STAFF
DRAFT
­
09/
30/
2005
The
following
draft
rule
is
a
STAFF
DRAFT
that
may
be
revised
without
public
notice
prior
to
signature.
We
provide
this
draft
document
solely
for
the
convenience
of
interested
parties.
This
draft
is
not
the
official
rule
for
purposes
of
public
comment
under
the
Administrative
Procedure
Act
or
for
compliance.
When
this
rule
is
final,
a
signed
official
version
will
be
published
in
the
Federal
Register
and
appear
on
the
government
printing
office
web
site
 
http://
www.
gpoaccess.
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fr/.
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3.
Part
60
is
amended
by
adding
appendix
J
to
read
as
follows:

Appendix
J
to
Part
60
­­
How
to
Determine
Henry's
Law
Constants,
Fm
Values,
Fr
Values,
and
Fe
Values
for
organic
Compounds
1.
Use
of
Appendix
and
General
Information.
This
appendix
has
four
sections.
Section
2
contains
the
procedures
for
determining
Henry's
law
constants,
fraction
measured
(
Fm)
values,
fraction
removed
(
Fr)
values,
and
fraction
emitted
(
Fe)
values
for
an
individual
chemical.
Section
3
describes
how
to
locate
certain
resources.
Section
4
contains
five
tables
and
thirteen
forms.

You
should
use
this
appendix
if
you
need
to:

1.
Determine
whether
a
chemical
has
a
Henry's
law
constant
at
25o
C
that
is
less
than
0.1
y/
x
atmosphere
per
mole
fraction
(
see
section
2.1).

2.
Determine
a
fraction
measured
(
Fm)
value
for
a
chemical
(
see
section
2.2).

3.
Subtract
the
concentration
of
a
chemical
from
a
Method
25D
concentration
(
see
section
2.3).

4.
Determine
the
fraction
removed
(
Fr)
value
for
a
chemical
that
has
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x
atmosphere
per
STAFF
DRAFT
­
09/
30/
2005
mole
fraction
(
see
section
2.4).

5.
Determine
the
fraction
emitted
(
Fe)
value
for
a
chemical
that
has
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x
atmosphere
per
mole
fraction
(
see
section
2.5).

6.
Calculate
a
Henry's
law
constant
at
a
specific
temperature
using
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical
(
see
section
2.6).

This
appendix
requires
documentation
for
some
procedures.

The
referencing
subpart,
i.
e.,
the
rule
with
which
you
are
complying,
may
require
additional
recordkeeping
and
may
specify
records
concerning
this
appendix
that
are
to
be
included
in
reports.

When
the
term
"
WATER9"
is
used
in
this
appendix,
the
term
"
WATER9,
or
updates
to
WATER9"
must
be
used
for
the
purposes
of
this
appendix.
When
the
term
"
waste"
or
"
wastewater"
is
used
in
this
appendix,
the
term
"
waste
or
wastewater,
as
applicable
to
the
referencing
subpart"
must
be
used
for
the
purposes
of
this
appendix.
When
the
term
"
Henry's
law
constant"
or
"
Henry's
law
constants"
is
used
in
this
appendix,
the
term
"
Henry's
law
constant(
s)
with
units
of
atmosphere
per
mole
fraction"
must
be
used
for
the
purposes
of
this
appendix.

2.
Procedures.

2.1
How
to
determine
whether
a
chemical
has
a
Henry's
law
STAFF
DRAFT
­
09/
30/
2005
constant
at
25o
C
that
is
less
than
0.1
y/
x.
You
must
use
one
of
the
following
to
determine
whether
a
chemical
has
a
Henry's
law
constant
that
is
less
than
0.1
y/
x
atmosphere
per
mole
fraction.

2.1.1
Use
Table
1.
The
chemicals
listed
in
Table
1
have
a
Henry's
law
constant
at
25o
C
that
is
less
than
0.1
y/
x
atmosphere
per
mole
fraction.

2.1.2
Use
WATER9.
Use
WATER9
to
determine
the
Henry's
law
constant
at
25o
C.
You
must
know
compound
properties,
such
as
solubility
in
water
and
vapor
pressure,
and
the
structure
of
the
compound
to
estimate
a
Henry's
law
constant
using
WATER9.

2.1.3
Determine
experimentally.
The
Henry's
law
constant
may
be
measured
by
several
laboratory
techniques.
These
techniques
can
be
categorized
as
either
two
phase
closed
system
techniques
or
open
system
techniques.
In
addition
to
the
methods
described
below
for
specific
compounds,
40
CFR
Part
63
Appendix
C
provides
procedures
for
calculating
Henry's
laws
for
nonspeciated
OWC
in
laboratory
tests.

2.1.3.1
Two
phase
closed
systems.
For
two
phase
closed
system
techniques,
the
volume
of
each
phase
and
two
concentration
measurements
are
needed.
The
concentration
measurements
are:

(
1)
concentration
in
one
of
the
phases,
and
(
2)
either
the
concentration
in
the
other
phase
or
the
total
concentration
in
both
phases.
Use
Form
1
to
calculate
the
Henry's
law
constant
for
two
phase
closed
systems.
STAFF
DRAFT
­
09/
30/
2005
2.1.3.2
Open
systems.
For
open
systems,
gas
is
passed
through
a
liquid
volume
containing
the
compound.
The
Henry's
law
constant
is
calculated
from
the
rate
of
stripping
of
the
compound
from
the
water.
Use
Form
2
to
calculate
the
Henry's
law
constant
for
open
systems.

2.1.4
Calculate
a
Henry's
law
constant
at
25o
C
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.
Use
the
procedures
specified
in
section
2.6
to
calculate
a
Henry's
law
constant
at
25o
C
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.

2.1.5
Obtain
a
Henry's
law
constant
at
25

from
an
appropriate
documented
literature
value.
Values
of
Henry's
law
constants
at
25o
C
or
at
other
temperatures
for
some
chemicals
are
available
in
data
bases
or
reported
in
the
literature.
You
must
provide
the
reference
for
and
description
of
any
data
base
or
literature
you
used.

2.2
How
to
determine
an
Fm
value
for
a
chemical.
Fm
means
compound­
specific
fraction
measured
factor,
and
it
has
the
units
of
mass
measured
by
Method
25D
divided
by
the
total
mass
in
the
wastewater.
You
must
use
one
of
the
following
to
determine
the
Fm
value
for
a
chemical.

2.2.1
Use
Table
1
or
Table
2.
To
determine
the
Fm
value
for
a
chemical
with
a
Henry's
law
constant
at
25o
C
that
is
less
than
0.1
y/
x
atmosphere
per
mole
fraction,
use
the
Fm
value
STAFF
DRAFT
­
09/
30/
2005
listed
for
the
chemical
in
Table
1.
To
determine
the
Fm
value
for
a
chemical
with
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x,
use
the
Fm
value
listed
for
the
chemical
in
Table
2.
(
Note
to
section
2.2.1
of
appendix
J
to
part
60:
Tables
1
and
2
include
Fm
values
for
Method
25D
and
for
Method
305.
Unless
otherwise
specified
in
this
appendix
or
the
referencing
subpart,
use
the
Fm
values
for
Method
25D.)

2.2.2
Use
WATER9.
Use
WATER9
to
determine
a
Fm
value.
You
must
know
the
structure
of
the
chemical
and
certain
other
compound
properties;
e.
g.,
boiling
point,
Antoine's
coefficients,

vapor
pressure,
and
solubility
in
water,
to
estimate
an
Fm
value
using
WATER9.
The
accuracy
of
the
computer
estimation
procedure
depends
on
the
nature
of
the
compound
and
the
quality
of
the
available
data.

The
procedure
is
flexible
in
that
the
method
can
be
used
with
a
variety
of
different
types
of
compound
data.
You
must
confirm
and
document
the
compound
properties
used
as
inputs
for
WATER9
and
the
lack
of
availability
for
missing
compound
properties.
In
some
cases,
this
method
is
not
accurate,

especially
with
missing
compound
properties.
Before
accepting
the
estimation
values
of
WATER9
in
these
cases,
you
must
document
the
consistency
of
the
predicted
values
with
other
related
experimental
data.

2.2.3
Measure
the
Fm
value.
Spike
a
sample
of
waste
with
a
STAFF
DRAFT
­
09/
30/
2005
known
amount
of
the
compound
of
interest.
Measure
the
concentration
of
the
sample
using
Method
25D.
The
Fm
value
for
the
recovery
of
a
specific
chemical
is
the
ratio
of
the
Method
25D
concentration
to
the
actual
concentration
in
the
waste
sample.
You
must
minimize
loss
of
organic
compounds
during
sample
collection
and
analysis,
and
maintain
sample
integrity.

An
example
of
acceptable
sampling
and
handling
procedures
are
the
sampling
and
handling
requirements
in
Method
25D.

2.2.4
Extrapolating
a
Method
25D
Fm
value
from
a
Method
305
Fm
value.

Method
305
measures
the
recovered
concentration,
not
the
actual
concentration
in
the
wastewater.
The
Method
25D
correction
value
may
be
obtained
from
the
Method
305
value
and
the
ratio
of
the
Method
25D
value
to
the
Method
305
value
for
that
compound.
This
ratio
for
a
compound
is
independent
of
the
wastewater
and
may
be
determined
once
for
each
compound.

2.3
How
to
subtract
a
chemical
from
a
Method
25D
concentration.
You
must
follow
the
procedures
specified
in
sections
2.3.1
through
2.3.4
to
subtract
a
chemical's
concentration
from
the
total
concentration
measured
by
Method
25D.
You
may
only
subtract
from
the
total
Method
25D
concentration
compounds
for
which
you
have
a
measured
concentration
(
i.
e.,
you
must
not
subtract
compounds
for
which
test
results
are
below
the
quantification
limit.)
If
a
Fm
value
STAFF
DRAFT
­
09/
30/
2005
cannot
be
determined
for
a
chemical,
the
concentration
of
the
chemical
may
not
be
subtracted
from
the
Method
25D
results.
You
must
follow
the
procedures
in
Form
3
to
subtract
a
chemical
from
a
Method
25D
concentration.
Form
4
provides
an
example.

2.3.1
Determine
the
M25D
concentration
for
the
required
number
of
samples.
Obtain
at
least
the
minimum
number
of
samples
required
by
the
referencing
subpart.
Report
the
25D
concentration
results
in
Form
3.
Calculate
an
average
concentration
of
the
samples
taken.

2.3.2
Determine
the
concentration
for
each
chemical
in
the
wastewater
stream
that
will
be
subtracted
from
the
Method
25D
concentration.
The
concentration
for
each
chemical
must
be
determined
using
a
method
and
sampling
procedure
specified
in
the
referencing
subpart.
Methods
other
than
Method
25D
and
Method
305
are
considered
alternative
methods
for
the
purposes
of
this
appendix.

2.3.3
Determine
the
correct
Fm
value.
If
a
Fm
value
is
needed,
use
the
procedures
in
section
2.2
of
this
appendix
to
determine
the
correct
Fm
value.

2.3.4
Adjust
the
concentration
of
chemicals
which
may
be
subtracted
from
the
Method
25D
concentration.
You
must
multiply
the
concentration
of
the
chemical
measured
by
the
alternative
method
(
i.
e.,
a
method
that
is
not
Method
25D
or
Method
305
and
that
is
specified
in
the
referencing
subpart)
by
the
Method
25D
STAFF
DRAFT
­
09/
30/
2005
Fm.
The
product
will
be
the
adjusted
concentration
for
that
chemical.
This
adjustment
must
be
done
for
each
chemical
you
subtract
from
the
concentration
measured
by
Method
25D.

2.3.5
Subtract.
Subtract
the
product(
s)
you
calculated
from
the
Method
25D
concentration.

2.4
How
to
determine
an
Fr
value
for
a
chemical
with
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x.
Fr
means
fraction
removed
value
and
is
unitless.
You
must
use
one
of
the
following
to
determine
an
Fr
value.

2.4.1
Use
Table
2.
Use
the
Fr
value
listed
for
the
chemical
in
Table
2.
The
chemicals
listed
in
Table
2
have
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x.

2.4.2
Use
0.99.
Assign
an
Fr
value
of
0.99
to
any
chemical.
This
is
the
highest
Fr
value
that
is
assigned
to
a
chemical.

2.4.3
Use
WATER9.
Use
WATER9
to
determine
the
Fr
value
of
a
chemical.
You
must
know
the
compound
structure
and
the
Henry's
law
constant
at
100o
C
to
estimate
an
Fr
value
using
WATER9.
The
Henry's
law
constant
at
100o
C
for
a
chemical
must
be
determined
as
specified
in
either
section
2.4.3.1,
2.4.3.2,
or
2.4.3.3.
The
method
used
to
determine
the
Henry's
law
constant
at
100o
C
for
a
chemical
must
be
documented.

2.4.3.1
Determine
Henry's
law
at
100o
C
experimentally.
STAFF
DRAFT
­
09/
30/
2005
The
Henry's
law
constant
may
be
measured
by
any
of
several
laboratory
techniques.
These
techniques
can
be
categorized
as
either
two
phase
closed
system
techniques
or
open
system
techniques.

2.4.3.1.1
Two
phase
closed
systems.
For
two
phase
closed
system
techniques,
the
volume
of
each
phase
and
two
concentration
measurements
are
needed.
The
concentration
measurements
are:

(
1)
concentration
in
one
of
the
phases,
and
(
2)
either
the
concentration
in
the
other
phase
or
the
total
concentration
in
both
phases.
Use
Form
1
to
calculate
the
Henry's
law
constant
for
two
phase
closed
systems.

2.4.3.1.2
Open
systems.
For
open
systems,
gas
is
passed
through
a
liquid
volume
containing
the
compound.
The
Henry's
law
constant
is
calculated
from
the
rate
of
stripping
of
the
compound
from
the
water.
Use
Form
2
to
calculate
the
Henry's
law
constant
for
open
systems.

2.4.3.2
Calculate
a
Henry's
law
constant
at
100o
C
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.
Use
the
procedures
in
section
2.6
to
calculate
a
Henry's
law
constant
at
100o
C
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.

2.4.3.3
Literature
Value.
Experimental
values
of
Henry's
law
constants
at
100o
C
for
some
chemicals
are
available
in
data
bases
or
reported
in
the
literature.
You
must
provide
the
STAFF
DRAFT
­
09/
30/
2005
reference
for
and
description
of
any
data
base
or
literature
you
used.

2.5
How
to
determine
an
Fe
value
for
a
chemical
that
has
a
Henry's
law
constant
at
25o
C
that
is
greater
than
or
equal
to
0.1
y/
x.
Fe
means
fraction
emitted
and
is
unitless.
Use
the
appropriate
Fe
value
as
specified
in
the
referencing
subpart.

2.5.1
Default
Fe
values
for
emissions
from
both
the
individual
drain
system
and
the
treatment
process.
You
must
measure
the
temperature
of
the
wastewater
stream
at
the
point
of
determination,
unless
another
location
is
specified
by
the
referencing
subpart.
If
the
temperature
of
the
wastewater
stream
is
less
than
or
equal
to
35o
C,
you
may
use
the
default
Fe
values
listed
in
either
Table
2
or
3.
If
the
temperature
of
the
wastewater
stream
is
greater
than
35o
C,
you
must
use
the
default
Fe
values
listed
in
Table
3.

