NPL­
U33­
2­
3­
R2
HAZARD
RANKING
SYSTEM
DOCUMENTATION
PACKAGE
DIAMOND
HEAD
OIL
REFINERY
DIV.
KEARNY,
HUDSON
COUNTY,
NEW
JERSEY
CERCLIS
ID
No.:
NJD092226000
VOLUME
1
of
1
EPA
Contract
No.:
68­
W5­
0019
TDD
No.:
02­
99­
08­
0015
Document
Control
No.:
START­
02­
F­
04337
JULY
2000
REVISED
JANUARY
2002
Prepared
for:
UNITED
STATES
ENVIRONMENTAL
PROTECTION
AGENCY
Region
II
290
Broadway,
18th
Floor
New
York,
NY
10007
Prepared
by:
Region
II
Superfund
Technical
Assessment
and
Response
Team
Roy
F.
Weston,
Inc.
Federal
Programs
Division
Edison,
NJ
08837
SITE
SUMMARY
The
Diamond
Head
Oil
Refinery
Div.
(Diamond
Head)
site
is
located
at
1401
Harrison
Ave.
in
Kearny,
Hudson
County,
New
Jersey.
Currently,
the
site
is
inactive
and
consists
of
undeveloped
land
that
is
bordered
by
Harrison
Avenue
to
the
north,
entrance
ramp
M
of
Interstate
280
(I­
280)
to
the
east,
I­
280
to
the
south,
and
Campbell
Distribution
Foundry
to
the
west.
The
site
is
comprised
of
wetland
areas
and
drainage
ditches,
a
small
wetland/
pond,
a
vegetated
landfill
area
along
the
western
border
of
the
site,
and
the
remnants
of
the
former
Diamond
Head
Oil
Refinery
on
the
eastern
portion
of
the
site.
The
abandoned
refinery
portion
of
the
site
contains
various
construction
debris,
including
foundations
of
the
former
on­
site
building
and
two
former
aboveground
storage
tanks.
The
refinery
is
currently
owned
by
the
Hudson
Meadows
Urban
Land
Development
Corporation
(HMULDC).

The
Diamond
Head
Oil
Refinery
Div.
was
in
operation
from
February
1,
1946
to
early
1979.
The
facility
operated
under
several
company
names
including
PSC
Resources,
Inc.,
Ag­
Met
Oil
Service,
Inc.,
and
Newtown
Refining
Corporation.
All
of
these
companies
were
owned
by
Mr.
Robert
Mahler.
In
January
1985,
Newtown
Refining
Corporation
sold
the
property
to
Mimi
Urban
Development
Corporation,
which
changed
its
name
to
Hudson
Meadows
Urban
Land
Development
Corporation.
The
refinery
portion
of
the
site
is
currently
owned
by
HMULDC.

During
facility
operations,
two
aboveground
storage
tanks
(conflicting
reports
of
volumes
of
30,000
and
100,000
gallons)
and
possibly
underground
pits
were
used
to
store
oily
wastes.
These
wastes
were
intermittently
discharged
directly
to
adjacent
properties,
including
the
wetland
area
to
the
south
of
the
refinery,
creating
an
oil
lake.
The
New
Jersey
Department
of
Transportation
(NJDOT)
acquired
the
property
south
of
the
site
on
March
6,
1968.
In
1977,
NJDOT
began
construction
of
I­
280
and
was
reported
to
have
removed
9
million
gallons
of
oilcontaminated
water
and
5
to
6
million
cubic
yards
of
oily
sludge
from
the
lake.
The
material
was
reportedly
transported
to
Newtown
Refining
Corporation's
facility
on
Long
Island
to
be
recycled;
however,
there
are
no
reports
stating
that
this
recycling
process
occurred.
It
is
also
reported
that
during
the
construction
of
I­
280,
an
underground
lake
of
oil­
contaminated
groundwater
was
found
extending
from
the
eastern
limits
of
the
NJDOT
right­
of­
way
to
Frank's
Creek
on
the
west.
It
is
reported
that,
prior
to
abandoning
the
refinery,
Diamond
Head
cleaned
out
the
two
aboveground
tanks;
however,
there
is
no
known
documentation
of
this
activity.
From
the
close
of
operations
in
1979
until
1982,
the
abandoned
refinery
was
not
completely
fenced.
During
this
time,
it
was
reported
that
dumping
of
waste
oils
and
other
debris
took
place
on
site.
A
contractor
was
hired
to
clean
up
the
refinery
in
May
1982.
In
order
to
do
so,
the
material
in
the
tanks
was
analyzed
and
found
to
contain
polychlorinated
biphenyls
(PCBs)
at
a
concentration
of
206
parts
per
million
(ppm).
Subsequent
analyses
revealed
the
presence
of
PCBs
at
concentrations
over
3,100
ppm.
Approximately
7,500
gallons
of
material
were
reportedly
pumped
out
of
the
tanks
and
disposed
off
site
by
a
Resource
Conservation
and
Recovery
Act
(RCRA)
permitted
Treatment,
Storage,
and
Disposal
Facility
(TSDF).
In
addition,
27
tons
of
contaminated
soil
were
reportedly
removed
from
the
site
in
May
1982.

Background
information
indicates
that
previous
investigations
have
been
conducted
at
the
Diamond
Head
Oil
Refinery
Div.
site.
These
investigations
include
a
sampling
event
conducted
by
the
New
Jersey
Department
of
Environmental
Protection
(NJDEP),
an
Environmental
Site
Characterization
conducted
by
a
contractor
hired
by
HMURDC,
and
a
Site
Inspection
conducted
by
the
U.
S.
Environmental
Protection
Agency
(EPA)
Region
II
Field
Investigation
Team
(FIT).
During
these
investigations,
groundwater,
surface
water/
sediment,
surface/
subsurface
soil,
liquid
waste
and
solid
waste
samples
were
collected.
Analytical
results
of
these
samples
indicated
the
presence
of
volatile
organic
compounds
(VOCs),
and
semivolatile
organic
compounds
(SVOCs),
pesticides,
PCBs,
and
metals.

In
December
1999
EPA
conducted
an
Expanded
Site
Inspection
(ESI)
at
the
Diamond
Head
Oil
Refinery
Div.
site.
During
the
ESI,
EPA
collected
surface/
subsurface
soil
and
ground
water
samples
from
20
borings
advanced
throughout
the
site.
EPA
also
collected
sediment
samples
from
the
on­
site
wetland/
pond
area
as
well
as
from
the
wetland
area
extending
along
the
southern
perimeter
of
the
site.
Analytical
results
indicated
the
presence
of
VOCs,
SVOCs,
pesticides,
PCBs,
and
metals.

