«/CS/«-M
-------�
TWIN CITIES ARMY
AMMUNITION PLANT
mil CITIES ARMY AMMUNITION P1AN1
NEW BRIGHTON, MINNESOTA
OfJ TCAAP UNIT 4 GROUNOWATER
WEILS ft ASSOCIATED EXPOSURE AREA
ENVIRONMENTAL MANAGEMENT.
-------�
TWIN CITIES ARMY
AMMUNITION PLANT
I
TCE Concentration
In port! BOf billon
< 1.0
1.0 - 5
5 - 100
100 - 1000
> 1000
TCE Concentration
in port* per billion
/ (If no number U shown.
concentration not ovailobie)
- Monitoring Well
Identification Number
1. TCE Plumo Dotinootion mat conducted
by U.S. EP*. U.S. Army. MPCA.
and thtor confultanta on Fobruary
5 It 6. 1980
WIN CITIES ARMY AMMUNITION PLANT
NEW BRIGHTON. MINNESOTA
mums
OFF TCAAP UNIT 3 GROUND -WATER
WELLS ft ASSOCIATED EXPOSURE AREAS
ENVIRONMENTAL MANAGEMENT. IN
POOR QUALITY
ORIGINAL
-------�
INLET •>•
PRETREATMENT SYSTEM
(FILTERS. ETC.I
SPENT CARBON S TORAG E
TO DISCHARGE
WATER -
CRA
figure 7
CARBON TREATMENT SCHEMATIC
GRAVITY SYSTEM
TCAAP OU3
3B77-20/03/9Z-M
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•aX t& M
W"+mwy£X' y%f2s&&£»£- 5>
m*:\ m
9 OHOfOJCD UNIT 4
EXTRACTION WELL
fj OAC TMCATMCNT FtCILITT
figure 8
ESTIMATED ZONE
OF CAPTUFE
TCAAP OU3
QUALITY
ORIGINAL
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