2.5.1.1
Use
Table
2.
To
use
Table
2,
use
the
default
Fe
value
listed
for
the
chemical
in
Table
2.

2.5.1.2
Use
Table
3.
You
must
either
use
a
default
Fe
value
listed
in
Table
3
or
use
Table
3
to
interpolate
an
Fe
value.
To
use
Table
3,
you
must
determine
the
chemical's
Henry's
law
constant
at
the
temperature
you
measured
for
the
wastewater
stream.
You
must
find
this
Henry's
law
constant
in
the
table
and
select
an
Fe
value
greater
than
or
equal
to
the
Fe
value
that
corresponds
to
the
Henry's
law
constant.
STAFF
DRAFT
­
09/
30/
2005
2.5.2
Site­
specific
Fe
values
for
emissions
from
the
individual
drain
system.
Use
WATER9
and
Forms
6
and
7
for
each
type
of
waste
management
unit
modeled
and
Forms
8
through
13,
as
appropriate,
for
the
different
types
of
waste
management
units.

(
Note
that
this
Fe
value
does
not
include
Fe
values
for
the
treatment
process.)

2.5.3
Default
Fe
values
for
emissions
from
the
biological
treatment
process
(
Fet).
The
default
Fe
values
in
Tables
4
and
5
are
Fe
values
for
the
biological
treatment
system
(
i.
e.,
the
wastewater
treatment
plant)
and
have
been
assigned
the
abbreviation
"
Fet."
You
must
measure
the
temperature
of
the
wastewater
stream(
s)
treated
in
the
biological
treatment
system
at
the
inlet
to
the
biological
treatment
system
(
e.
g.,
at
the
bar
screen).
If
the
temperature
of
the
wastewater
stream(
s)
is
less
than
or
equal
to
35o
C,
you
must
use
either
Table
4
or
5
to
determine
the
Fet
value.
If
the
temperature
of
the
wastewater
stream
is
greater
than
35o
C,
you
must
use
Table
5
to
determine
the
Fet
value.

2.5.3.1
Use
Table
4.
To
use
Table
4,
use
the
default
Fet
value
listed
for
the
chemical
in
Table
4.

2.5.3.2
Use
Table
5.
To
use
Table
5,
you
must
either
use
a
default
Fet
listed
in
Table
5
or
use
Table
5
to
interpolate
an
Fet
value.
You
must
determine
the
chemical's
Henry's
law
constant
at
the
temperature
you
measured
for
the
wastewater
STAFF
DRAFT
­
09/
30/
2005
stream.
You
must
find
this
Henry's
law
constant
in
the
table
and
select
an
Fet
value
greater
than
or
equal
to
the
Fet
value
that
corresponds
to
the
Henry's
law
constant.

2.6
How
to
calculate
a
Henry's
law
constant
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.

Use
WATER9
and
Form
5
to
estimate
a
Henry's
law
constant
from
a
Henry's
law
constant
at
a
different
temperature
for
the
same
chemical.

3.
Location
of
resources.

3.1
Where
to
find
information
on
WATER9.

3.1.1
WATER9
access
via
Internet.
You
can
find
WATER9
on
the
Internet
by
accessing
EPA's
Technology
Transfer
Network
(
TTN)

via
the
Internet.
The
Internet
address
is
http://
www.
epa.
gov/
ttn/
chief/
software.
html.
If
you
need
more
information
on
the
TTN,
contact
the
systems
operator
at
(
919)

541­
5384.

3.1.2
Procedures
used
in
WATER9.
Reports
describing
the
WATER9
procedures
for
estimating
Fm,
Fr,
and
Fe
values
are
in
Docket
Number
A­
94­
32,
Item
IV­
B­
6.
The
data
base
for
WATER9
is
not
available
as
a
hard
copy.

Docket
No.
A­
94­
32
is
available
for
public
inspection
and
copying
between
8:
00
a.
m.
and
5:
30
p.
m.,
Monday
through
Friday,

at
the
EPA's
Air
and
Radiation
Docket
and
Information
Center,

Waterside
Mall,
Room
M­
1500,
first
floor,
401
M
Street
SW,
STAFF
DRAFT
­
09/
30/
2005
Washington,
DC
20460,
or
by
calling
(
202)
260­
7548
or
260­
7549.

A
reasonable
fee
may
be
charged
for
copying.

3.2
Methods.
Method
25D
can
be
found
in
40
CFR
part
60,

appendix
A.
Method
305
can
be
found
in
40
CFR
part
63,
appendix
A.

4.
Tables
and
Forms.
This
section
contains
5
tables
and
13
forms.
STAFF
DRAFT
­
09/
30/
2005
TABLE
1
OF
APPENDIX
J­­
FM
VALUES
FOR
HENRY'S
LAW
CONSTANTS
AT
25O
C
THAT
ARE
LESS
THAN
0.1
(
Y/
X)
ATMOSPHERES
PER
MOLE
FRACTION
(
use
with
Section
2.1)