An
observed
release
to
surface
water
is
documented
by
chemical
analyses
of
sediment
samples
collected
from
wetlands
along
the
southern
and
western
boundaries
of
the
site.
Level
II
concentrations
of
lead,
mercury,
and
zinc
are
documented
to
0.20
mile
of
wetland
frontage
extending
along
the
southern
and
western
boundaries
of
the
site.
HRS
DOCUMENTATION
RECORD­­
REVIEW
COVER
SHEET
Name
of
Site:
Diamond
Head
Oil
Refinery
Div.

Contact
Persons
Site
Investigation:
Dennis
J.
Foerter
(732)
225­
6116
Roy
F.
Weston,
Inc.
­
Region
II
START
Edison,
NJ
Documentation
Record:
Dennis
Munhall
(212)
637­
4343
U.
S.
Environmental
Protection
Agency
New
York,
NY
Dennis
J.
Foerter
(732)
225­
6116
Roy
F.
Weston,
Inc.
­
Region
II
START
Edison,
NJ
Pathways,
Components,
or
Threats
Not
Scored
The
Ground
Water,
Soil
Exposure,
and
Air
Pathways
were
not
scored
because
the
site
score
would
not
be
significantly
impacted
by
those
pathways.
5
HRS
DOCUMENTATION
RECORD
Name
of
Site:
Diamond
Head
Oil
Refinery
Div.

EPA
Region:
2
Date
Prepared:
May
2000
Revised:
January
2002
Street
Address
of
Site:
1401
Harrison
Turnpike,
Kearny
County
and
State:
Hudson,
NJ
General
Location
in
the
State:
northern
NJ
Topographic
Map:
Elizabeth,
NJ
(Ref.
5)

Latitude:
40°
44'
50.0"
North
Longitude:
74°
07'
55.9"
West
(Ref.
4)

EPA
ID
No.:
NJD092226000
Scores
Ground
Water
Pathway
Not
Scored
Surface
Water
Pathway
60.00
Soil
Exposure
Pathway
Not
Scored
Air
Pathway
Not
Scored
HRS
SITE
SCORE
30.00
6
WORKSHEET
FOR
COMPUTING
HRS
SITE
SCORE
S
S
2
1.
Ground
Water
Migration
Pathway
Score
(S
gw
)
Not
Scored
(from
Table
3­
1,
line
13)

2a.
Surface
Water
Overland/
Flood
Migration
Component
60.00
3,600
(from
Table
4­
1,
line
30)

2b.
Ground
Water
to
Surface
Water
Migration
Component
Not
Scored
(from
Table
4­
25,
line
28)

2c.
Surface
Water
Migration
Pathway
Score
(S
sw
)
60.00
3,600
Enter
the
larger
of
lines
2a
and
2b
as
the
pathway
score.

3.
Soil
Exposure
Pathway
Score
(S
s
)
Not
Scored
(from
Table
5­
1,
line
22)

4.
Air
Migration
Pathway
Score
(S
a
)
Not
Scored
(from
Table
6­
1,
line
12)

5.
Total
of
S
gw
2
+
S
sw
2
+
S
s
2
+
S
a
2
3,600
6.
HRS
Site
Score
Divide
the
value
on
line
5
by
4
and
take
the
square
root
30.00
7
PREScore
4.1
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORESHEET
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
Factor
Categories
&
Factors
DRINKING
WATER
THREAT
MAXIMUM
VALUE
VALUE
ASSIGNED
Likelihood
of
Release
1.
Observed
Release
2.
Potential
to
Release
by
Overland
Flow
2a.
Containment
2b.
Runoff
2c.
Distance
to
Surface
Water
2d.
Potential
to
Release
by
Overland
Flow
[lines
2a(
2b+
2c)]
3.
Potential
to
Release
by
Flood
3a.
Containment
(Flood)
3b.
Flood
Frequency
3c.
Potential
to
Release
by
Flood
(Lines
3a
x
3b)
4.
Potential
to
Release
(lines
2d+
3c)
5.
Likelihood
of
Release
550
10
25
25
500
10
50
500
500
550
550
0
0
0
550
Waste
Characteristics
6.
Toxicity/
Persistence
7.
Hazardous
Waste
Quantity
8.
Waste
Characteristics
*
*
100
0
0
0
Targets
9.
Nearest
Intake
10.
Population
10a.
Level
I
Concentrations
10b.
Level
II
Concentrations
10c.
Potential
Contamination
10d.
Population
(lines
10a+
10b+
10c)
11.
Resources
12.
Targets
(lines
9+
10d+
11)
50
**
**
**
**
5
**
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
13.
DRINKING
WATER
THREAT
SCORE
100
0.00
*
Maximum
value
applies
to
waste
characteristics
category
**
Maximum
value
not
applicable.
8
PREScore
4.1
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORESHEET
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
Factor
Categories
&
Factors
HUMAN
FOOD
CHAIN
THREAT
MAXIMUM
VALUE
VALUE
ASSIGNED
Likelihood
of
Release
14.
Likelihood
of
Release
(same
as
line
5)
550
550
Waste
Characteristics
15.
Toxicity/
Persistence/
Bioaccumulation
16.
Hazardous
Waste
Quantity
17.
Waste
Characteristics
*
*
1000
0
0
0
Targets
18.
Food
Chain
Individual
19.
Population
19a.
Level
I
Concentrations
19b.
Level
II
Concentrations
19c.
Pot.
Human
Food
Chain
Contamination
19d.
Population
(lines
19a+
19b+
19c)
20.
Targets
(lines
18+
19d)
50
**
**
**
**
**
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
0.00E+
00
13.
HUMAN
FOOD
CHAIN
THREAT
SCORE
100
0.00
*
Maximum
value
applies
to
waste
characteristics
category
**
Maximum
value
not
applicable.
9
PREScore
4.1
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
SCORESHEET
SURFACE
WATER
OVERLAND/
FLOOD
MIGRATION
COMPONENT
Factor
Categories
&
Factors
ENVIRONMENTAL
THREAT
MAXIMUM
VALUE
VALUE
ASSIGNED
Likelihood
of
Release
22.
Likelihood
of
Release
(same
as
line
5)
550
550
Waste
Characteristics
23.
Ecosystem
Toxicity/
Persistence/
Bioacc.
24.
Hazardous
Waste
Quantity
25.
Waste
Characteristics
*
*
1000
5.00E+
08
1.00E+
04
1000
Targets
26.
Sensitive
Environments
26a.
Level
I
Concentrations
26b.
Level
II
Concentrations
26c.
Potential
Contamination
26d.
Sensitive
Environments
(lines
26a+
26b+
26c)
27.
Targets
(line
26d)
**
**
**
**

**
0.00E+
00
2.50E+
01
2.50E+
00
2.75E+
01
2.75E+
01
28.
ENVIRONMENTAL
THREAT
SCORE
60
60.00
29.
WATERSHED
SCORE
100
60.00
30.
SW:
OVERLAND/
FLOOD
COMPONENT
SCORE
(Sof)
100
60.00
*
Maximum
value
applies
to
waste
characteristics
category
**
Maximum
value
not
applicable.
10
REFERENCES
Reference
Number
Description
of
the
Reference
1.
U.
S.
Environmental
Protection
Agency
(USEPA),
Revised
Hazard
Ranking
System,
Final
Rule,
55
FR
51532,
December
14,
1990.
[9
pp.]

2.
U.
S.
EPA,
Superfund
Chemical
Data
Matrix,
SCDM
Data
Version:
JUN96.
[8
pp.]

3.
Foerter,
D.,
Region
II
Superfund
Technical
Assessment
and
Response
Team
(START),
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Latitude
and
Longitude
Calculations,
May
25,
2000.
[1
p.
and
1
topographic
map]

4.
Halliburton
NUS
Environmental
Corporation,
Final
Draft
Site
Inspection
Report,
Diamond
Head
Oil
Refinery
Div.,
Kearny,
New
Jersey
(excluding
attachments),
December
31,
1991.
[42
pp.]

5.
Germine,
Thomas
J.
Deputy
Attorney
General,
State
of
New
Jersey,
Department
of
Law
and
Public
Safety,
Memorandum
of
Meeting,
August
17,
1979.
[4
pp.]

6.
Allen,
H.,
Region
II
START,
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Calculation
of
the
Total
Area
of
the
Former
Oil
Lake
at
the
Diamond
Head
Oil
Site,
June
15,
2000.
[5
pp.]

7.
Trotter,
J.,
Region
II
ESAT/
RSCC,
Record
of
Communication
to
Smita
Sumbaly,
Subject:
Quality
Assured
Data,
Diamond
Head
Oil
Refinery,
Case
27633,
(includes
inorganic
laboratory
data),
10
February,
2000.
[164
pp.]

8.
U.
S.
EPA,
Functional
Guidelines
for
Evaluating
Organic
Analysis,
Case
No.
27633,
Diamond
Head
Oil
Refinery
(includes
organic
laboratory
data),
10
March
2000.
[292
pp.]

9.
Nova
Consultants,
Report
for
Harbor
Consultants,
To
Conduct
a
Non­
Tidal
Wetland
Delineation
on
a
Tract
Designated
as:
Block
294,
Lots
3,
14,
and
15,
Kearny,
NJ,
September
1990
[42
pp.
and
1
map]

10.
EPA,
Office
of
Emergency
and
Remedial
Response,
Quick
Reference
Fact
Sheet,
Using
Qualified
Data
to
Document
an
Observed
Release
and
Observed
Contamination,
EPA
540­
F­
94­
O28,
OSWER
9285.7­
14FS,
PB94­
963311,
November
1996.
[18
pp.]

11.
Roy
F.
Weston,
Inc.,
Region
II
START,
ESI
Field
Logbook
Diamond
Head
Oil
Refinery
Div.,
Document
Control
No.
START­
02­
423,
October­
December
1999.
[17
pp.]
11
REFERENCES
(cont'd)

Reference
Number
Description
of
the
Reference
12.
Foerter,
D.,
Region
II
START,
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Observations
of
Oil
Discharge
and
Oil
Stained
Soil
at
Diamond
Head
Oil,
May
30,
2000.
[4
pp.]

13.
Foerter,
D.,
Region
II
START,
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Non­
Contaminated
Portion
of
Wetland
C,
June
16,
2000.
[2
pp.]

14.
Foerter,
D.,
Region
II
START,
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Analytical
Data/
Sample
Quantitation
Limits
(Diamond
Head
Oil
Refinery),
June
16,
2000.
[8
pp.]

15.
Foerter,
D.,
Region
II
START,
Project
Note
to
Diamond
Head
Oil
Refinery
Div.
File,
Subject:
Background
ESI
Sediment
Samples,
December
6,
1999.
[1
p.]
12
SD­
Characterization
and
Containment
Source
No.:
1
SOURCE
DESCRIPTION
2.2
Source
Characterization
Number
of
the
source:
1
Name
and
description
of
the
source:
Surface
impoundment
(buried/
backfilled)

Source
1
consists
of
a
former
surface
impoundment
which
is
also
referred
to
as
the
oil
lake.
Background
information
indicates
that
oily
wastes
were
discharged
directly
to
adjacent
properties
(including
the
wetland
area
in
the
southern
portion
of
the
site)
forming
the
oil
lake
(Ref.
4,
p.
5).
The
New
Jersey
Department
of
Transportation
(NJDOT)
acquired
the
property
adjacent
to
the
site
in
1968.
In
1977,
NJDOT
began
construction
of
Interstate
280
and
reportedly
pumped
approximately
9
million
gallons
of
oil
and
oil/
water
emulsion
from
the
lake.
In
addition,
approximately
200,000
to
250,000
cubic
yards
of
oil
sludge
were
removed
from
the
lake
by
mudwaving
and
backfilling
with
compressed
sand
(Ref.
4,
p.
5;
5,
p.
2;
Support
Document
for
the
Revised
National
Priorities
List
Final
Rule
February
2002).

Analytical
results
of
the
oil
lake's
oil
layer
indicated
32
percent
oil
and
68
percent
water
and
sediment.
In
addition,
the
sample
indicated
a
high
lead
and
zinc
content
(Ref.
5,
p.
3).
In
addition,
soil/
sediment
samples
collected
from
Wetland
A
during
the
1991
SI
indicated
the
presence
of
VOCs
(Ref.
4,
pp.
16,
17).

During
ESI
activities
conducted
by
EPA
in
December
1999,
petroleum
odors,
oil
saturated
soil,
and
free
product
were
observed
in
several
borings
advanced
in
the
area
of
the
former
oil
lake
(Ref.
11,
pp.
13,
14,
Figure
3).