Compound
CAS
Y/
X
Fm25D
Fm
305
1
HYDROXY
2
METHYL
BENZENE
(
O­
CRESOL)
95­
48­
7
0.066930
0.0569
0.0551
1
HYDROXY
3
METHOXYBENZENE
(
GUAICOL)
90­
05­
1
0.061050
0.0043
0.0048
1
HYDROXY
3
METHYLBENZENE
(
M­
CRESOL)
108­
39­
4
0.047040
0.0345
0.0334
1
HYDROXY
4
METHYLBENZENE
(
P­
CRESOL)
106­
44­
5
0.042730
0.0281
0.0271
1
NITROOXY
2
BUTANOL
0.009578
0.0058
0.0124
1
NITROOXY
2
PROPANOL
0.005050
0.0088
0.0231
1­(
PHENYLAZO)­
2­
NAPHTHALENOL
842­
07­
9
0.000000
0.0000
0.0000
1,1'­
BIPHENYL,
4,4'­
DIISOCYANATO­
3,
91­
97­
4
0.000006
0.0003
0.0003
1,2
PROPANEDIOL
57­
55­
6
0.000670
0.0047
0.0076
1,2,3
BUTANETRIOL
4435­
50­
1
0.000467
0.0001
0.0001
1,2,3,4
TETRAHYDROXY
BUTANE
7541­
59­
5
0.000000
0.0000
0.0000
1,2,3,4,5
PENTAHYDROXY
HEPTANE
0.000000
0.0000
0.0000
1,2,3,4,5
PENTAHYDROXY
PENTANE
6917­
36­
8
0.000000
0.0000
0.0000
1,2,3,4,5,5
HEXAHYDROXYCYCLOHEXANE
0.000000
0.0000
0.0000
1,2,3,4,5,6
HEXAHYDROXY
HEPTANE
0.000000
0.0000
0.0000
1,2,3,4,5,6
HEXAHYDROXYHEXANE
45007­
61­
2
0.000000
0.0000
0.0000
1,2,3,4,6
PENTAHYDROXY
HEPTANE
0.000000
0.0000
0.0000
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
1,2,3,4,7
PENTAHYDROXY
HEPTANE
0.000000
0.0000
0.0000
1,2,4
BENZENETRICARBOXYLIC
ACID
528­
44­
9
0.000000
0.0000
0.0000
1,2,4
BUTANETRIOL
3068­
00­
6
0.000000
0.0002
0.0004
1,2,4,5
TETRAHYDROXYCYCLOHEXANE
35652­
37­
32
0.000000
0.0000
0.0000
1,2,6
HEXANETRIOL
106­
69­
4
0.000000
0.0001
0.0001
1,3
PROPANEDIOL
504­
63­
2
0.000250
0.0012
0.0021
1,3,5­
TRIAZINE,
HEXAHYDRO­
1,3,5­
TRI
121­
82­
4
0.000001
0.0000
0.0000
1,4
BUTANEDIOL
110­
63­
4
0.000020
0.0006
0.0009
1,4
DIAMINOBUTANE
(
PUTRESCINE)
110­
60­
1
0.000453
0.0111
0.0155
1,4­
DIISOCYANATOBENZENE*
104­
49­
4
0.000036
0.0086
0.009
1,5
DIAMINOPENTANE
(
CADAVERINE)
462­
94­
2
0.000411
0.0083
0.0108
1,5
PENTANEDIOL
111­
29­
5
0.000014
0.0006
0.0009
1,6
HEXANEDIOL
629­
11­
8
0.000019
0.0036
0.0046
1,7
HEPTANEDIOL
629­
30­
1
0.000028
0.0029
0.0036
1­
AMINO­
2­
METHYL­
9,10­
ANTHRACENEDIO
82­
28­
0
0.000000
0.0000
0.0000
1­
OCTANESULFONIC
ACID,
1,1,2,2,3,3,
1763­
23­
1
0.000667
0.3471
0.3172
1­
OCTANESULFONIC
ACID,
1,1,2,2,3,3,
2795­
39­
3
0.000007
0.0003
0.0003
2
AMINO
ACETOPHENONE
551­
93­
9
0.000190
0.0019
0.002
2
CHLOROBENZOIC
ACID
118­
91­
2
0.003610
0.0103
0.0109
2
ETHOXYETHANOL
(
CELLOSOLVE)
110­
80­
5
0.040000
0.1441
0.207
2
ETHYL
1,3
HEXANEDIOL
94­
96­
2
0.000028
0.0052
0.0061
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
2
METHYL
1,3
PENTANEDIOL
149­
31­
5
0.000019
0.0086
0.0107
2
METHYL
2,4
PENTANEDIOL
107­
41­
5
0.000028
0.0203
0.0252
2
METHYL
BUTANOIC
ACID
116­
53­
0
0.046300
0.1002
0.1286
2
METHYL
PROPANOIC
ACID
79­
31­
2
0.069900
0.1218
0.167
2
NITROANILINE
88­
74­
4
0.008880
0.0015
0.0022
2
NITROOXY
1
BUTANOL
147794­
12­
5
0.009259
0.0058
0.0124
2
NITROOXY
1
PROPANOL
0.012340
0.0038
0.0098
2
NITROOXY
3
BUTANOL
147794­
10­
3
0.005050
0.0105
0.0222
2
NITROOXY
ETHANOL
16051­
48­
2
0.001389
0.0004
0.0015
2
OXOPENTANEDIOIC
ACID
328­
50­
7
0.000000
0.0000
0.0000
2
PHENYL
ETHANOL
60­
12­
8
0.014200
0.0377
0.0362
2­(
1­
METHOXY)­
1­
PROPANOL
1589­
47­
5
0.041560
0.0746
0.1059
2,2­
DIBROMO­
2­
CYANOACETAMIDE
10222­
01­
2
0.001061
0.0002
0.0004
2,2­
DICHLOROPROPIONIC
ACID
DALAPON
75­
99­
0
0.004559
0.0171
0.0205
2,2'­
METHYLENEBIS
4
CHLOROPHENOL
97­
23­
4
0.000000
0.0001
0.0001
2,3
BUTANEDIOL
513­
85­
9
0.000140
0.0095
0.0134
2,3
DIETHYL
1,3
PROPANEDIOL
0.000028
0.0068
0.0082
2,3
DIHYDROXY
PROPANAL
56­
82­
6
0.000000
0.0001
0.0002
2,3
DIHYDROXYBUTANEDIOIC
ACID
87­
69­
4
0.000000
0.0000
0.0000
2,3
PENTANEDIOL
42027­
23­
6
0.000019
0.0099
0.013
2,3,5
TRIMETHYLPHENOL
0.031720
0.0693
0.0655
2,3,5,6­
TETRACHLOROTEREPHTHALIC
ACID
2136­
79­
0
0.000001
0.0057
0.0065
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
2,4
DIAMINOANISOLE
615­
05­
4
0.000135
0.0035
0.0043
2,4
DICHLOROPHENOXYACETIC
ACID
94­
75­
7
0.001670
0.0037
0.0041
2,4
DIMETHYLPHENOL
105­
67­
9
0.052800
0.0496
0.0474
2,4
DINITROPHENOL
51­
28­
5
0.038600
0.0002
0.0003
2,4
DINITROTOLUENE
121­
14­
2
0.007210
0.0115
0.0189
2,4
HEPTANEDIOL
0.000028
0.0068
0.0082
2,4
PENTANEDIOL
625­
69­
4
0.000019
0.0055
0.0072
2,4
TOLUENE
DIAMINE
95­
80­
7
0.000067
0.0006
0.0007
2,4,5
BENZOIC
ACID
0.000000
0.0000
0.0000
2,4,5
T
93­
76­
5
0.004615
0.1178
0.1284
2,4,6­
TRINITROPHENOL
88­
89­
1
0.000010
0.0000
0.0000
2,4­
D,
BUTOXYETHYL
ESTER
1929­
73­
3
0.008805
0.0072
0.0078
2,4­
D,
BUTYL
ESTER*
94­
80­
4
0.019170
0.0304
0.0322
2,4­
DB
94­
82­
6
0.004394
0.0102
0.0111
2,5
DICHLOROPHENOL
583­
78­
8
0.078330
0.1513
0.148
2,5
DINITROPHENOL
329­
71­
5
0.037000
0.0000
0.0000
2,5
HEXANEDIOL
2935­
44­
6
0.000028
0.0086
0.0107
2,6
DIMETHOXYPHENOL
91­
10­
1
0.011340
0.0028
0.0034
2,6
DINITROTOLUENE
606­
20­
2
0.041500
0.009
0.0147
2,6
TOLUENE
DIAMINE
823­
40­
5
0.000046
0.001
0.0011
2­
AMINOANTHRAQUINONE
117­
79­
3
0.000000
0.0000
0.0000
2­
AMINOPHENOL
(
O)
95­
55­
6
0.000011
0.0004
0.0004
2­
CHLORO­
1­(
3­
ETHOXY­
4­
NITROPHENOXY
42874­
03­
3
0.004356
0.0011
0.0013
2­
ETHYLHEXANOIC
ACID
149­
57­
5
0.076000
0.0786
0.0902
2­
HYDROXYETHANAL
(
HYDROXYALDEHYDE)
141­
46­
8
0.001344
0.0089
0.0171
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
2­
HYDROXYPROPYL
METHACRYLATE
923­
26­
2
0.003200
0.0088
0.0114
2­
METHOXY­
5­
METHYLBENZENAMINE
120­
71­
8
0.089930
0.0618
0.0661
2­
METHOXY­
5­
NITROANILINE
99­
59­
2
0.034100
0.0002
0.0003
2­
METHYL­
4­((
2­
METHYLPHENYL)
AZO)
BEN
97­
56­
3
0.000022
0.0006
0.0006
2­
METHYL­
4­
CHLOROANILINE
95­
69­
2
0.051220
0.0916
0.0879
2­
METHYL­
4­
CHLOROPHENOXYACETIC
ACID
94­
74­
6
0.000074
0.0135
0.015
2­
METHYLINDOLE*
95­
20­
5
0.054300
0.0606
0.0556
2­
PHENYLPHENOL
90­
43­
7
0.058200
0.0085
0.0075
3
ACETYL­
5­
HYDROXYPIPERIDINE
0.038900
0.0002
0.0002
3
AMINOPHENOL
591­
27­
5
0.000011
0.0002
0.0003
3
CHLOROBENZOIC
ACID
535­
80­
8
0.002100
0.025
0.0266
3
HYDROXYBENZALDEHYDE
100­
83­
4
0.000140
0.0002
0.0002
3
NITROPHENOL
554­
84­
7
0.000110
0.0006
0.0009
3­(
1­
NITROSO­
2­
PYRROLIDINYL)
PYRIDIN
16543­
55­
8
0.000009
0.0000
0.0000
3,3'
DIMETHYLBENZIDINE
119­
93­
7
0.000003
0.0009
0.0008
3,4
TOLUENE
DIAMINE
496­
72­
0
0.000081
0.0015
0.0017
3,4­
DIMETHYLPHENOL
XYLENOL
95­
65­
8
0.004239
0.018
0.0172
3,5
DIMETHYL
BENZOIC
ACID
499­
06­
9
0.000939
0.022
0.0229
3,5,7­
TRIAZA­
1­
AZONIAADAMANTANE,
1­
4080­
31­
3
0.000000
0.0000
0.0000
3­
ACETYLPIPERIDINE
0.001180
0.0187
0.0216
3­
METHYLACETANILIDE
537­
92­
8
0.001633
0.0015
0.0015
3­
METHYLBUTANOIC
ACID
503­
74­
2
0.046200
0.0986
0.1265
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
3­
OXOPROPANOIC
ACID
0.007900
0.0008
0.0015
4
AMINOPHENOL
123­
30­
8
0.000053
0.0004
0.0004
4
BROMOPHENOL
0.007940
0.0104
0.0137
4
CARBOXYBENZALDEHYDE
619­
66­
9
0.000015
0.0001
0.0001
4
CHLOROANILINE
106­
47­
8
0.014720
0.0689
0.067
4
CHLOROBENZOIC
ACID
74­
11­
3
0.004700
0.025
0.0266
4
CHLOROPHENOL
106­
48­
9
0.062200
0.0317
0.0311
4
ETHYL
PHENOL
123­
07­
9
0.042900
0.0286
0.0274
4
HYDROXY
3
NITRO
BENZALDEHYDE
3011­
34­
5
0.058480
0.0000
0.0000
4
HYDROXYBENZALDEHYDE
123­
08­
0
0.000029
0.0001
0.0001
4
METHYL
2
METHOXYPHENOL
93­
51­
6
0.077160
0.023
0.0248
4
NITROANILINE
100­
01­
6
0.000070
0.0001
0.0001
4
NITROPHENOL
100­
02­
7
0.000021
0.0006
0.0009
4
TERT­
BUTYLPHENOL
98­
54­
4
0.061730
0.0183
0.0171
4'­((
6­
HYDROXY­
MTOLYL
AZO)
ACETANIL
2832­
40­
8
0.000001
0.0003
0.0004
4,4­
BIS(
DIMETHYLAMINO)
BENZOPHENONE
90­
94­
8
0.000027
0.0018
0.0018
4,4'­
THIODIANILINE
139­
65­
1
0.000008
0.0000
0.0000
4,6
DINITRO­
O­
CRESOL
534­
52­
1
0.023870
0.0000
0.0000
4­
METHOXYACETANILIDE
51­
66­
1
0.000062
0.0001
0.0001
4­
METHOXYANILINE
104­
94­
9
0.003670
0.0223
0.0245
4­
METHYL
BENZOIC
ACID
99­
94­
5
0.006700
0.0085
0.009
4­
METHYLINDOLE*
16096­
32­
5
0.020440
0.1105
0.1021
4­
OXOBUTANOIC
ACID
692­
29­
5
0.011100
0.0007
0.0011
5
METHOXY
2
PENTANONE
17429­
04­
8
0.099440
0.1969
0.2413
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
5­(
AMINOMETHYL)­
3­
ISOXAZOLOL
2763­
96­
4
0.000000
0.0000
0.0000
5­
OXOPENTANOIC
ACID
0.013900
0.0006
0.0008
7H­
DIBENZO(
C,
G)
CARBAZOLE
194­
59­
2
0.000622
0.0005
0.0004
ABATE*
3383­
96­
8
0.009900
0.0000
0.0000
ACEPHATE
(
ORTHENE)
30560­
19­
1
0.000000
0.0001
0.0003
ACETALDOL
107­
89­
1
0.005117
0.0113
0.0157
ACETAMIDE
60­
35­
5
0.000621
0.0053
0.0194
ACETANILIDE
103­
84­
4
0.000342
0.0015
0.0016
ACETIC
ACID
64­
19­
7
0.066090
0.1012
0.1885
ACETIC
ANHYDRIDE
108­
24­
7
0.066090
0.1652
0.2619
ACETOCHLOR
34256­
82­
1
0.001239
0.2786
0.3118
ACETYL­
2­
THIOUREA,
1­*
591­
08­
2
0.000251
0.0002
0.0004
ACETYLMETHYLPHTHALATE
4
0.000056
0.0001
0.0001
ACRIDINE
260­
94­
6
0.010060
0.0654
0.0564
ACRIDINE
ORANGE*
494­
38­
2
0.000000
0.0000
0.0000
ACRIDINE
YELLOW*
135­
49­
9
0.000000
0.0000
0.0000
ACRYLAMIDE
79­
06­
1
0.000017
0.4516
1
ACRYLIC
ACID
79­
10­
7
0.023140
0.4311
0.6432
ADAMANTANE
DICARBOXYLIC
ACID
0.000002
0.0000
0.0000
ADENINE
73­
24­
5
0.000000
0.0000
0.0000
ADIPONITRILE
111­
69­
3
0.000390
0.0035
0.004
AFLATOXINS
1402­
68­
2
0.000000
0.0000
0.0000
ALACHLOR
15972­
60­
8
0.001793
0.6453
0.7223
ALDICARB
116­
06­
3
0.000231
0.0001
0.0002
AMETRYNE*
834­
12­
8
0.000135
0.0001
0.0002
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
AMINO­
4'­
CHLOROBIPHENYL
4
135­
68­
2
0.018500
0.0096
0.0086
AMINO­
4­
CHLOROPYRIDINE
2
1072­
98­
6
0.000180
0.0054
0.0059
AMINOBIPHENYL,
4­
92­
67­
1
0.008100
0.0119
0.0105
AMINOETHYLPIPERAZINE
140­
31­
8
0.000000
0.0001
0.0001
AMINOPYRIDINE,
4­
(
AVITROL)
504­
24­
5
0.000156
0.0005
0.0005
AMITROLE*
61­
82­
5
0.000000
0.0002
0.0006
AMMONIUM
ACETATE*
631­
61­
8
0.000000
0.0000
0.0000
AMMONIUM
PERFLUOROOCTANOATE
3825­
26­
1
0.006055
0.4955
0.4566
ANILAZINE
101­
05­
3
0.000016
0.0014
0.0015
ANILINE
62­
53­
3
0.085310
0.1423
0.1382
ANISIDINE,
O­
90­
04­
0
0.077360
0.0494
0.0543
ANTHRAQUINONE
84­
65­
1
0.001300
0.0004
0.0003
ANTOR
38727­
55­
8
0.000335
0.0034
0.0037
ARAMITE*
140­
57­
8
0.000086
0.0001
0.0002
ATRAZINE
1912­
24­
9
0.000340
0.0002
0.0003
AURAMINE
492­
80­
8
0.000000
0.0000
0.0000
AZASERINE
115­
02­
6
0.000009
0.0000
0.0001
BAYER
37344*
2032­
65­
7
0.000167
0.0022
0.0024
BENDIOCARB
22781­
23­
3