A
review
of
aerial
photographs
indicate
that
the
area
of
the
on­
site
pond/
wetland
(wetland
A)
was
a
part
of
the
oil
lake
surface
impoundment
(Ref.
6,
p.
5).
Based
on
the
fact
that
this
area
was
an
isolated
water
body
and
was
intended
to
be
used
as
a
waste
management
area,
and
the
fact
that
hazardous
substances
in
the
pond
were
the
result
of
deposition,
the
on­
site
pond
is
evaluated
as
part
of
the
oil
lake
surface
impoundment.

The
oil
lake
is
not
excluded
as
a
source
at
the
site
due
to
the
fact
that
contaminants
not
associated
with
petroleum
products
(i.
e.,
PCBs,
chlorinated
solvents)
were
detected
in
samples
collected
from
the
oil
lake.
In
addition,
the
oil
lake
consists
of
waste
oils
and
is
not
the
result
of
a
petroleum
product
spill
(Ref.
5;
12).

Location
of
the
source,
with
reference
to
a
map
of
the
site:

The
former
oil
lake
was
located
in
the
southeast
portion
of
the
site
and
extended
off
site
to
the
south
and
east
(see
Figure
3).
A
portion
of
the
oil
lake
appears
to
have
existed
in
the
area
of
Wetland
A,
which
is
an
on­
site
palustrine
wetland
(Wetland
A)
located
in
the
southeast
portion
of
the
site
(Ref.
6,
p.
5;
Figure
3).
13
SD­
Characterization
and
Containment
Source
No.:
1
Containment
Release
via
overland
migration
and/
or
flood:

Based
on
the
fact
that
there
are
no
containment
features
associated
with
source
1,
the
containment
factor
for
the
surface
water
migration
pathway
is
10
(Ref.
1,
p.
51610).
14
SD­
Hazardous
Substances
Source
No.:
1
2.4.1
Hazardous
Substances
Hazardous
substance
Evidence
Reference
Lead
ESI
Sampling
Event*
(max.
=
84,300J
mg/
kg
December
1999:
SD04)
SD04,
SD05,
SD06,
SD08,
7,
pp.
54­
56
SD09,
SD10,
SD11,
SD12,
SD13,
SD14,
SD15
Zinc
ESI
Sampling
Event*
(max.
=
17,700J
mg/
kg
December
1999:
SD04)
SD04,
SD05
7,
p.
54
PCBs
ESI
Sampling
Event*
(max.
=
13.0
D
mg/
kg
December
1999:
SD10)
SD05,
SD06,
SD07,
SD10,
8,
pp.
67­
75
SD11,
SD12,
SD13,
SD14
Mercury
ESI
Sampling
Event*
(max.
=
3.9
mg/
kg
December
1999:
SD08)
SD08,
SD11,
SD13,
7,
pp.
54­
56
SD14,
SD15
Tetrachloroethylene
SI
Sampling
Event
(1991):
(max.=
25,000E
ug/
kg
S10
4,
pp.
16,
17
S10)

1,1,1­
trichloroethane
SI
Sampling
Event
(1991):
4,
pp.
16,
17
(max.=
3,200E
ug/
kg
S10
SD10)

*
ESI
Sample
locations
are
provided
in
Figure
3.

Notes:
J
or
E
qualifiers
indicate
an
estimated
value.
D
qualifiers
indicate
that
a
dilution
was
performed
prior
to
analysis.
15
SD­
Hazardous
Constituent
Quantity
Source
No.:
1
2.4.2
Hazardous
Waste
Quantity
2.4.2.1.1
Hazardous
Constituent
Quantity
The
information
available
is
not
sufficient
to
evaluate
Tier
A
source
hazardous
waste
quantity.

Hazardous
Constituent
Quantity
Value
(S):
N/
A
16
SD­
Hazardous
Wastestream
Quantity
Source
No.:
1
2.4.2.1.2
Hazardous
Wastestream
Quantity
The
information
available
is
not
sufficient
to
evaluate
Tier
B
source
hazardous
waste
quantity.

Hazardous
Wastestream
Quantity
(W):
N/
A
Hazardous
Wastestream
Quantity
Assigned
Value:
N/
A
17
SD­
Volume
Source
No.:
1
2.4.2.1.3
Volume
Prior
to
removal
activities
conducted
by
NJDOT,
the
oil
lake
consisted
of
9
million
gallons
of
oil
and
oil/
water
emulsion,
and
approximately
200,000
to
250,000
cubic
yards
of
oil
sludge
(Ref.
4,
p.
5;
5,
p.
2;
Support
Document
for
the
Revised
National
Priorities
List
Final
Rule
February
2002).
During
ESI
sampling
activities,
petroleum
odors,
oil
saturated
soil,
and
free
product
were
observed
in
borings
advanced
in
the
area
of
the
former
oil
lake
(Ref.
11,
pp.
13,
14).
Based
on
this
information,
the
following
hazardous
waste
calculations
are
made:

1
cubic
yard
=
200
gallons;
therefore,
9
million
gallons/
200
gallons
=
45,000
cubic
yards
200,000
cubic
yards
of
oil
sludge
+
45,000
cubic
yards
=
245,000
Based
on
this
information
the
volume
of
the
oil
lake
was
245,000
cubic
yards.
The
source
type
is
a
surface
impoundment
(buried/
backfilled),
so
the
equation
for
assigning
hazardous
waste
value
is
V/
2.5,
according
to
Table
2­
5
of
the
HRS
rule
(Ref.
1,
p.
51591).
This
results
in
a
value
of
98,000.

Dimension
of
source
(yd
3
):
245,000
Reference(
s):
1,
p.
51591
Volume
Assigned
Value:
245,000/
2.5
=
98,000
18
SD­
Area
Source
No.:
1
2.4.2.1.4
Area
Since
the
volume
of
the
waste
source
can
be
determined,
a
value
of
0
is
given
for
area
measurement
(Ref.
1,
p.
51591).
It
should
be
noted
that
an
aerial
photograph
from
1976
indicates
that
the
area
of
the
oil
lake
was
approximately
4
acres
(Ref.
6,
pp.
1­
4).

Area
of
source
(ft
2
):
Not
evaluated
Reference(
s):
1,
p.
51591
Area
Assigned
Value:
0
19
SD­
Source
Hazardous
Waste
Quantity
Value
Source
No.:
1
2.4.2.1.5
Source
Hazardous
Waste
Quantity
Value
Prior
to
removal
activities
conducted
by
NJDOT,
the
oil
lake
consisted
of
9
million
gallons
of
oil
and
oil/
water
emulsion,
and
approximately
5
to
6
million
cubic
yards
of
oil
sludge
(Ref.
4,
p.
5;
5,
p.
2).
During
ESI
sampling
activities,
petroleum
odors,
oil
saturated
soil,
and
free
product
were
observed
in
borings
advanced
in
the
area
of
the
former
oil
lake
(Ref.
11,
pp.
13,
14).
Based
on
this
information,
and
the
volume
calculation
made
in
section
2.4.2.1.3,
a
hazardous
waste
quantity
value
of
98,000
is
assigned
for
the
oil
lake.

Source
Hazardous
Waste
Quantity
Value:
2,018,000
20
SD­
Characterization
and
Containment
Source
No.:
2
SOURCE
DESCRIPTION
2.2
Source
Characterization
Number
of
the
source:
2
Name
and
description
of
the
source:
Contaminated
Soil
Source
2
consists
of
contaminated
soil.
Inspections
conducted
by
the
New
Jersey
Department
of
Environmental
Protection
in
the
1970s
and
1980s
noted
discharges
of
oil
to
the
surface
in
the
area
of
the
former
building
and
tanks,
as
well
as
in
the
western
property
boundary
adjacent
to
the
right­
of­
way.
Oil­
stained
soil
was
also
noted
in
several
locations
throughout
the
property
(Ref.
12,
pp.
1­
4).

Soil
samples
were
collected
from
the
areas
of
the
building
and
tank
foundations
during
the
1991
SI
and
the
1999
ESI
(Ref.
4,
p.
16;
Figure
3).
Analytical
results
from
these
sampling
events
indicated
the
presence
of
contaminants,
including
VOCs,
PCBs,
and
metals,
in
on­
site
soils
(Ref.
4,
pp.
16­
36;
7,
pp.
38­
58;
8,
pp.
42­
76;
11,
p.
16;
Figure
3).

Contaminated
soil
is
not
excluded
as
a
source
at
the
site
due
to
the
fact
that
contaminants
not
associated
with
petroleum
products
(i.
e.,
PCBs,
chlorinated
solvents)
were
detected
in
soil
samples
collected
on
site
(Ref.
4,
pp.
16­
18,
29,
32,
36).

Location
of
the
source,
with
reference
to
a
map
of
the
site:

Areas
of
contaminated
soil
are
defined
by
SI
soil
sample
locations
S2
through
S8,
and
ESI
soil
boring
Nos.
1,
3,
6,
7,
8,
12,
and
13
(Ref.
4,
p.
16;
Figure
3).
Contaminated
soil
areas
are
primarily
located
in
the
northern
portion
of
the
site
near
the
former
building
and
tank
foundations
(Ref.
4,
pp.
16­
36;
7,
pp.
38­
58;
8,
pp.
42­
76;
Figure
3).

Containment
Release
via
overland
migration
and/
or
flood:

Based
on
the
fact
that
there
are
no
containment
structures
associated
with
source
2,
the
containment
factor
for
the
surface
water
migration
pathway
is
10
(Ref.
1,
p.
51609).
21
SD­
Hazardous
Substances
Source
No.:
2
2.4.1
Hazardous
Substances
Hazardous
substance
Evidence
Reference
Lead
SI
soil
samples
(1991):
4,
pp.
16,
18,
36
(max.
=
52,300J
mg/
kg,
S3,
S4,
S5,
S6,
S8
S5)

ESI
soil
samples
(1999):
7,
pp.
38,
40,
SS12,
SS13,
S12,
S01
46­
48;
Figure
3
S06,
S08,
SS03
Zinc
SI
soil
samples
(1991):
4,
pp.
16,
18,
36
(max.
=
5,550
mg/
kg
S4,
S5,
S6
S5)

ESI
soil
samples
(1999):
7,
pp.
47;
S07,
S08
Figure
3
PCBs
SI
soil
samples
(1991):
4,
pp.
16,
32
(max.
=
110,000E
mg/
kg
S4,
S5,
S6
S5,
S6)

Tetrachloroethylene
SI
soil
samples
(1991):
4,
pp.
16­
17,
29
(max.
=
270E
ug/
kg
S2,
S4,
S5,
S6
S6)

1,1,1­
trichloroethane
SI
soil
samples
(1991):
4,
pp.
16,
29
(max.
=
9J
ug/
kg
S4
S4)

Note:
J
or
E
qualifiers
indicated
an
estimated
value.
22
SD­
Hazardous
Constituent
Quantity
Source
No.:
2
2.4.2
Hazardous
Waste
Quantity
2.4.2.1.1
Hazardous
Constituent
Quantity
The
information
available
is
not
sufficient
to
evaluate
Tier
A
source
hazardous
waste
quantity.

Hazardous
Constituent
Quantity
Value
(S):
N/
A
23
SD­
Hazardous
Wastestream
Quantity
Source
No.:
2
2.4.2.1.2
Hazardous
Wastestream
Quantity
The
information
available
is
not
sufficient
to
evaluate
Tier
B
source
hazardous
waste
quantity.

Hazardous
Wastestream
Quantity
(W):
N/
A
Hazardous
Wastestream
Quantity
Assigned
Value:
N/
A
24
SD­
Volume
Source
No.:
2
2.4.2.1.3
Volume
Based
on
analytical
results
of
soil
samples
collected
during
the
SI
in
July
1991
and
during
the
ESI
conducted
in
December
1999,
it
is
apparent
that
some
amount
of
contamination
is
present
at
depth;
however,
the
exact
volume
is
unknown
(Ref.
4,
pp.
17­
36;
7,
pp.
38­
58;
8,
pp.
42­
76;
11,
p.
16;
Figure
3).
A
source
waste
quantity
of
>0
will
therefore
be
assigned.

Dimension
of
source
(yd
3
):
>0
Reference(
s):
1,
p.
51591
Volume
Assigned
Value:
N/
A
25
SD­
Area
Source
No.:
2
2.4.2.1.4
Area
Since
the
volume
of
the
waste
source
can
be
determined,
a
value
of
0
is
given
for
area
measurement.

Area
of
source
(ft
2
):
Not
evaluated
Reference(
s):
1,
p.
51591
Area
Assigned
Value:
0
26
SD­
Source
Hazardous
Waste
Quantity
Value
Source
No.:
2
2.4.2.1.5
Source
Hazardous
Waste
Quantity
Value
Based
on
analytical
results
of
soil
samples
collected
during
the
SI
in
July
1991
and
during
the
ESI
conducted
in
December
1999,
it
is
apparent
that
some
amount
of
contamination
is
present
at
depth;
however,
the
exact
volume
is
unknown
(Ref.
4,
pp.
17­
36;
7,
pp.
38­
58;
8,
pp.
42­
76;
11,
p.
16;
Figure
3).
A
source
waste
quantity
of
>0
will
therefore
be
assigned.