0.002167
0.0005
0.0007
BENOMYL
17804­
35­
2
0.000000
0.0000
0.0001
BENTAZONE*
25057­
89­
0
0.000246
0.0086
0.0116
BENXENEDICARBOXYLIC
ACID
DIHEPTYL
E
0.041060
0.0067
0.0071
BENZ(
C)
ACRIDINE
225­
51­
4
0.006778
0.0292
0.0248
BENZAMIDE
55­
21­
0
0.000014
0.0011
0.0014
BENZEN
SULFONATE*
3198­
32­
1
0.002622
0.0135
0.0147
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
BENZENE
ARSONIC
ACID
(
M)
98­
05­
5
0.000006
0.124
0.124
BENZENE
DICARBOXYLIC
ACID
29010­
86­
4
0.007449
0.0001
0.0002
BENZENE
SULFONIC
ACID
(
M)
98­
11­
3
0.043940
0.1459
0.1459
BENZENE,
M­
BIS(
2,3­
EPOXYPROPOXY)­
101­
90­
6
0.001139
0.0097
0.0113
BENZIDINE
92­
87­
5
0.000002
0.0000
0.0000
BENZO(
A)
FLUORANTHENE
203­
33­
8
0.032680
0.0054
0.0043
BENZO(
A)
PYRENE
50­
32­
8
0.050240
1.2667
0.9995
BENZO(
B)
FLUORANTHENE
205­
99­
2
0.036500
0.011
0.0087
BENZO(
B)
PYRIDINE
(
QUINOLINE)
91­
22­
5
0.091520
0.2542
0.2279
BENZO(
GHI)
PERYLENE
191­
24­
2
0.018520
0.0059
0.0046
BENZO(
J)
FLUORANTHENE
205­
82­
3
0.024720
0.011
0.0087
BENZO(
K)
FLUORANTHENE
207­
08­
9
0.032680
0.0054
0.0043
BENZOIC
ACID
65­
85­
0
0.002310
0.0142
0.0155
BENZOTHIAZOLE
95­
16­
9
0.032800
0.1876
0.241
BENZOYL
PEROXIDE
94­
36­
0
0.072700
0.0000
0.0000
BHC,
BETA­
319­
85­
7
0.024440
1.0627
0.9994
BHC,
DELTA­
319­
86­
8
0.024000
1.0627
0.9994
BIS
(
2­
CHLOROETHOXY)
METHANE
111­
91­
1
0.021370
0.1702
0.1959
BIS
(
HYDROXYMETHYL)
HYDROPEROXIDE
17088732
0.000006
0.0009
0.0038
BIS(
4­
DIMETHYLAMINOPHENYL)
METHAN
E
101­
61­
1
0.004456
0.0295
0.0276
BISPHENOL(
A)
80­
05­
7
0.000050
0.0000
0.0000
BROMOACETIC
ACID
79­
08­
3
0.000370
0.0166
0.0345
BROMOCHLOROMETHYL
ACETATE
0.010400
0.3948
0.6252
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
BUTANDIOIC
ACIC
(
SUCCINIC
ACID)
110­
15­
6
0.000000
0.0001
0.0001
BUTANEDINITRILE
110­
61­
2
0.000932
0.0071
0.0089
BUTYL
BENZYL
PHTHALATE
85­
68­
7
0.071900
0.0063
0.0066
BUTYLENE
GLYCOL­(
1,3)
107­
88­
0
0.000132
0.0026
0.0038
BUTYLPHTHALYL
BUTYLGLYCOLATE
85­
70­
1
0.001222
0.0006
0.0007
BUTYRIC
ACID
107­
92­
6
0.060000
0.0886
0.1241
C.
I.
DIRECT
BLACK
38
(
M)
1937­
37­
7
0.000000
0.999
0.999
C.
I.
SOLVENT
ORANGE
7
3118­
97­
6
0.000002
0.0000
0.0000
CACODYLIC
ACID*
75­
60­
5
0.001594
0.0158
0.0299
CAPROLACTAM
105­
60­
2
0.000280
0.0025
0.003
CAPTAN
133­
06­
2
0.000390
0.7695
1
CARBARYL
SEVIN
63­
25­
2
0.000240
0.0008
0.0008
CARBAZOLE*
86­
74­
8
0.004800
0.0059
0.0052
CARBENDAZIM
10605­
21­
7
0.022220
0.0234
0.0379
CARBOFURAN*
1563­
66­
2
0.000470
0.0012
0.0014
CARBONIC
ACID,
DILITHIUM
SALT*
554­
13­
2
0.000000
0.0000
0.0000
CARBOXIN
5234­
68­
4
0.000014
0.8726
0.9992
CHLORAMBEN
133­
90­
4
0.000002
0.0015
0.0017
CHLORAMBUCIL
305­
03­
3
0.000001
0.0002
0.0002
CHLORENDIC
ACID
115­
28­
6
0.000000
0.0000
0.0000
CHLORIDAZON
1698­
60­
8
0.000018
0.0003
0.0003
CHLORIMURON­
ETHYL
(
PH
7)
90982­
32­
4
0.000000
0.0001
0.0002
CHLORNAPHAZINE
494­
03­
1
0.062780
0.4244
0.3869
CHLORO(­
P)
CRESOL(­
M)
59­
50­
7
0.009100
0.0288
0.0279
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
CHLORO­
1,2­
ETHANE
DIOL
(
M)
0.005360
0.999
0.999
CHLORO­
2,5­
DIKETOPYRROLIDINE
3
(
M)
0.003710
0.4302
0.4302
CHLOROACETIC
ACID
79­
11­
8
0.004080
0.0204
0.0284
CHLOROBENZILATE
510­
15­
6
0.011000
0.0001
0.0001
CHLOROBENZOPHENONE
(
PARA)
134­
85­
0
0.000190
0.0495
0.0443
CHLORODIFLUOROACETIC
ACID
76­
04­
0
0.002220
0.5985
0.7391
CHLORODIFLUOROETHANOIC
PEROXYACID
0.018520
0.6966
0.9754
CHLOROETHANOL
107­
07­
3
0.076650
0.2775
0.3346
CHLOROHYDRIN,
A
3
CHLORO
1,2
PROPANE
96­
24­
2
0.001620
0.0031
0.0042
CHLOROMETHYLTEREPHTHALIC
ACID
0.000000
0.0005
0.0006
CHLORO­
N­
METHYLBENZAMIDE
P
0.000124
0.0049
0.0051
CHLORPROPHAM*
101­
21­
3
0.001320
0.0017
0.0018
CHLORSULFURON
(
PH
7)
64902­
72­
3
0.000000
0.0000
0.0000
CHOLINE
CHLORIDE
67­
48­
1
0.000381
0.0049
0.0059
CIS
BUTENEDIOIC
ACID
(
MALEIC
ACID)
110­
16­
7
0.000001
0.0001
0.0002
CITRIC
ACID
77­
92­
9
0.000000
0.0000
0.0000
CITRUS
RED
#
2
6358­
53­
8
0.000000
0.0000
0.0000
CREOSOTE
(
M)
8001­
58­
9
0.004444
0.025
0.025
CRESOL
1319­
77­
3
0.060890
0.0347
0.0335
CUMENE
HYDROPEROXIDE
80­
15­
9
0.012000
0.4455
0.471
CUMYL
PHENOL
18168­
40­
6
0.062780
0.0173
0.0154
CUMYLPHENOL­
4
599­
64­
4
0.093300
0.0019
0.0017
CYANAZINE*
(
BLADEX)
21725­
46­
2
0.000014
0.0001
0.0001
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
CYANOGUANIDINE
461­
58­
5
0.000025
0.0629
0.1107
CYANOMETHYL
BENZOATE
4
1129­
35­
7
0.006667
0.0152
0.017
CYANOPYRIDINE
(­
4)
100­
48­
1
0.051610
0.1139
0.1233
CYANOPYRIDINE
3
100­
54­
9
0.015220
0.15
0.1623
CYANURIC
ACID*
108­
80­
5
0.000000
0.0000
0.0000
CYCASIN
14901­
08­
7
0.000000
0.0000
0.0000
CYCLOHEXADIENE1,4DIONE2,6B
IS11DIMET
0.023060
0.0218
0.0213
CYCLOHEXYL­
4,6­
DINITROPHENOL,
2­
131­
89­
5
0.000064
0.0000
0.0000
CYCLOTETRAMETHYLENETRANITR
AMINE*
2691­
41­
0
0.000001
0.0293
0.1359
DAZOMET*
533­
74­
4
0.001072
0.0848
0.1532
DECABROMODIPHENYL
ETHER
1163­
19­
5
0.000661
0.0013
0.0023
DESMEDIPHAM
13684­
56­
5
0.000009
0.0154
0.0203
DI­
2­
ETHYLHEXYL
ADIPATE
103­
23­
1
0.031110
0.0036
0.0039
DIANISIDINE
DIISOCYANATE*
91­
93­
0
0.000000
0.0000
0.0000
DIAZINON
333­
41­
5
0.000524
0.0007
0.0007
DIBENZ(
A,
H)
ACRIDINE
226­
36­
8
0.001283
0.0043
0.0036
DIBENZ(
A,
J)
ACRIDINE
224­
42­
0
0.001283
0.0043
0.0036
DIBENZO(
A,
E)
FLUORANTHENE
5385­
75­
1
0.004394
0.0014
0.0011
DIBENZO(
A,
E)
PYRENE
192­
65­
4
0.004967
0.0014
0.0011
DIBENZO(
A,
H)
ANTHRACENE
53­
70­
3
0.004060
0.0008
0.0006
DIBENZO(
A,
H)
PYRENE
189­
64­
0
0.004967
0.0014
0.0011
DIBENZO(
B,
DEF)
CHRYSENE­
7,14­
DIONE
128­
66­
5
0.000001
0.0000
0.0000
DIBENZO(
DEF,
P)
CHRYSENE
191­
30­
0
0.004967
0.0014
0.0011
DIBENZOPYRENE
1,2,7,8
189­
55­
9
0.004967
0.0014
0.0011
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
DIBROMOACETIC
ACID
631­
64­
1
0.000240
0.0507
0.1078
DIBUTYLPHTHALATE
84­
74­
2
0.025200
0.0014
0.0015
DICAMBA
1918­
00­
9
0.000120
0.0075
0.0084
DICAMBA
AMINE
2300­
66­
5
0.000989
0.0161
0.0184
DICAPTHON
(
M)
2463­
84­
5
0.012630
0.999
0.999
DICHLORO
2­
PROPANOL
1,3
96­
23­
1
0.094840
0.2371
0.2572
DICHLORO
PROPANOL
2,3
616­
23­
9
0.071600
0.1192
0.13
DICHLORO­(
2,6)­
NITROANILINE(
4)
99­
30­
9
0.000363
0.0164
0.0204
DICHLOROACETIC
ACID
79­
43­
6
0.000460
0.04
0.0508
DICHLOROANILINE
2,3
608­
27­
5
0.067220
0.1205
0.117
DICHLOROBENZIDINE,
3,3'­
91­
94­
1
0.040700
0.0008
0.0008
DICHLOROFLUOROETHANOIC
PEROXYACID
0.018520
0.5814
0.7825
DICHLOROPHENOL
25167­
81­
1
0.078330
0.1513
0.148
DICHLOROTETRAHYDROFURAN
3,4
3511­
19­
1
0.007833
0.8335
0.8742
DICHLORPROP
120­
36­
5
0.001494
0.0036
0.0039
DICHLORVOS*
62­
73­
7
0.053000
0.0137
0.0183
DIETHANOLAMINE
111­
42­
2
0.000072
0.0000
0.0000
DIETHYL
PHTHALATE
84­
66­
2
0.033800
0.0059
0.0069
DIETHYL
PROPIONAMIDE,
2AN
15299­
99­
7
0.001087
0.0005
0.0006
DIETHYLENE
GLYCOL
111­
46­
6
0.000008
0.0001
0.0002
DIETHYLENE
GLYCOL
DIETHYL
ETHER
112­
36­
7
0.006162
0.1684
0.2166
DIETHYLENE
GLYCOL
DIMETHYL
ETHER
111­
96­
6
0.083800
0.1051
0.1496
DIETHYLENE
GLYCOL
MONOBUTYL
ETHER
112­
34­
5
0.000084
0.0026
0.0034
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
DIETHYLENE
GLYCOL
MONOETHYL
ETHER
111­
90­
0
0.002700
0.0099
0.0141
DIETHYLENE
GLYCOL
MONOETHYL
ETHER
A
112­
15­
2
0.004370
0.0518
0.0722
DIETHYLENE
GLYCOL
MONOMETHYL
ETHER
111­
77­
3
0.000036
0.0031
0.0047
DIETHYLENE
GLYCOL
MONOPROPYL
ETHER
6881­
94­
3
0.007944
0.0042
0.0057
DIETHYLENETRIAMINE
111­
40­
0
0.000000
0.0002
0.0003
DIETHYLHYDRAZINE
N,
N
1615­
80­
1
0.006770
0.241
0.3329
DIETHYLTHIOPHOSPHATEBENZO
M
ETHYL
P
0.000173
0.0002
0.0003
DIFLUBENZURON
35367­
38­
5
0.000256
0.0026
0.0028
DIFLUOROACETIC
ACID
381­
73­
7
0.001850
0.2972
0.4022
DIKOTEX
P*
3653­
48­
3
0.000767
0.0032
0.0035
DIMETHENAMID*
87674­
68­
8
0.004550
0.7578
0.8391
DIMETHOATE*
60­
51­
5
0.000006
0.0000
0.0000
DIMETHOXY­(
3,3')­
BENZIDINE
119­
90­
4
0.000003
0.0000
0.0000
DIMETHYL
BENZOIC
ACID,
2,4
611­
01­
8
0.000728
0.019
0.0198
DIMETHYL
BENZYLAMINE
N,
N
103­
83­
3
0.072000
0.5867
0.552
DIMETHYL
CARBAMOYL
CHLORIDE*
79­
44­
7
0.040100
0.1156
0.1505
DIMETHYL
FORMAMIDE
68­
12­
2
0.009955
0.0085
0.0131
DIMETHYL
METHYLTHIOCARBAMATE
N,
N*
631­
67­
4
0.018830
0.1805
0.2912
DIMETHYL
NITROSAMINE*
62­
75­
9
0.043800
0.0000
0.8115
DIMETHYL
PHTHALATE
131­
11­
3
0.023220
0.0009
0.001
DIMETHYLACETAMIDE
127­
19­
5
0.000730
0.5294
0.981
DIMETHYLAMINOAZOBENZENE,
4­
*
60­
11­
7
0.000393
0.0163
0.0165
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
DIMETHYLBENZ(
A)
ANTHRACENE(
7,12)
57­
97­
6
0.000015
0.0078
0.0063
DIMETHYLHYDANTOIN,
5,5­*
77­
71­
4
0.003772
0.0139
0.0251
DIMETHYLSULFONE*
67­
71­
0
0.001111
0.0016
0.0029
DIMETHYLSULFOXIDE*
(
DMSO)
67­
68­
5
0.000084
0.5646
0.873
DINOCAP
39300­
45­
3
0.000266
0.0021
0.0027
DINOSEB
88­
85­
7
0.035000
0.0002
0.0003
DI­
N­
PROPYL
PHTHALATE
131­
16­
8
0.001600
0.0064
0.0072
DIPHENAMID
957­
51­
7
0.086670
0.0526
0.0606
DIPHENYLHYDRAZINE(
1,2)
122­
66­
7
0.000191
0.011
0.0107
DIPROPYL
PYRIDINE­
2,5­
DICARBOXYLATE
136­
45­
8
0.001861
0.0034
0.0042
DIPROPYLENE
GLYCOL
25265­
71­
8
0.000197
0.0005
0.0007
DIRECT
BLUE
6*
2602­
46­
2
0.000000
0.0000
0.0000
DIURON
330­
54­
1
0.000028
0.8254
0.9718
DODINE
2439­
10­
3
0.000005
0.0000
0.0000
EDTA
60­
00­
4
0.000000
0.0000
0.0000
ENDOSULFAN
SULFATE*
1031­
07­
8
0.000035
0.0000
0.0000
ENDRIN
72­
20­
8
0.027650
0.0027
0.0026
EPINEPHRINE
51­
43­
4
0.020330
0.0000
0.0000
ETHANEDIAL
(
GLYOXAL)
107­
22­
2
0.000150
0.5236
0.9579
ETHANOLAMINE(
MONO­)
141­
43­
5
0.000434
0.0038
0.0074
ETHYL
CARBAMATE
(
URETHANE)*
51­
79­
6
0.001220
0.004
0.0074
ETHYL
MORPHOLINE,
ETHYL
DIETHYLENE
100­
74­
3
0.001372
0.048
0.0587
ETHYLENE
DIAMINE
107­
15­
3
0.000094
0.0116
0.0218
ETHYLENE
GLYCOL
107­
21­
1
0.003330
0.011
0.0212
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
ETHYLENE
GLYCOL
MONOBUTYL
ETHER
111­
76­
2
0.028870
0.0564
0.0714
ETHYLENE
GLYCOL
MONOETHYL
ETHER
ACETATE
111­
15­
9
0.085170
0.3284
0.4569
ETHYLENE
GLYCOL
MONOMETHYL
ETHER
109­
86­
4
0.018330
0.0738
0.1199
ETHYLENE
GLYCOL
MONOPHENYL
ETHER
122­
99­
6
0.011050
0.0205
0.0224
ETHYLENE
GLYCOL
MONOPROPYL
ETHER
2807­
30­
9
0.027100
0.1815
0.2422
ETHYLENETHIOUREA*
96­
45­