Source
Hazardous
Waste
Quantity
Value:
>0
27
SD­
Summary
SITE
SUMMARY
OF
SOURCE
DESCRIPTIONS
Containment
Source
Hazardous
Source
Waste
Quantity
Ground
Surface
Air
No.
Value
Water
Water
Gas
Particulat
e
1
98,000
NE
10
NE
NE
2
>0
NE
10
NENE
NE
=
Not
Evaluated
2.4.2.2
Source
Hazardous
Waste
Quantity
Factor
Value
The
hazardous
waste
quantity
factor
value
is
determined
by
summing
the
source
hazardous
waste
quantity
values,
rounding
to
the
nearest
integer,
and
referring
to
Table
2­
6
of
the
HRS
rule.
The
rounded
sum
of
the
hazardous
waste
quantity
values
(98,000)
corresponds
to
a
hazardous
waste
quantity
factor
value
of
10,000
(Ref.
1,
p.
51591).
28
SWOF­
Surface
Water
Overland
Flow/
Flood
Migration
Pathway
4.1
OVERLAND/
FLOOD
MIGRATION
COMPONENT
4.1.1.1
DEFINITION
OF
HAZARDOUS
SUBSTANCE
MIGRATION
PATH
FOR
OVERLAND/
FLOOD
COMPONENT
The
on­
site
palustrine
wetland
(i.
e.,
wetland
A)
is
believed
to
have
been
part
of
the
former
oil
lake,
which
is
being
evaluated
as
a
waste
source
(i.
e.,
surface
impoundment)
(Ref.
6,
p.
5).
Runoff
from
this
wetland
A
drains
southeast
and
enters
another
wetland
(i.
e.,
Wetland
C),
which
extends
along
the
southern
perimeter
of
the
property
(Ref.
4,
pp.
16,
39;
9,
Wetland
Location
Map;
Figure
3).
Wetland
C
also
extends
north
along
the
western
property
boundary
adjacent
to
the
right­
of­
way,
and
south
and
west
toward
Frank's
Creek
(Ref.
9,
Wetland
Location
Map).
There
are
two
points
of
entry
(PPEs)
to
wetland
C.
One
PPE
is
approximately
45
feet
southwest
of
wetland
A.
The
other
PPE
is
located
in
Wetland
C,
at
its
most
northern
point,
along
the
western
property
boundary
near
the
rightof
way
(Ref.
9,
Wetland
Location
Map;
11,
p.
17;
Figure
3).

Sediment
samples
collected
during
the
ESI
in
December
1999
indicate
an
observed
release
by
chemical
analysis
to
wetland
C,
which
extends
along
the
southern
and
western
boundaries
of
the
site
property.
Sediment
samples
contained
lead,
mercury,
and
zinc
at
concentrations
significantly
above
the
background
concentrations
(Ref.
7,
pp.
53,
54,
56,
57).
Background
samples
were
collected
from
an
off­
site
wetland
which
was
deemed
not
affected
by
past
activities
at
the
Diamond
Head
Oil
Refinery
Div.
site
(Ref.
11,
pp.
6,
16).
Background
sediment
samples
were
collected
from
a
wetland
which
had
similar
vegetation
indicative
of
palustrine
emergent
wetlands.
This
wetland
was
similar
in
appearance
to
Wetland
A
and
Wetland
C,
which
are
both
palustrine
emergent
wetlands
located
on
the
Diamond
Head
Oil
Refinery
property.
Background
and
contaminated
sediment
samples
were
similar
in
sediment
type
and
percent
moisture.
Background
samples
and
contaminated
samples
were
both
collected
utilizing
the
same
sampling
procedures.
In
addition,
both
background
and
contaminated
sediment
samples
were
analyzed
for
TCL
and
TAL
contaminants
through
the
U.
S.
EPA
Contract
Laboratory
Program
(Ref.
15).
See
Figure
3
for
the
locations
of
wetland
sediment
samples.

The
observed
release
indicated
by
sediment
sample
data
constitutes
Level
II
contamination
of
approximately
0.20
mile
of
wetland
(Ref.
11,
pp.
17).
The
remainder
of
the
wetland
outside
of
those
sample
locations,
which
has
a
frontage
of
approximately
600
feet
(0.11
mile),
is
evaluated
under
potential
contamination
(Ref.
13).
Based
on
the
fact
that
there
is
no
information
to
support
if
Wetland
C
is
in
perennial
connection
with
Frank's
Creek
at
this
time,
Wetland
C
is
being
evaluated
as
an
isolated
wetland.
29
SWOF­
Observed
Release
4.1.2.1
LIKELIHOOD
OF
RELEASE
4.1.2.1.1
Observed
Release
Background
Concentration
Sample
ID
Sampling
Location
Depth
Date
Reference
SD01
off­
site
wetland
surface
12/
2/
99
7,
p.
53
SD02
off­
site
wetland
surface
12/
2/
99
7,
p.
53
SD03
off­
site
wetland
surface
12/
2/
99
7,
p.
54
Sample
Quantitation
Sample
ID
Hazardous
Substance
Conc
(ppb)
Limit
(ppb)*
Reference
SD01
Lead
116
J
(167.04)
1.42
7,
p.
53
Zinc
235
J
(352.50)
9.46
7,
p.
53
Mercury
0.24
U
0
.008
7,
p.
53
SD02
Lead
49.3
0.79
7,
p.
53
Zinc
77.2
5.27
7,
p.
53
Mercury
0.13
U
0.015
7,
p.
53
SD03
Lead
98.7
0.87
7,
p.
54
Zinc
102
5.81
7,
p.
54
Mercury
0.14
U
0.014
7,
p.
54
Contaminated
Samples
Sample
ID
Sampling
Location
Depth
Date
Reference
SD16
wetland
C
surface
12/
2/
99
7,
p.
56
SD17
wetland
C
surface
12/
2/
99
7,
p.
56
SD18
wetland
C
surface
12/
2/
99
7,
p.
57
30
SWOF­
Observed
Release
Contaminated
Samples
(cont'd)

Sample
Quantitation
Sample
ID
Hazardous
Substance
Conc
(ppb)
Limit
(ppb)*
Reference
SD16
Lead
869
J
1.24
7,
p.
56
Zinc
1,240
J
8.3
7,
p.
56
Mercury
2.9
J
0.10
7,
p.
56
SD17
Lead
766
J
1.21
7,
p.
56
Zinc
1,170
J
8.1
7.
P.
56
Mercury
3.3
J
0.10
7,
p.
56
SD18
Lead
552
0.93
7,
p.
57
Zinc
1,120
6.2
7,
p.
57
Mercury
2.1
0.10
7,
p.
57
Note
­
All
sediment
samples
were
collected
at
0­
6
inches
below
ground
surface
(Ref.
11,
p.
16).

U­
not
detected;
number
preceding
U
qualifier
indicates
detection
limit.

J­
Samples
SD01,
SD16,
and
SD17
were
flagged
with
a
(J)
qualifier
due
to
the
fact
that
the
percent
solids
for
these
samples
were
below
50
but
above
10
(Ref.
7,
pp.
6).
Based
on
this
information,
the
reported
results
are
biased
low
(Ref.
14,
p.
1).
In
accordance
with
the
fact
sheet
EPA
540­
F­
94­
028
(i.
e.,
Using
Qualified
Data
to
Document
an
Observed
Release
and
Observed
Contamination),
the
reported
concentrations
for
release
samples
were
used.
The
concentrations
for
background
samples
are
to
be
multiplied
by
the
factor
specified
in
the
fact
sheet,
which
is
1.44
for
lead
and
1.50
for
zinc
(Ref.
10,
pp.
8,
18).
This
results
in
background
sediment
sample
SD01
having
a
concentration
of
167.04
mg/
kg
for
lead
and
352.50
mg/
kg
for
zinc.
Adjusted
values
for
sediment
sample
SD01
are
in
parentheses
in
the
table
above
31
SWOF­
Observed
Release
*
­
The
Sample
Quantitation
Limits
(SQLs)
for
inorganic
contaminants
are
given
in
micrograms
per
liter(
ug/
l)
prior
to
conversion.

For
all
metals,
the
following
formula
is
used
to
convert
the
SQLs
to
mg/
kg:

{(
C
X
V
X
F
/((
1000mL
X
W)
X
(%
solids/
100))}

where:

C=
CRDL
in
ug/
l
V=
final
volume
(200mL
for
all
analytes
except
mercury,
which
is
100mL)
F=
dilution
factor
(normally
1)
W=
wet
weight
of
sample
in
grams
(normally
1)

Ref.
No.
14
The
following
table
lists
the
%
solids
of
each
sample:

Sample
No.
%
Solids
Ref.
No.

SD01
42.3
7,
p.
53
SD02
76.1
7,
p.
53
SD03
68.8
7,
p.
54
SD16
48.2
7,
p.
56
SD17
49.4
7,
p.
56
SD18
64.5
7,
p.
57
Attribution:

Background
information
indicates
that
oily
wastes
were
discharged
directly
to
adjacent
properties
(including
the
wetland
area
in
the
southern
portion
of
the
site)
forming
the
oil
lake
(Ref.
4,
p.
5).
Analytical
results
of
the
oil
lake's
oil
layer
indicated
32
percent
oil
and
68
percent
water
and
sediment.
In
addition,
the
sample
indicated
a
high
lead
and
zinc
content
(Ref.
5,
p.
3).

During
ESI
activities
conducted
by
EPA
in
December
1999,
petroleum
odors,
oil
saturated
soil,
and
free
product
were
observed
in
several
borings
advanced
in
the
area
of
the
former
oil
lake
(Ref.
11,
pp.
13,
14,
Figure
3).
Analytical
results
from
sediment
samples
collected
from
the
on­
site
wetland
(i.
e.,
wetland
A),
which
is
believed
to
have
been
a
part
of
the
oil
lake,
indicated
concentrations
of
lead
up
to
84,300J
mg/
kg,
mercury
up
to
3.9
mg/
kg,
and
zinc
up
to
17,700J
mg/
kg
(Ref.
7,
pp.
54,
55;
Figure
3).

Inspections
conducted
by
the
New
Jersey
Department
of
Environmental
Protection
in
the
1970s
and
1980s
noted
discharges
of
oil
to
the
surface
in
the
area
of
the
former
building
and
tanks,
as
well
as
in
the
western
property
boundary
adjacent
to
the
right­
of­
way.
Oil­
stained
soil
was
also
noted
in
several
locations
throughout
the
property
(Ref.
12,
pp.
1­
4).
32
SWOF­
Observed
Release
Hazardous
Substances
Released:

Lead
Mercury
Zinc
=========================================================================
=
Observed
Release
Factor
Value:
550
33
SWOF/
Environment­
Toxicity/
Persistence/
Bioaccumulation
4.1.4.2
WASTE
CHARACTERISTICS
4.1.4.2.1
Ecosystem
Toxicity/
Persistence/
Bioaccumulation
Ecosystem
Ecosystem
Toxicity/
Toxicity
Persistence
Persistence
Hazardous
Source
Factor
Factor
Factor
Value
Substance
No.
Value
Value***
(Table
4­
20)
Ref.

Lead
1,
2
1,000
1
1,000
2,
p.
B­
13
PCBs
1,
2
10,000
1
10,000
2,
p.
B­
16
Zinc
1,
2
10
1
10
2,
p.
B­
20
Mercury
1
10,000
1
10,000
2,
p.
B­
13
PCE*
1,
2
100
1
100
2,
B18
1,1,1­
TCA**
1,
2
10
1
10
2,
B19
*
=
Tetrachloroethylene
**
=
1,1,1­
trichloroethane
***
=
The
PPEs
are
into
an
isolated
wetland.
Therefore,
the
persistence
value
for
lake
is
used
to
calculate
the
ecosystem
toxicity/
persistence/
bioaccumulation
factor
value.