7
0.001710
0.0000
0.0000
ETHYLPHENOL,
3­
620­
17­
7
0.007111
0.0237
0.0227
FAMPHUR
52­
85­
7
0.000890
0.0001
0.0002
FENITROTHION*
122­
14­
5
0.051670
0.0084
0.0137
FENTHION*
55­
38­
9
0.028000
0.0012
0.0018
FENVALERATE
51630­
58­
1
0.001918
0.0003
0.0003
FLUOMETURON
2164­
17­
2
0.000145
0.8547
0.9921
FLUOROACETIC
ACID
144­
49­
0
0.065000
0.0578
0.0857
FLUOROACETIC
ACID,
SODIUM
SALT*
62­
74­
8
0.000300
0.2937
0.4357
FORMALDEHYDE
50­
00­
0
0.017920
0.5467
1
FORMAMIDE
75­
12­
7
0.000846
0.0916
0.1697
FUMARIC
ACID
110­
17­
8
0.007390
0.0003
0.0006
FUROIC
ACID
88­
14­
2
0.022210
0.0073
0.0096
GLYCERIN
(
GLYCEROL)
56­
81­
5
0.000000
0.0000
0.0000
GLYCINAMIDE
598­
41­
4
0.008200
0.0000
0.0000
GLYOXYLIC
ACID
298­
12­
4
0.006200
0.001
0.0024
GLYPHOSATE
1071­
83­
6
0.000242
0.0046
0.0093
GUANIDINE,
NITROSO*
674­
81­
7
0.048900
0.0000
0.0000
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
GUTHION*
86­
50­
0
0.001328
0.0000
0.0000
GYLCIDOL
556­
52­
5
0.050110
0.0191
0.0299
HARMONY
(
M)
79277­
27­
3
0.000000
0.0178
0.0178
HEPTANOIC
ACID
111­
14­
8
0.036000
0.0548
0.0655
HEXAMETHYLENEDIAMINE
124­
09­
4
0.000178
0.0048
0.006
HEXAMETHYLPHOSPHORAMIDE*
680­
31­
9
0.001110
0.0000
0.0000
HEXANEDIOIC
ACID
(
ADIPIC
ACID)
124­
04­
9
0.000000
0.0000
0.0000
HEXANOIC
ACID
142­
62­
1
0.039680
0.0606
0.0752
HYDRAZINE*
302­
01­
2
0.000096
0.1903
0.3318
HYDROQUINONE
123­
31­
9
0.000002
0.0000
0.0000
HYDROXY­(
2)­
PROPIONITRILE
109­
78­
4
0.004200
0.0013
0.002
HYDROXYACETIC
ACID
(
GLYCOLIC)
79­
14­
1
0.001120
0.0002
0.0005
HYDROXYMETHYL
ACETYLENE
107­
19­
7
0.066600
0.2708
0.3205
HYDROXYMETHYL
HYDROPEROXIDE
15932­
89­
5
0.000033
0.0002
0.001
HYDROXYMETHYLBENZENE
100­
51­
6
0.021700
0.0836
0.0808
HYDROXYMETHYLTHIOBENZENE
0.008611
0.0022
0.0028
HYDROXYPROPIONALDEHYDE
0.009000
0.0264
0.0408
INDANOL,
5­
1470­
94­
6
0.012220
0.0115
0.0108
INDENO(
1,2,3­
CD)­
PYRENE
193­
39­
5
0.019160
0.0006
0.0004
INDOLE*
120­
72­
9
0.029330
0.0903
0.0827
ISOCAPROIC
ACID
646­
07­
1
0.045560
0.0757
0.0926
ISOFENPHOS*
25311­
71­
1
0.002827
0.0003
0.0003
LACTIC
ACID
598­
82­
3
0.000535
0.0007
0.0013
LEUCINE
61­
90­
5
0.030000
0.0047
0.0065
LINURON*
330­
55­
2
0.000347
0.0036
0.0039
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
M
PHENYLENE
DIAMINE
108­
45­
2
0.000600
0.0004
0.0004
M
TOLUIDINE
108­
44­
1
0.072220
0.1232
0.1178
MALACHITE
GREEN
569­
64­
2
0.000000
0.1
0.087
MALATHION*
121­
75­
5
0.000271
0.0000
0.0000
MALIC
ACID
(
HYDROXYBUTANEOIC)
636­
61­
3
0.000000
0.0000
0.0000
MALONONITRILE
109­
77­
3
0.007275
0.0724
0.0995
MANEB
(
M)
12427­
38­
2
0.000242
0.0924
0.0924
MANGANESE
II
ACETATE
638­
38­
0
0.000005
0.0004
0.0007
MCPB
94­
81­
5
0.000533
0.0023
0.0025
MECOPROP
93­
65­
2
0.001011
0.0067
0.0074
MERCAPTOBENZOTHIAZOLE,
2
149­
30­
4
0.000042
0.0041
0.0049
METHACRYLIC
ACID
79­
41­
4
0.070000
0.0682
0.0914
METHANE
SULFONIC
ACID*
75­
75­
2
0.026700
0.0003
0.0007
METHAPYRILENE
91­
80­
5
0.000170
0.0163
0.0192
METHAZOLE
20354­
26­
1
0.012720
0.0009
0.0011
METHOMYL
16752­
77­
5
0.000035
0.0000
0.0000
METHOXYPHENOL
P
150­
76­
5
0.017200
0.0025
0.0028
METHYL
ISOCYANATE*
624­
83­
9
0.011440
0.2047
0.3744
METHYL
METHANESULFONATE
66­
27­
3
0.000005
0.0006
0.0014
METHYL
PARATHION*
298­
00­
0
0.055000
0.0009
0.0015
METHYL
SULFURIC
ACID
(
M)
75­
93­
4
0.031170
0.7935
0.7935
METHYL
THIOURACIL
56­
04­
2
0.021060
0.0000
0.0000
METHYL­
2­
METHOXYAZIRIDINE
1
0.024200
0.5609
0.7698
METHYLACETONITRILE
2
ACETONE
CYANOH
75­
86­
5
0.000109
0.0197
0.0268
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
METHYLDITHIOCARBAMIC
ACID,
NA
SALT
137­
42­
8
0.000000
0.0006
0.0013
METHYLENE
DIPHENYL
DIISOCYANATE
101­
68­
8
0.002700
0.0163
0.0174
METHYLENE
DIPHENYLAMINE
(
MDA)
111­
77­
9
0.001561
0.0017
0.0017
METHYLENE­
BIS
(
2­
CHLOROANILINE),
4,4
101­
14­
4
0.012940
0.0096
0.0092
METHYLETHYLIDENE
BISPHENOL,
4,4'
0.000017
0.0001
0.0001
METHYLFURFURAL
5
620­
02­
0
0.012200
0.1214
0.1413
METHYLIMINOACETIC
ACID
107­
97­
1
0.055600
0.0007
0.0013
METOLACHLOR
(
M)
51218­
45­
2
0.000500
0.0831
0.0831
METRIBUZIN*
21087­
64­
9
0.000006
0.0000
0.0001
METSULFURON
ME
(
ALLY)*
74223­
64­
6
0.000000
0.0000
0.0000
MEVINPHOS
(
M)
7786­
34­
7
0.000004
0.999
0.999
MONOMETHYL
FORMANIDE
123­
39­
7
0.000000
0.0025
0.0047
MORPHINE
(
M)
57­
27­
2
0.000000
0.0323
0.0323
NABAM
142­
59­
6
0.000000
0.0000
0.0000
NAPHTHALENE
ACETIC
ACID
2
METHYL,
1
85­
08­
5
0.001694
0.0029
0.0028
NAPHTHOL,
ALPHA­
90­
15­
3
0.001411
0.0044
0.0039
NAPHTHOL,
BETA­
135­
19­
3
0.001522
0.0028
0.0025
NAPHTHYLAMINE,
ALPHA­
134­
32­
7
0.006188
0.0054
0.0048
NAPHTHYLAMINE,
BETA­
91­
59­
8
0.004555
0.0041
0.0037
NEOPENTYL
GLYCOL
126­
30­
7
0.000900
0.0036
0.0048
N­
HYDROXY­
NNITROSOBENZENAMINE
AMMO
135­
20­
6
0.070550
0.0283
0.0425
NIACIN
59­
67­
6
0.034220
0.0016
0.002
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
NIACINAMIDE
98­
92­
0
0.067780
0.0001
0.0002
NICOSULFURON*
(
ACCENT)
111991­
09­
4
0.000000
0.0000
0.0000
NITRILOTRIACETIC
ACID
139­
13­
9
0.000000
0.0000
0.0000
NITROGLYCERIN
55­
63­
0
0.005230
0.0003
0.0017
NITROOXY
PROPANOL
0.008290
0.0018
0.0046
NITROOXYACETONE
0.055550
0.1668
0.4185
NITROSODI­
N­
PROPYLAMINE
N
621­
64­
7
0.077460
0.0884
0.1046
NITROSODIPHENYLAMINE
N*
156­
10­
5
0.000833
0.0023
0.0022
NITROSO­
N­
METHYLUREA
N
684­
93­
5
0.060000
0.015
0.0369
NITROSOPYRROLIDINE
N
(
M)
930­
55­
2
0.000115
0.997
0.997
N­
METHYLPYRROLIDONE
872­
50­
4
0.000178
0.4686
0.764
N­
NITROSOPIPERIDINE
100­
75­
4
0.046900
0.233
0.3895
NONYLPHENOL
25154­
52­
3
0.048170
0.0105
0.0098
NORFLURAZON
(
M)
27314­
13­
2
0.000016
0.0711
0.0711
O
PHENYLENE
DIAMINE
95­
54­
5
0.000600
0.0013
0.0015
OCTANOIC
ACID
124­
07­
2
0.049580
0.0496
0.0576
O­
DINITROBENZENE
528­
29­
0
0.075000
0.0183
0.0324
OODIETHYLO2ETH.
THIOETH.
PHO
SPHORO(
M)
126­
75­
0
0.000000
0.0958
0.0958
ORYZALIN*
19044­
88­
3
0.000106
0.0000
0.0000
OXADIAZON
(
M)
19666­
30­
9
0.004039
0.999
0.999
OXALIC
ACID
144­
62­
7
0.000008
0.0002
0.0006
OXYTHIOQUINOX*
2439­
01­
2
0.003420
0.0032
0.0035
P
PHENYLENE
DIAMINE
106­
50­
3
0.000043
0.0008
0.001
P,
P'
DIAMINODIPHENYLMETHANE
101­
77­
9
0.000003
0.0000
0.0000
PAH
POLYCYCLIC
AROMATIC
HYDROCARBON
0.050000
1.2667
0.9995
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
PARAQUAT
DICHLORIDE
1910­
42­
5
0.080000
0.1541
0.1508
PARATHION
56­
38­
2
0.004750
0.0003
0.0005
P­
BENZOQUINONE
106­
51­
4
0.054080
0.0061
0.0068
P­
DINITROBENZENE
100­
25­
4
0.004660
0.0157
0.0278
PENDIMETHALIN
40487­
42­
1
0.047500
0.025
0.0341
PENTACHLOROPHENOL
87­
86­
5
0.001360
0.092
0.0898
PENTAERYTHRITOL
115­
77­
5
0.000007
0.0002
0.0003
PENTAERYTHRITOL
TETRANITRATE
78­
11­
5
0.000002
0.0000
0.0000
PENTANEDIOIC
ACID
(
GLUTARIC
ACID)
110­
94­
1
0.000000
0.0000
0.0000
PENTANOIC
ACID
109­
52­
4
0.025250
0.071
0.0926
PERYLENE
198­
55­
0
0.024720
0.011
0.0087
PHENACETIN
62­
44­
2
0.012390
0.182
0.2278
PHENOL
108­
95­
2
0.039380
0.036
0.0354
PHENOL,
2,2'­
METHYLENEBIS
3,4,6­
CL
70­
30­
4
0.000000
0.0007
0.0006
PHENOXYACETIC
ACID
122­
59­
8
0.000930
0.003
0.0036
PHENYL
MERCURIC
ACETATE
(
M)
62­
38­
4
0.000670
0.0566
0.0566
PHENYLACETIC
ACID
103­
82­
2
0.002280
0.0154
0.0164
PHENYLHYDRAZINE
100­
63­
0
0.000246
0.0064
0.007
PHENYLTHIOUREA
103­
85­
5
0.000107
0.0003
0.0004
PHENYTOIN
57­
41­
0
0.000001
0.001
0.0013
PHORATE*
298­
02­
2
0.024280
0.1988
0.2635
PHTHALIC
ACID
88­
99­
3
0.000000
0.0001
0.0001
PHTHALIC
ANHYDRIDE
85­
44­
9
0.000340
0.0155
0.0185
PHTHALIMIDE*
85­
41­
6
0.000001
0.0001
0.0001
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
PHTHALTHRIN
7696­
12­
0
0.052000
0.4361
0.5108
PICLORAM
1918­
02­
1
0.000000
0.0015
0.0018
PIPERAZINE
110­
85­
0
0.000122
0.0307
0.0424
PIPERONYL
BUTOXIDE
51­
03­
6
0.044980
0.007
0.0079
POTASSIUM
DIMETHYLDITHIOCARBAMATE*
128­
03­
0
0.000351
0.0143
0.0265
P­
PHENYLAZOANILINE
60­
09­
3
0.000005
0.0001
0.0001
PRIMISULFURON­
METHYL
(
BEACON)*
86209­
51­
0
0.000001
0.0000
0.0000
PROFENOFOS*
41198­
08­
7
0.000876
0.0244
0.0294
PROMETON
1610­
18­
0
0.000048
0.0000
0.0001
PROMETRYNE*
7287­
19­
6
0.000733
0.0003
0.0004
PRONAMIDE
23950­
58­
5
0.000543
0.0699
0.0684
PROPACHLOR
(
RAMROD)
1918­
16­
7
0.017800
0.9064
0.9915
PROPANOIC
ACID
79­
09­
4
0.025500
0.0716
0.1115
PROPANONAL
(
METHYLGLYOXAL,
PYRUVALDE
78­
98­
8
0.001700
0.5312
0.7974
PROPARGITE*
2312­
35­
8
0.002306
0.0004
0.0004
PROPAZINE
139­
40­
2
0.000255
0.0007
0.0009
PROPETAMPHOS*
31218­
83­
4
0.002670
0.0011
0.0016
PROPICONAZOLE
60207­
90­
1
0.000229
0.0024
0.0027
PROPORUR
(
BAYGON)
114­
26­
1
0.000098
0.0035
0.0041
PROPYL
THIOURACIL
51­
52­
5
0.000000
0.0000
0.0000
PROPYLENE
GLYCOL
MONOMETHYL
ETHER
107­
98­
2
0.051110
0.1437
0.204
PYRENE,
1­
NITRO­
5522­
43­
0
0.001817
0.0036
0.0035
PYRIDINIUM
BROMIDE*
1882­
82­
1
0.091670
0.6208
0.8582
PYROCATECHOL
120­
80­
9
0.000174
0.0002
0.0002
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
PYRUVIC
ACID
127­
17­
3
0.000180
0.0159
0.029
RESERPINE
50­
55­
5
0.000000
0.0000
0.0000
RESMETHRIN
10453­
86­
8
0.007389
0.0386
0.0373
RESORCINOL
108­
46­
3
0.000005
0.0001
0.0001
RHODAMINE
B
81­
88­
9
0.000000
0.0001
0.0001
S
ACETYLMERCAPTOSUCCINIC
ACID
6332­
90­
7
0.000030
0.0001
0.0002
SACCHARIN*
81­
07­
2
0.000068
0.0052
0.0055
SILVEX
93­
72­
1
0.000839
0.0138
0.0148
SIMAZINE
122­
34­
9
0.000053
0.0000
0.0000
SODIUM
ACETATE
127­
09­
3
0.000200
0.0723
0.1348
SODIUM
ACRYLATE
7446­
81­
3
0.005350
0.0613
0.0914
SODIUM
DIMETHYLDITHIOCARBAMATE*
128­
04­
1
0.000351
0.0143
0.0265
SODIUM
FORMATE
141­
53­
7
0.000094
0.0000
0.0000
STIROFOS*
961­
11­
5
0.000102
0.0071
0.0078
STRYCHNIDIN­
10­
ONE,
2,3­
DIMETHOXY(
M)
357­
57­
3
0.000811
0.0278
0.0278
STRYCHNINE
(
M)
57­
24­
9
0.000002
0.0578
0.0578
SUCCINIMIDE*
123­
56­
8
0.001800
0.0003
0.0005
SULFANILIC
ACID
(
M)
121­
47­
1
0.088890
0.1384
0.1384
SULPROFOS*
35400­
43­
2
0.091110
0.0009
0.0014
T
BUTYL­
M­
CRESOL.
1333­
13­
7
0.077780
0.0846
0.0789
T
BUTYL­
P­
CRESOL
25567­
40­
0
0.077780
0.0846
0.0789
TEBUTHIURON*
34014­
18­
1
0.000007
0.0005
0.0008
TEREPHTHALIC
ACID
100­
21­
0
0.000000
0.0004
0.0005
TETRACYCLINE
HYDROCHLORIDE*
64­
75­
5
0.000000
0.0000
0.0000
TABLE
1
OF
APPENDIX
J
 