Ecosystem
Bio­
Toxicity/
accumulation
Persistence/
Ecosystem
Toxicity/
Factor
Value
Bioaccum
Hazardous
Persistence
(Section
Ref.
Factor
Value
Substance
Factor
Value
4.1.3.2.1.2)
No.
2,
p.
(Table
4­
21)

Lead
1,000
5,000
B­
13
5
x
10
6
PCBs
10,000
50,000
B­
16
5
x
10
8
Zinc
10
500
B­
20
5,000
Mercury
10,000
50,000
B­
13
5
x
10
8
PCE*
100
50
B­
18
5,000
1,1,1­
TCA**
10
5
B­
19
50
*
=
Tetrachloroethylene
**
=
1,1,1­
trichloroethane
=========================================================================
=

Ecosystem
Toxicity/
Persistence/
Bioaccumulation
Factor
Value:
5
x
10
8
34
SWOF/
Environment­
Hazardous
Waste
Quantity
4.1.4.2.2
Hazardous
Waste
Quantity
Source
Hazardous
Is
source
hazardous
Waste
Quantity
constituent
quantity
Source
Number
Value
(Section
2.4.2.1.5.)
data
complete?
(yes/
no)

1
98,000
no
2
>0
no
Sum
of
Values:
98,000
The
sum
corresponds
to
a
hazardous
waste
quantity
factor
value
of
10,000
in
Table
2­
6
of
the
HRS
rule
(Ref.
1,
p.
51591).

4.1.4.2.3
Waste
Characteristics
Factor
Category
Value
Ecosystem
toxicity/
persistence
factor
value
X
hazardous
waste
quantity
factor
value
10,000
x
10,000
=
1
x
10
8
(subject
to
a
maximum
value
of
1
x
10
8
)

(Ecosystem
toxicity/
persistence
X
hazardous
waste
quantity)
X
bioaccumulation
potential
factor
value
(1
x
10
8
)
x
50,000
=
5
x
10
12
(subject
to
a
maximum
value
of
1
x
10
12
)

The
value
exceeds
the
maximum
of
1
x
10
12
for
the
waste
characteristics
product.
The
corresponding
waste
characteristics
factor
category
value
from
Table
2­
7
of
the
HRS
rule
is
1,000
(Ref.
1,
p.
51592).

=========================================================================
=

Hazardous
Waste
Quantity
Factor
Value:
10,000
Waste
Characteristics
Factor
Category
Value:
1,000
35
SWOF/
Environment­
Targets
4.1.4.3
ENVIRONMENTAL
THREAT
­
TARGETS
Level
I
Concentrations
N/
A
Sample
ID:
N/
A
Sample
Medium:
N/
A
Location:
N/
A
Reference:
N/
A
Hazardous
Substance
Benchmark
Hazardous
Substance
Concentration
Concentration
Benchmark
N/
A
Reference
for
Benchmark:
N/
A
Most
Distant
Level
II
Sample
Sample
ID:
N/
A
Distance
from
the
probable
point
of
entry:
N/
A
Reference:
N/
A
Hazardous
Substance
Hazardous
Substance
Concentration
N/
A
36
SWOF/
Environment­
Level
I
Concentrations
4.1.4.3.1
Sensitive
Environments
4.1.4.3.1.1
Level
I
Concentrations
Sensitive
Environments
Distance
from
Probable
Point
of
Entry
to
Nearest
Sensitive
Point
of
Sensitive
Environment
Sensitive
Environment
Environment
Reference
Value(
s)

N/
A
Sum
of
Sensitive
Environments
Value:
0
Wetlands
Wetland
Wetland
Frontage
Reference
N/
A
Total
Wetland
Frontage:
N/
A
Wetland
Value:
0
Sum
of
Sensitive
Environments
Value
+
Wetland
Value:
0
Ref.
N/
A
=========================================================================
=

Level
I
Concentrations
Factor
Value:
0
37
SWOF/
Environment­
Level
II
Concentrations
4.1.4.3.1.2
Level
II
Concentrations
Sensitive
Environments
Distance
from
Probable
Point
of
Entry
to
Nearest
Sensitive
Point
of
Sensitive
Environment
Sensitive
Environment
Environment
Reference
Value(
s)

N/
A
Sum
of
Sensitive
Environments
Value:
0
Wetlands
Wetland
Wetland
Frontage
Reference
Wetland
C
0.20
mile*
7,
pp.
53­
54,
56­
57;
11,
p.
17
(contaminated
portion)
Figure
3
*
Wetland
frontage
was
measured
starting
at
the
eastern
PPE
to
surface
water
of
Wetland
C,
located
approximately
45
feet
west
of
Wetland
A.
From
this
point
a
single
line
measurement
was
made
between
the
eastern
PPE
and
sediment
sample
location
SD16.
This
resulted
in
a
measurement
of
555
feet.
In
addition,
a
single
line
measurement
was
made
from
wetland
C's
northern
PPE,
located
along
the
western
boundary
of
the
site,
to
sediment
sample
location
SD16.
This
resulted
in
a
measurement
of
480
feet.
Based
on
these
measurements,
a
single
line
measurement
of
1,035
feet
(0.20
mile)
of
wetland
C
is
considered
the
contaminated
portion
(Ref.
11,
p.
17).
To
be
conservative,
single
line
measurements
were
made
in
lieu
of
wetted
perimeter
for
wetland
C,
which
is
evaluated
as
an
isolated
wetland.

Total
Wetland
Frontage:
0.20
mile
Wetland
Value:
25
Sum
of
Sensitive
Environments
Value
+
Wetland
Value:
25
Ref.
1,
p.
51625
=========================================================================
=

Level
II
Concentrations
Factor
Value:
25
38
SWOF/
Environment­
Potential
Contamination
4.1.4.3.1.3
Potential
Contamination
Sensitive
Environments
Sensitive
Type
of
Surface
Environment
Water
Body
Sensitive
Environment
Reference(
s)
Value(
s)

N/
A
Wetlands
Type
of
Surface
Wetlands
Wetlands
Value
for
Type
Water
Body
Frontage
Reference(
s)
of
Surface
Water
Body
Wetland
C
0.11
mile*
13
25
(non­
contaminated
portion)

*
The
non­
contaminated
portion
of
wetland
C
was
measured
from
sediment
sample
location
SD16
to
the
west
(along
Wetland
C)
toward
Frank's
Creek.
To
be
conservative,
a
single
line
measurement
was
made,
resulting
in
a
measurement
of
600
feet
or
0.11
mile
(Ref.
13,
pp.
1,
2;
Figure
3).

Sum
of
Sensitive
Wetland
Type
of
Surface
Environment
Frontage
Dilution
Water
Body
Values
(S
j
)
Value
(W
j
)
Weight
(D
j
)
D
j
(W
j
+
S
j
)

Wetland
C
0
25
1
25
Sum
of
D
j
(W
j
+
S
j
):
25
(Sum
of
D
j
(W
j
+
S
j
))/
10:
2.5
Ref.
1,
p.
51625
=========================================================================
=

Potential
Contamination
Factor
Value:
2.5