­
Continued
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
TETRAETHYLDITHIOPYROPHOSPH
ATE*
3689­
24­
5
0.000400
0.0000
0.0000
TETRAETHYLENE
GLYCOL
112­
60­
7
0.000000
0.0000
0.0000
TETRAETHYLENE
GLYCOL
MONOMETHYL
ETHANE
23783­
42­
8
0.000139
0.0001
0.0001
TETRAETHYLENE
PENTAMINE
112­
57­
2
0.000000
0.0000
0.0000
TETRAHYDRO
3­
FURANOL
453­
20­
3
0.008389
0.0126
0.0177
TETRAHYDROTHIOPHENE­
1,1­
DIOXIDE*
126­
33­
0
0.000054
0.0012
0.0022
TETRYL
NITRAMINE*
479­
45­
8
0.000016
0.0004
0.001
THIABENDAZOLE*
148­
79­
8
0.000001
0.0000
0.0000
THIOBENCARB
28249­
77­
6
0.014830
0.0902
0.1111
THIOFANOX
39196­
18­
4
0.000522
0.0012
0.0018
THIOPHANATE­
METHYL*
23564­
05­
8
0.000017
0.0000
0.0000
THIOPROPIONAMIDE
2
0.000004
0.0000
0.0000
THIOSEMICARBAZIDE
79­
19­
6
0.000037
0.0000
0.0000
THIOUREA
62­
56­
6
0.000110
0.003
0.0084
THIOUREA,
1­(
OCHLOROPHENYL
5344­
82­
1
0.002489
0.0039
0.005
TOLUENE
DIAMINE
(
MIXED)
25376­
45­
8
0.000015
0.0004
0.0005
TOLUENE
DIISOCYANATE(
2,4)
584­
84­
9
0.009200
0.0001
0.0002
TOLUENE­
2,6­
DIISOCYANATE*
91­
08­
7
0.010110
0.0338
0.0348
TOLUIDINE
HYDROCHLORIDE,
O­
*
636­
21­
5
0.051980
0.0229
0.0219
TRIADIMEFON*
43121­
43­
3
0.000005
0.0001
0.0001
TRIASULFURON
82097­
50­
5
0.000000
0.0000
0.0000
TRIAZIQUONE
68­
76­
8
0.000000
0.0000
0.0000
TRIBROMOACETIC
ACID
75­
96­
7
0.000185
0.032
0.069
TRIBUTYLPHOSPHATE*
126­
73­
8
0.013180
0.0155
0.0193
TABLE
1
of
APPENDIX
J
 
­
Concluded
Compound
CAS
Y/
X
Fm25D
Fm
305
STAFF
DRAFT
­
09/
30/
2005
TRICHLORFON*
52­
68­
6
0.000001
0.0000
0.0000
TRICHLOROACETIC
ACID
76­
03­
9
0.001326
0.0238
0.028
TRICHLOROETHANAL
(
M)
0.000163
0.999
0.999
TRICHLOROPHENOL
2,4,6
88­
06­
2
0.039000
0.135
0.1319
TRICLOPYR
55335­
06­
3
0.015110
0.0049
0.0058
TRIETHANOLAMINE
102­
71­
6
0.000000
0.0000
0.0000
TRIETHYLENE
GLYCOL
112­
27­
6
0.000002
0.0000
0.0001
TRIETHYLENE
GLYCOL
DIMETHYL
ETHER
112­
49­
2
0.002110
0.0045
0.0063
TRIETHYLENE
GLYCOL
MONOBUTYL
ETHER
143­
22­
6
0.000038
0.0002
0.0002
TRIETHYLENE
GLYCOL
MONOETHYL
ETHER
112­
50­
5
0.000553
0.0003
0.0004
TRIETHYLENE
GLYCOL
MONOMETHYL
ETHER
112­
35­
6
0.001150
0.0007
0.0011
TRIETHYLENE
GLYCOL
MONOPROPYL
ETHER
0.001178
0.0004
0.0005
TRIETHYLENE
TETRAMINE
112­
24­
3
0.000000
0.0000
0.0000
TRIFORINE
26644­
46­
2
0.000000
0.0000
0.0000
TRIPHENYLTIN
HYDROXIDE*
76­
87­
9
0.010390
0.0001
0.0001
TRIPROPYLENE
GLYCOL
1638­
16­
0
0.001544
0.0007
0.001
UREA
57­
13­
6
0.000000
0.0051
0.0093
WARFARIN
81­
81­
2
0.000000
0.0000
0.0000
XYLIDINE
DIMETHYLANILINE
1300­
73­
8
0.088330
0.1312
0.124
*
Molecular
structure
only
approximate.
(
M)
fraction
measured
(
Fm)
estimated
from
Mwt
correlation.
STAFF
DRAFT
­
09/
30/
2005
TABLE
2
OF
APPENDIX
J­­
FR,
FM,
AND
FE1
VALUES
FOR
COMPOUNDS
WITH
HENRY'S
LAW
CONSTANTS
AT
25O
C
THAT
ARE
GREATER
THAN
OR
EQUAL
TO
0.1
Y/
X
ATMOSPHERE
PER
MOLE
FRACTION
Compound
fr
m25D
fm
305
Fe
CAS
[
1,1'­
BIPHENYL]­
4,4'­
DIAMINE,
(
M)
0.99
0.999
0.999
0.4728
64969­
34­
2
[
1,1'­
BIPHENYL]­
4,4'­
DIAMINE,
3,(
M)
0.99
0.999
0.999
0.4728
111984­
09­
9
1
BROMO
2
(
2
PROPYL)
BENZENE
OBROMOC
0.99
0.899
0.9999
0.6904
1
BROMO
2
CHLORO
2
BUTENE
0.99
0.7909
1
0.6878
544132­
84­
3
1
BROMO
2
CHLOROETHANE
0.99
0.7109
1
0.6685
107­
04­
0
1
BROMO
2
ETHYLBENZENE
0.99
0.8565
0.9733
0.637
1
BROMO
2
METHYL
PROPANE
0.99
0.7191
1
0.9163
78­
77­
3
1
BROMO
3
METHYLBUTANE
(
ISOAMYLBROMI
0.99
0.7539
1
0.9255
107­
82­
4
1
BROMOBUTANE
0.99
0.7093
1
0.9652
109­
65­
9
1
BROMOPENTANE
(
AMYLPENTANE)
0.99
0.745
1
0.8935
1
BROMOPROPANE
0.99
0.6656
1
0.8513
106­
94­
5
1
BUTANOL
0.8179
0.5021
0.5999
0.1759
71­
36­
3
1
BUTENE
0.99
1.1312
1
0.9756
106­
98­
9
1
BUTYL
NITRATE
0.99
0.5057
0.9711
0.6405
928­
45­
0
1
BUTYNE
(
ETHYLACETYLENE)
0.99
1.1723
1
0.9306
107­
00­
6
1
CHLORO
1,1
DIFLUOROMETHANE
R142B
0.99
1.0498
1
0.9523
1
CHLORO
1,2,2,2
TETRAFLUOROETHANE
0.994
1.0586
1
0.9413
1
CHLORO
2
METHYL
PROPANE
0.99
1.0749
1
0.6692
513­
36­
0
1
CHLORO
2
METHYLBENZENE
0.99
1.1644
1
0.6898
95­
49­
8
1
CHLORO
2,3­
EPOXYPROPANE
0.9147
0.8469
0.9391
0.3427
106­
89­
8
1
CHLOROBUTANE
0.99
1.0605
1
0.8909
109­
69­
3
1
CHLOROHEXANE
(
HEXYL
CHLORIDE)
0.99
1.0681
1
0.9088
544­
10­
5
1
CHLORONAPHTHALENE
0.99
1.1705
0.9749
0.6435
90­
13­
1
1
CHLOROPENTANE
(
AMYL
CHLORIDE)
0.99
1.0648
1
0.9379
543­
59­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1
DODECANOL
0.99
0.0428
0.0432
0.216
112­
53­
8
1
ETHENYL
2
METHYL
BENZENE
0.99
1.2192
1
0.6533
611­
15­
4
1
ETHENYL
3
METHYLBENZENE
0.99
1.2192
1
0.6908
100­
80­
1
1
ETHYL
2
METHYLBENZENE
(
OETHYLTOL
0.99
1.1977
1
0.7352
611­
14­
3
1
ETHYL
4
METHYLBENZENE
(
PETHYLTOL
0.99
1.1977
1
0.7138
622­
96­
8
1
ETHYLNAPHTHALENE
0.99
1.209
0.9848
0.3913
1127­
76­
0
1
FLUOROPROPANE
0.99
1.1056
1
0.9164
1
HEPTADECANOL
0.988
0.0387
0.038
0.1002
1454­
85­
9
1
HEPTANOL
0.9749
0.2243
0.2413
0.2013
111­
70­
6
1
HEPTENE
0.99
1.115
1
0.9699
592­
76­
7
1
HEPTYNE
0.99
1.1378
1
0.9472
628­
71­
7
1
HEXADECANOL
0.99
0.0049
0.0049
0.1094
36653­
82­
4
1
HEXENE
0.99
1.1186
1
0.9678
592­
41­
6
1
HEXYL
NITRATE
0.99
0.6257
0.9934
0.6007
1
HEXYNE
0.99
1.1453
1
0.9078
693­
02­
7
1
IODOBUTANE
0.99
0.5233
1
0.8669
542­
69­
8
1
IODOPROPANE
0.99
0.4763
1
0.8328
107­
08­
4
1
ISOCYANO
3­
METHYLBENZENE
0.8663
0.3658
0.3332
0.1402
621­
29­
4
1
METHYLCYCLOHEXENE
0.99
1.1378
1
0.9498
591­
49­
1
1
NONANOL
0.99
0.0993
0.1033
0.2256
143­
08­
8
1
NONENE
0.99
1.1102
1
0.9681
124­
11­
8
1
NONYNE
0.99
1.1277
1
0.9515
3452­
09­
3
1
OCTADECANOL
0.99
0.0123
0.012
0.079
112­
92­
5
1
OCTANOL
0.99
0.1844
0.1946
0.2049
111­
87­
5
1
OCTENE
0.99
1.1123
1
0.9688
111­
66­
0
1
OCTYNE
0.99
1.1321
1
0.9452
629­
05­
0
1
PENTADECANOL
0.9881
0.0703
0.0696
0.1189
629­
76­
5
1
PENTYL
NITRATE
(
AMYL
NITRATE)
0.99
0.5379
0.9258
0.6476
1002­
16­
0
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1
PENTYNE
0.99
1.1561
1
0.9283
627­
19­
0
1
PROPANETHIOL
0.99
0.618
1
0.7964
107­
03­
9
1
PROPANOL
0.6076
0.5848
0.7526
0.1741
71­
23­
8
1
PROPYL
NITRATE
0.99
0.4416
0.994
0.6792
627­
13­
4
1
TETRADECANOL
0.99
0.0254
0.0253
0.1284
112­
72­
1
1­(
4­
CHLOROPHENYL)
ETHANOL
0.99
0.1139
0.1092
0.8006
3391­
10­
4
1­(
CHLOROMETHYL)
NAPHTHALENE
0.99
0.8103
0.6777
0.4842
86­
52­
2
1,1
DICHLOROBUTANE
0.99
1.0395
1
0.816
541­
33­
3
1,1
DICHLOROETHENE
VINYLIDENE
CHLO
0.99
1.0609
1
0.9241
75­
35­
4
1,1
DICHLOROTETRAFLUOROETHANE
R114
0.99
1.0459
1
0.9701
1,1
DIETHOXYETHANE
(
ACETAL)
0.99
0.8128
0.9995
0.4126
105­
57­
7
1,1
DIFLUOROETHENE*
0.99
1.1302
1
0.9877
75­
38­
7
1,1,1
TRIFLUORO
2
PROPANOL
0.3314
0.9198
1
0.2433
1,1,1
TRIFLUORO
2
PROPANONE
0.7812
0.9271
1
0.1265
1,1,1
TRIMETHOXYETHANE
0.99
0.2531
0.3779
0.1993
1445­
45­
0
1,1,1,2
TETRAFLUOROETHANE
(
R134A)
0.99
1.0794
1
0.8855
811­
97­
2
1,1,1,2­
TETRACHLORO­
2­
FLUOROETHANE
0.99
1.0432
1
0.9513
354­
11­
0
1,1,1,3,3,3
HEXAFLUORO
2
PROPANOL
0.2633
0.9629
1
0.2469
1,1,1,3,3­
PENTAFLUORO­
2,2­
DICHLOROP
0.99
1.0496
1
0.9902
128903­
21­
9
1,1,1,3,3­
PENTAFLUORO­
2,3­
DICHLOROP
0.99
1.0541
1
0.9888
431­
86­
7
1,1,1­
TRIFLUORO­
2­
CHLOROETHANE
0.99
1.0497
1
0.8923
75­
88­
7
1,1,2
TRICHLOROETHANE
0.99
1.0253
1
0.608
79­
00­
5
1,1,2
TRICHLOROTRIFLUOROETHANE
R113
0.99
1.0597
1
0.9612
76­
13­
1
1,1,3
TRIMETHYLCYCLOPENTANE
0.99
1.1238
1
0.9783
4516­
69­
2
1,10
DECANEDIOL
DINITRATE
0.99
0.0228
0.0393
0.1385
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1,10
DICHLORODECANE
0.99
0.8404
0.7867
0.6645
1,12
DICHLORODODECANE
0.99
0.6318
0.5898
0.2181
1,1­
DICHLORO­
1,2,2­
TRIFLUOROETHANE
0.99
1.0529
1
0.9768
812­
04­
4
1,1­
DICHLORO­
1,2,3,3,3­
PENTAFLUO(
M)
0.99
0.999
0.999
0.4728
111512­
56­
2
1,1­
DICHLORO­
1­
FLUOROETHANE
R141B
0.99
1.043
1
0.9647
1717­
00­
6
1,1­
DICHLORO­
2,2,3,3,3­
PENTAFLUOROP
0.99
1.057
1
0.99
422­
56­
0
1,1­
DIFLUOROETHANE
(
R152A)
0.99
1.0769
1
0.9529
75­
37­
6
1,2
BUTANEDIOL
DINITRATE
0.9243
0.0488
0.1403
0.2648
1,2
DECANEDIOL
DINITRATE
0.99
0.0355
0.0607
0.3649
1,2
DIBROMOETHANE
0.99
0.4863
0.987
0.5731
106­
93­
4
1,2
DIBROMOPROPANE
0.99
0.5826
0.9997
0.6382
78­
75­
1
1,2
DICHLOROBENZENE
(­
O)
0.99
1.1341
1
0.6638
95­
50­
1
1,2
DICHLOROETHENE
TRANS
0.99
1.0609
1
0.8836
156­
60­
5
1,2
DICHLOROTETRAFLUOROETHANE
R114
0.99
1.0459
1
0.9677
1,2
DIETHOXYETHANE
0.8919
0.7887
0.9835
0.3714
629­
14­
1
1,2
DIFLUOROBENZENE
0.99
1.1741
1
0.8202
1,2
EPOXYPROPANE
(
PROPYLENEOXIDE)
0.99
0.8268
1
0.4579
75­
56­
9
1,2
ETHANEDIOL
DINITRATE
0.7802
0.026
0.1291
0.1734
628­
96­
6
1,2
HEXANEDIOL
DINITRATE
0.99
0.0597
0.1332
0.2923
1,2
OCTANEDIOL
DINITRATE
0.99
0.0492
0.0938
0.3153
1,2
PENTANEDIOL
DINITRATE
0.9881
0.0586
0.146
0.2855
1,2
PROPANEDIOL
DINITRATE
0.749
0.0284
0.0995
0.2479
6423­
43­
4
1,2,10,11
TETRACHLOROUNDECANE
0.99
0.5252
0.4929
0.213
1,2,3
TRICHLOROBENZENE
0.99
1.1142
1
0.5016
87­
61­
6
1,2,3,4
TETRACHLOROBENZENE
0.99
1.1006
1
0.4259
634­
66­
2
1,2,3,4
TETRAHYDRONAPHTHALENE
(
TETR
0.8873
1.1895
1
0.5792
119­
64­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1,2,3,4TETRACHLORODIBENZO
[
BE][
1,4]
D
0.99
0.0511
0.0494
0.116
30746­
58­
8
1,2,3,5
TETRACHLOROBENZENE
0.99
1.1006
1
0.5038
634­
90­
2
1,2,3­
TRIMETHYL
BENZENE
0.99
1.1997
1
0.6723
526­
73­
8
1,2,4
TRICHLORODIBENZO[
B,
E][
1,4](
M)
0.9808
0.999
0.999
0.282
1,2,4,5
TETRAMETHYLBENZENE
0.99
1.1944
1
0.8789
95­
93­
2
1,2,4­
TRIMETHYLBENZENE
0.99
1.1997
1
0.7446
95­
63­
6
1,2,9,10
TETRACHLORODECANE
0.99
0.6772
0.6364
0.2979
1,2­
DIBROMOTETRAFLUOROETHANE
0.99
0.6864
1
0.9788
124­
73­
2
1,2­
DICHLORO­
1,1,2,3,3­
PENTAFLUOROP
0.99
1.0596
1
0.9891
422­
44­
6
1,2­
DICHLORO­
1,1­
DIFLUOROETHANE
0.99
1.0443
1
0.9498
1649­
08­
7
1,2­
DICHLOROTETRAFLUOROETHANE
0.99
1.0468
1
0.9801
76­
14­
2
1,2­
METHYLENEDIOXY­
4­
PROPENYL
BENZE
0.99
0.2655
0.2659
0.2644
120­
58­
1
1,3
BUTANEDIOL
DINITRATE
0.6105
0.0488
0.1403
0.1627
1,3
DIBROMOBENZENE
0.99
0.657
0.9343
0.6309
108­
36­
1
1,3
DIBROMOPROPANE
0.99
0.5646
0.9799
0.5847
109­
64­
8
1,3
DICHLOROBENZENE
(­
M)
0.99
1.1341
1
0.6633
541­
73­
1
1,3
DICHLOROPROPANE
0.99
1.0466
1
0.6876
142­
28­
9
1,3
DICHLOROPROPENE
0.99
1.071
1
0.6577
542­
75­
6
1,3
DIFLUOROBENZENE
0.99
1.1741
1
0.8275
372­
18­
9
1,3
DIMETHYLNAPHTHALENE
0.99
1.2136
0.9873
0.4419
575­
41­
7
1,3
PROPANEDIOL
DINITRATE*
0.4061
0.0115
0.0416
0.1089
3457­
90­
7
1,3,5
CYCLOHEPTATRIENE
0.99
1.2064
1
0.7682
544­
25­
2
1,3,5
TRICHLOROBENZENE
0.99
1.1142
1
0.5522
108­
70­
3
1,3­
DICHLORO­
1,1,2,3,3­
PENTAFLUOROP
0.99
1.108
1
0.9332
136013­
79­
1
1,3­
DICHLORO­
1,2,2,3,3­
PENTAFLUOROP
0.99
1.0596
1
0.9891
507­
55­
1
1,3­
DIOXOLANE
0.758
0.5994
0.9376
0.3562
646­
06­
0
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1,3­
PROPANEDIOL,
2­
BROMO­
2­
NITRO­
0.1331
0.0223
0.055
0.0386
52­
51­
7
1,4
BUTANEDIOL
DINITRATE
0.3897
0.0244
0.0718
0.081
1,4
DIBROMOBENZENE
0.99
0.657
0.9343
0.6322
106­
37­
6
1,4
DICHLORO­
2­
BUTENE
0.99
1.0789
1
0.5114
764­
41­
0
1,4
DICHLOROBENZENE
(­
P)
0.99
1.1341
1
0.6776
106­
46­
7
1,4
DIFLUOROBENZENE
0.99
1.1741
1
0.8276
1,4
DIMETHYLNAPHTHALENE
0.99
1.207
0.9819
0.4133
571­
58­
4
1,4
DIOXANE
0.3866
0.6183
0.8689
0.2085
123­
91­
1
1,4
PENTADIENE
0.99
1.1675
1
0.9654
591­
93­
5
1,4
PENTANEDIOL
DINITRATE
0.8447
0.0586
0.146
0.18
1,4­
DICHLORO­
2­
BUTENE(
TRANS)
0.99
1.0789
1
0.4028
110­
57­
6
1,5
DICHLOROPENTANE
0.99
1.0559
0.9999
0.548
1,5
DIMETHYLNAPHTHALENE
0.99
1.2183
0.9911
0.4308
571­
61­
9
1,5
HEXADIENE
0.99
1.1548
1
0.9618
592­
42­
7
1,5
HEXANEDIOL
DINITRATE
0.9525
0.0597
0.1332
0.1963
1,5
PENANEDIOL
DINITRATE
0.5838
0.0324
0.0821
0.0875
1,6
HEXANEDIOL
DINITRATE
0.5794
0.0347
0.0785
0.0668
1,7
HEPTANEDIOL
DINITRATE
0.6882
0.1842
0.3223
0.1252
1,8
OCTANEDIOL
DINITRATE
0.9198
0.0305
0.0587
0.0999
1112TETRACHLORO22DIFLUOROETHAN
E
0.99
1.039
1
0.9362
76­
11­
9
1­
BROMODECANE
0.99
0.8404
0.9824
0.5049
112­
29­
8
1­
BROMONONANE
0.99
0.8393
1
0.499
693­
58­
3
1­
CHLORO­
1,1­
DIFLUOROETHANE
0.99
1.0498
1
0.9518
75­
68­
3
1­
CHLORO­
1,2,2,2­
TETRAFLUOROETHANE
0.99
1.0586
1
0.9796
2837­
89­
0
1­
CHLORO­
4­
ISOCYANATOBENZENE
0.7589
0.6554
0.6254
0.0815
104­
12­
1
1­
ETHOXY­
HEXANE
0.99
0.958
1
0.6156
5756­
43­
4
1­
ETHOXY­
OCTANE
0.99
0.982
1
0.5348
929­
61­
3
1H
IMIDAZOLE*
0.99
0.0006
0.0009
0.119
288­
32­
4
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
1­
METHYL
NAPHTHALENE
0.99
1.2036
0.973
0.4355
90­
12­
0
1­
NITROPROPANE
0.9772
0.4963
0.9333
0.4286
108­
03­
2
1­
PENTANOL
(
AMYLALCOHOL)
0.8446
0.399
0.4545
0.1935
71­
41­
0
1­
PENTENE
0.99
1.1236
1
0.9787
109­
67­
1
1­
PROPOXY
2­
PROPANOL
0.5595
0.1464
0.1827
0.1279
1569­
01­
3
2
AMINO­
4­
CHLORO­
6­
CYANOPYRIDINE*
0.99
0.0018
0.0022
0.4727
2
BROMO
2
METHYL
PROPANE
0.99
0.7246
1
0.9332
507­
19­
7
2
BROMOPROPANE
0.99
0.6765
1
0.8823
75­
26­
3
2
BUTANOL
(
SEC
BUTANOL)
0.7458
0.5133
0.6003
0.2281
78­
92­
2
2
BUTANONE
(
METHYL
ETHYL
KETONE,
ME
0.9583
0.872
0.99
0.3693
78­
93­
3
2
BUTEN
1
0L
0.1919
0.4201
0.4785
0.0929
6117­
91­
5
2
BUTEN
3
ONE
(
METHYL
VINYL
KETONE)
0.5437
0.9082
0.991
0.3991
78­
94­
4
2
BUTYL
NITRATE
(
ISOBUTYL
NITRATE)
0.99
0.5294
0.9951
0.7127
543­
29­
3
2
CHLORO
1,1,1
TRIFLUOROETHANE
R133
0.99
1.0497
1
0.9178
2
CHLOROANILINE
0.99
0.2452
0.2381
0.8929
95­
51­
2
2
CHLOROBENZYL
ALCOHOL
0.2746
0.0577
0.0559
0.0544
17849­
38­
6
2
CHLOROBUTANE
0.99
1.0731
1
0.9024
78­
86­
4
2
CHLOROETHYLVINYLETHER
0.99
0.9343
0.9998
0.951
110­
75­
8
2
CHLORONAPHTHALENE
0.99
1.1768
0.9802
0.4038
91­
58­
7
2
CHLOROPENTANE
0.99
1.0722
1
0.9249
625­
29­
6
2
CHLOROPHENOL
0.3233
0.2447
0.2398
0.1583
95­
57­
8
2
ETHYLHEXYL
DODECANOATE
0.99
0.9301
0.9362
0.5374
2
ETHYLHEXYL
HEXANOL
0.99
0.059
0.058
0.2515
2
ETHYLNAPHTHALENE
0.99
1.209
0.9848
0.4308
939­
27­
5
2
HEPTANONE
0.99
0.804
0.8383
0.4062
110­
43­
0
2
IODOPROPANE
0.99
0.4842
1
0.8532
75­
30­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2
METHYL
1
BUTANOL
(
ISOPENTANOL)
0.8801
0.5322
0.5961
0.213
137­
32­
6
2
METHYL
1
PROPANOL
(
ISOBUTANOL)
0.8212
0.6466
0.7563
0.3373
78­
83­
1
2
METHYL
1­
PENTENE
0.99
1.1251
1
0.9704
763­
29­
1
2
METHYL
2
BUTANOL
(
TERTPENTANOL
0.6745
0.7792
0.8644
0.2096
75­
85­
4
2
METHYL
2
BUTENE
0.99
1.1428
1
0.9745
513­
35­
9
2
METHYL
2
PENTANOL
0.9264
0.8054
0.8682
0.2799
590­
36­
3
2
METHYL
2
PROPANOL
(
TERTBUTANOL
0.7145
0.85
0.9826
0.2529
75­
65­
0
2
METHYL
3
BUTEN
2
OL
0.6663
0.8558
0.9194
0.2238
115­
18­
4
2
METHYL
3
PENTANOL
0.8368
0.7367
0.7892
0.286
565­
67­
3
2
METHYL
OCTANE
0.99
1.0975
1
0.9796
3221­
61­
2
2
METHYL
TETRAHYDROFURAN
0.9587
0.9136
1
0.4001
96­
47­
9
2
METHYL
THIOPHENE
0.99
0.815
1
0.7017
554­
14­
3
2
METHYLHEXANE
C7H16
0.99
1.0987
1
0.9826
591­
76­
4
2
METHYLNAPHTHALENE
0.99
1.2271
0.9919
0.4303
91­
57­
6
2
METHYLNONANE
0.99
1.0971
1
0.9782
871­
83­
0
2
METHYLPROPENAL
(
METHACROLEIN)
0.99
0.9108
0.9999
0.5612
78­
85­
3
2
METHYLPROPYLMETHANOATE
(
ISOBUTYL
F
0.99
0.7792
1
0.5839
542­
55­
2
2
NITROPHENOL
0.99
0.011
0.0161
0.4755
88­
75­
5
2
NITROTOLUENE
0.8278
0.5343
0.6574
0.1584
88­
72­
2
2
NONANONE
0.99
0.5965
0.6053
0.4249
821­
55­
6
2
OCTANONE
0.99
0.7078
0.7269
0.4004
111­
13­
7
2
PENTANONE
0.9534
0.8888
0.971
0.3905
107­
87­
9
2
PENTENE
0.99
1.1314
1
0.9743
109­
68­
2
2
PENTYL
NITRATE
0.99
0.5825
0.9855
0.7165
21981­
48­
6
2
PROPANOL
(
ISOPROPANOL)
0.4509
0.74
0.9257
0.2073
67­
63­
0
2
PROPEN
1
OL
(
ALLYL
ALCOHOL)
0.2713
0.5397
0.661
0.1574
107­
18­
6
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2
PROPYL
NITRATE
0.99
0.4568
0.9993
0.742
1712­
64­
7
2
PYRROLIDONE
0.2495
0.0526
0.0985
0.0942
616­
45­
5
2
UNDECANONE
0.99
0.4642
0.4627
0.4243
112­
12­
9
2,2
DIMETHYL
1
PROPANOL
0.8096
0.7792
0.8644
0.2514
75­
84­
3
2,2
DIMETHYL
PROPANOIC
ACID
0.2191
0.1446
0.1839
0.0639
75­
98­
9
2,2
DIMETHYLBUTANE
C6H14
0.99
1.1082
1
0.9809
75­
83­
2
2,2
DIMETHYLHEPTANE
0.99
1.1033
1
0.9798
1071­
26­
7
2,2
DIMETHYLHEXANE
0.99
1.1045
1
0.9765
590­
73­
8
2,2
DIMETHYLOCTANE
0.99
1.1023
1
1.024
15869­
87­
1
2,2
DIMETHYLPENTANE
0.99
1.1061
1
0.9827
590­
35­
2
2,2'
PCB
0.99
1.1368
0.9657
0.3445
13029­
08­
8
2,2,2
TRIFLUOROETHANOL
0.4198
0.8821
1
0.2656
79­
89­
8
2,2,3
TRIMETHYLBUTANE
0.99
1.1194
1
0.9787
464­
06­
2
2,2,3
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9793
52896­
92­
1
2,2,3
TRIMETHYLHEXANE
0.99
1.1137
1
0.9806
16747­
25­
4
2,2,3
TRIMETHYLPENTANE
0.99
1.1162
1
0.9801
564­
02­
3
2,2',
3,3'
PCB
0.99
1.1414
0.9992
0.291
38444­
93­
8
2,2,3,3
TETRAFLUORO
1
PROPANOL
0.0926
0.9412
1
0.1072
2,2,3,3
TETRAMETHYLBUTANE
0.99
1.1228
1
0.9814
594­
82­
1
2,2,3,3
TETRAMETHYLHEXANE
0.99
1.117
1
0.9812
13475­
81­
5
2,2,3,3
TETRAMETHYLPENTANE
0.99
1.1195
1
0.9814
7154­
79­
2
2,2,3,3,3
PENTAFLUORO
1
PROPANOL
0.2233
0.9481
1
0.2059
2,2,3,3,4
PENTAMETHYLPENTANE
0.99
1.1263
1
0.9816
16747­
44­
7
2,2',
3,3',
4,4'
PCB
(
M)
0.974
0.045
0.045
0.1538
383832­
07­
3
2,2,3,4
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9805
52897­
08­
2
2,2,3,4
TETRAMETHYLPENTANE
0.99
1.1241
1
0.9811
1186­
53­
4
2,2,3,4,4
PENTAMETHYLPENTANE
0.99
1.1263
1
0.9815
16747­
45­
8
2,2,3,5
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9796
52897­
09­
3
2,2,4
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9788
14720­
74­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2,2,4
TRIMETHYLHEXANE
0.99
1.1137
1
0.9799
16747­
26­
5
2,2,4,4
TETRAMETHYLHEXANE
0.99
1.117
1
0.981
517532­
65­
3
2,2,4,4
TETRAMETHYLPENTANE
0.99
1.1195
1
0.9806
1070­
87­
7
2,2',
4,4',
5,5'
PCB
0.99
1.1207
1
0.2492
35065­
27­
1
2,2',
4,4',
6,6'
PCB
0.99
1.1207
1
0.3667
33979­
03­
2
2,2,4,5
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9794
16747­
42­
5
2,2',
4,5,5'
PCB
(
M)
0.99
0.0615
0.0615
0.3335
376832­
73­
2
2,2',
4,6,6'
PCB
0.99
1.1303
1
0.388
56558­
16­
8
2,2,5
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9896
20291­
95­
6
2,2,5
TRIMETHYLHEXANE
C9H20
0.99
1.1137
1
0.9805
3522­
94­
9
2,2',
5,5'
PCB
0.99
1.1414
0.9992
0.3249
35693­
99­
3
2,2,5,5
TETRAMETHYLHEXANE
0.99
1.117
1
0.9791
1071­
81­
4
2,2',
5,6'
PCB
0.99
1.1414
0.9992
0.3375
41464­
41­
9
2,2,6
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9791
1190­
83­
6
2,2',
6,6'
PCB
0.99
1.1414
0.9992
0.3577
15968­
05­
5
2,2­
DICHLOROPROPANE
0.99
1.052
1
0.8052
594­
20­
7
2,2'­
OXYBIS(
2­
CHLOROPROPANE)*
0.99
0.9553
0.9851
0.4319
39638­
32­
9
2,3
BUTANEDIOL
DINITRATE
0.9438
0.0883
0.2485
0.3214
2,3
DICHLORO
1
PROPENE
0.99
1.071
1
0.7804
78­
88­
6
2,3
DIMETHYL
1,3
BUTADIENE
0.99
1.1681
1
0.9417
513­
81­
5
2,3
DIMETHYL
2
BUTANOL
0.8872
0.8382
0.891
0.2814
594­
60­
5
2,3
DIMETHYLBUTANE
C6H14
0.99
1.115
1
0.98
79­
29­
8
2,3
DIMETHYLHEPTANE
0.99
1.1079
1
0.9796
3074­
71­
3
2,3
DIMETHYLHEXANE
0.99
1.1097
1
0.9798
584­
94­
1
2,3
DIMETHYLNAPHTHALENE
0.99
1.1936
0.971
0.4259
581­
40­
8
2,3
DIMETHYLOCTANE
0.99
1.1065
1
0.9794
7146­
60­
3
2,3
DIMETHYLPENTANE
C7H16
0.99
1.112
1
0.9786
589­
59­
3
2,3,3
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9804
52896­
93­
2
2,3,3
TRIMETHYLHEXANE
0.99
1.1137
1
0.9799
16747­
28­
7
2,3,3
TRIMETHYLPENTANE
0.99
1.1162
1
0.9814
560­
21­
4
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2,3,3,4
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9878
52897­
10­
6
2,3,3,4
TETRAMETHYLPENTANE
0.99
1.1241
1
0.9814
16747­
38­
9
2,3,3,5
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9801
52897­
11­
7
2,3,4
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9797
52896­
95­
4
2,3,4
TRIMETHYLHEXANE
0.99
1.1183
1
0.9806
921­
47­
1
2,3,4
TRIMETHYLPENTANE
C8H18
0.99
1.1214
1
0.9768
565­
75­
3
2,3,4,4
TETRAMETHYLHEXANE
0.99
1.1211
1
0.9809
52897­
12­
8
2,3,4,5
TETRAMETHYLHEXANE
0.99
1.1252
1
0.9798
52897­
15­
1
2,3',
5
PCB
0.99
1.1487
0.9925
0.3318
38444­
81­
4
2,3,5
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9797
2,3,5
TRIMETHYLHEXANE
0.99
1.1183
1
0.9799
1069­
53­
0
2,3,5,6
TETRACHLOROPHENOL
0.99
0.1658
0.1619
0.9882
935­
95­
5
2,3,6
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9796
4032­
93­
3
2,3­
DICHLORO­
1,1,1,2,3­
PENTAFLUOROPANE
0.99
1.0593
1
0.989
422­
48­
0
2,3­
DIMETHYLPYRIDINE
0.5537
0.8666
0.8273
0.1191
583­
61­
9
2,4
DICHLOROANILINE
0.3974
0.163
0.1583
0.033
554­
00­
7
2,4
DICHLOROPHENOL
0.99
0.1575
0.1541
0.218
120­
83­
2
2,4
DIMETHYL
3
ISOPROPYLPENTANE
0.99
1.1252
1
0.9801
13475­
79­
1
2,4
DIMETHYLHEPTANE
0.99
1.1079
1
0.9795
2213­
23­
2
2,4
DIMETHYLHEXANE
0.99
1.1097
1
0.9806
589­
43­
5
2,4
DIMETHYLOCTANE
0.99
1.1065
1
0.9791
4032­
94­
4
2,4
DIMETHYLPENTANE
C7H16
0.99
1.112
1
0.9822
108­
08­
7
2,4,4'
PCB
0.99
1.1487
0.9925
0.3198
7012­
37­
5
2,4,4
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9794
4032­
92­
2
2,4,4
TRIMETHYLHEXANE
0.99
1.1137
1
0.9804
16747­
30­
1
2,4,5
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9794
20278­
84­
6
2,4,5­
T
TRIETHYLAMMONIUM
SALT
(
M)
0.99
0.999
0.999
0.4728
57213­
69­
1
2,4,6
PCB
0.99
1.1487
0.9925
0.3812
35693­
92­
6
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2,4,6
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9787
2613­
61­
8
2,4/
2,6­
TOLUENEDIISOCYANATE
(
M)
0.99
0.999
0.999
0.4728
26471­
62­
5
2,4­
D,
ISOPROPYL
ESTER*
0.99
0.8643
0.8741
0.3544
94­
11­
1
2,4­
D,
SODIUM
SALT
(
M)
0.99
0.999
0.999
0.4728
2702­
72­
9
2,4­
DICHLOROPHENOXYACETIC
ACID,
2­
B
0.99
0.0337
0.0383
0.0738
1320­
18­
9
2,4'­
DIISOCYANATODIPHENYL
SULFID(
M)
0.99
0.999
0.999
0.4728
757932­
87­
3
2,4­
DIMETHYLPYRIDINE
0.5142
0.8882
0.848
0.1129
108­
47­
4
2,4­
PENTANEDIONE
0.2534
0.1668
0.2097
0.0626
123­
54­
6
2,5
DIMETHYLHEPTANE
0.99
1.1079
1
0.9803
2216­
30­
0
2,5
DIMETHYLHEXANE
0.99
1.1097
1
0.9803
592­
13­
2
2,5
DIMETHYLOCTANE
0.99
1.1065
1
0.9794
2,5
DIMETHYLTETRAHYDROFURAN
0.99
.
.
0.4181
1003­
38­
9
2,5
HEXANEDIOL
DINITRATE
0.8628
0.0964
0.2119
0.1841
2,5
PCB
0.99
1.1318
0.9615
0.3507
34883­
39­
1
2,5,5
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9793
2,5­
DIHYDROFURAN
0.0669
0.9029
1
0.0732
1708­
29­
8
2,5­
DIMETHYLPYRIDINE
0.6013
0.9007
0.8599
0.1334
589­
93­
5
2,6
DICHLOROPHENOL
0.8462
0.2134
0.2087
0.0725
87­
65­
0
2,6
DIMETHYLHEPTANE
0.99
1.1079
1
0.9799
1072­
05­
5
2,6
DIMETHYLNAPHTHALENE
0.99
1.2183
0.9911
0.491
581­
42­
0
2,6
DIMETHYLOCTANE
0.99
1.1065
1
0.9794
2051­
30­
1
2,6­
DIMETHYL
2,5­
HEPTADIEN
4­
ONE
0.99
0.9006
0.863
0.4263
504­
20­
1
2,6­
DIMETHYLANILINE
0.4293
0.1481
0.14
0.0385
87­
62­
7
2,6­
DIMETHYLPHENOL
0.98
0.0774
0.0739
0.108
576­
26­
1
2,6­
DIMETHYLPYRIDINE
0.7136
1.0053
0.9597
0.1619
108­
48­
5
2,7
DICHLORODIBENZO[
B,
E][
1,4]
DIOXIN
0.99
0.0363
0.035
0.2128
33857­
26­
0
2,7
DIMETHYLOCTANE
0.99
1.1065
1
0.9791
1072­
16­
8
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
2­
AMINO­
3­
CHLORO­
5­
PHENYLCYCLOHEXAN
0.0511
0.0025
0.0024
0.0431
2­
CHLORO
2­
METHYLBUTANE
0.99
1.0776
1
0.9127
594­
36­
5
2­
CHLORO­
N­(
2­
CHLOROETHYL)­
NMETHYL
0.99
0.4299
0.4484
0.6379
51­
75­
2
2­
ETHYL
3­
METHOXYPYRAZINE
0.99
0.1712
0.2113
0.1717
25680­
58­
4
2­
ETHYL
HEXANAL
0.99
0.8676
0.8882
0.5247
123­
05­
7
2­
ETHYL­
4­
METHYLPENTYL­
2,4­
DICHL(
M)
0.99
0.999
0.999
0.4728
53404­
37­
8
2­
ETHYLHEXANOL
0.99
0.2563
0.2676
0.2895
104­
76­
7
2­
ETHYLHEXYL
ACRYLATE
0.99
0.5748
0.6135
0.3785
103­
11­
7
2­
ETHYLPYRAZINE
0.9899
0.844
0.952
0.0607
13925­
00­
3
2­
ETHYLPYRIDINE
0.8881
0.8335
0.8007
0.2064
100­
71­
0
2­
FLUOROPROPANE
0.99
1.0988
1
0.9171
420­
26­
8
2­
ISOBUTYL
3­
METHOXYPYRAZINE
0.99
0.1576
0.1819
0.2819
24683­
00­
9
2­
ISOBUTYLPYRAZINE*
0.99
0.1117
0.122
0.0811
2­
METHYL
PENTANE
C6H14
0.99
1.0995
1
0.9755
107­
83­
5
2­
METHYLPYRAZINE
0.9032
0.8413
0.9897
0.0644
109­
08­
0
2­
PENTANOL
(
SEC­
PENTANOL)
0.8414
0.6891
0.7717
0.2168
6032­
29­
7
2­
PHENYLPHENOL,
SODIUM
SALT
(
M)
0.99
0.999
0.999
0.4728
132­
27­
4
2­
PICOLINE
(
ALPHA
PICOLINE)
0.7389
0.8219
0.7955
0.1728
109­
06­
8
3
BROMO
1
PROPENE
(
ALLYL
BROMIDE)
0.99
0.6827
1
0.8323
3
CHLOROANILINE
0.99
0.1084
0.1053
0.893
108­
42­
9
3
CHLOROBENZYL
ALCOHOL
0.8519
0.0345
0.0334
0.0544
873­
63­
2
3
CHLOROPENTANE
0.99
1.0722
1
0.9224
616­
20­
6
3
CHLOROPHENOL
0.6064
0.0361
0.0353
0.0634
108­
43­
0
3
ETHYL
2
METHYLHEPTANE
0.99
1.1065
1
0.9794
14676­
29­
0
3
ETHYL
2
METHYLHEXANE
0.99
1.1079
1
0.9802
16789­
46­
1
3
ETHYL
2
METHYLPENTANE
0.99
1.1097
1
0.981
609­
26­
7
3
ETHYL
2,2
DIMETHYLHEXANE
0.99
1.1117
1
0.9853
20291­
91­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
3
ETHYL
2,2
DIMETHYLPENTANE
0.99
1.1137
1
0.9807
16747­
32­
3
3
ETHYL
2,2,3
TRIMETHYLPENTANE
0.99
1.117
1
0.9816
52897­
17­
3
3
ETHYL
2,2,4
TRIMETHYLPENTANE
0.99
1.1211
1
0.9808
52897­
18­
4
3
ETHYL
2,3
DIMETHYLHEXANE
0.99
1.1117
1
0.9806
52897­
00­
4
3
ETHYL
2,3
DIMETHYLPENTANE
0.99
1.1137
1
0.9809
3
ETHYL
2,3,4
TRIMETHYLPENTANE
0.99
1.1211
1
0.9813
52897­
19­
5
3
ETHYL
2,4
DIMETHYLHEXANE
0.99
1.1159
1
0.9946
7220­
26­
0
3
ETHYL
2,4
DIMETHYLPENTANE
0.99
1.1183
1
0.9799
1068­
87­
7
3
ETHYL
2,5
DIMETHYLHEXANE
0.99
1.1159
1
0.9798
52897­
04­
8
3
ETHYL
3
METHYLHEPTANE
0.99
1.1023
1
0.9803
17302­
01­
1
3
ETHYL
3
METHYLHEXANE
0.99
1.1033
1
0.9809
3
ETHYL
3,4
DIMETHYLHEXANE
0.99
1.1117
1
0.9802
52897­
06­
0
3
ETHYL
4
METHYLHEPTANE
0.99
1.1065
1
0.9802
52896­
91­
0
3
ETHYL
4
METHYLHEXANE
0.99
1.1079
1
0.9798
3074­
77­
9
3
ETHYLHEPTANE
0.99
1.0975
1
0.9843
15869­
80­
4
3
ETHYLHEXANE
0.99
1.098
1
0.9799
619­
99­
8
3
ETHYLOCTANE
0.99
1.0971
1
0.9789
5881­
17­
4
3
ETHYLTHIOPHENE
0.99
0.8547
1
0.5547
52006­
63­
0
3
ISOPROPYL
2
METHYLHEXANE
0.99
1.1159
1
0.9817
3
METHYL
1
BUTENE
0.99
1.1427
1
0.9811
563­
45­
1
3
METHYL
2
NITROPHENOL
0.754
0.0075
0.0104
0.0623
4920­
77­
8
3
METHYL
PYRIDINE
(
3
PICOLINE)
0.8234
0.6853
0.6633
0.1373
108­
99­
6
3
METHYLHEPTANE
C8H18
0.99
1.098
1
0.9809
589­
81­
1
3
METHYLHEXANE
C7H16
0.99
1.0987
1
0.9864
589­
34­
4
3
METHYLNONANE
0.99
1.0971
1
0.9845
5911­
04­
6
3
METHYLOCTANE
0.99
1.0975
1
0.98
2216­
33­
3
3
METHYLTHIOPHENE
0.99
0.815
1
0.8252
3
NITROTOLUENE
0.7961
0.4754
0.585
0.1309
99­
08­
1
3
PENTANONE
0.9634
0.9178
0.9962
0.4001
96­
22­
0
3
PENTYL
NITRATE
0.99
0.591
0.9999
0.7063
82944­
59­
32
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
3,3
DIETHYL
2
METHYLPENTANE
0.99
1.1117
1
0.9817
52897­
16­
2
3,3
DIETHYLHEXANE
0.99
1.1023
1
1.025
17302­
02­
2
3,3
DIETHYLPENTANE
0.99
1.1033
1
0.988
1067­
20­
5
3,3
DIMETHYLHEPTANE
0.99
1.1033
1
0.9802
4032­
86­
4
3,3
DIMETHYLHEXANE
0.99
1.1045
1
0.9816
563­
16­
6
3,3
DIMETHYLPENTANE
C7H16
0.99
1.1061
1
0.9802
562­
49­
2
3,3'
PCB
0.99
1.1368
0.9657
0.3197
2050­
67­
1
3,3,4
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9799
3,3,4
TRIMETHYLHEXANE
0.99
1.1137
1
0.9809
16747­
31­
2
3,3',
4,4'
PCB
0.99
1.1414
0.9992
0.2368
32598­
13­
3
3,3,4,4
TETRAMETHYLHEXANE
0.99
1.117
1
0.9822
5171­
84­
6
3,3,5
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9801
7154­
80­
5
3,3'­
DICHLOROBENZIDINE
DIHYDROCH(
M)
0.99
0.999
0.999
0.4728
612­
83­
9
3,3'­
DIMETHYLBENZIDINE
DIHYDROCH(
M)
0.99
0.999
0.999
0.4728
612­
82­
8
3,4
DIETHYLHEXANE
0.99
1.1065
1
0.9804
19398­
77­
7
3,4
DIMETHYLHEPTANE
0.99
1.1079
1
0.9797
922­
28­
1
3,4
DIMETHYLHEXANE
0.99
1.1097
1
0.9804
583­
48­
2
3,4
DIMETHYLOCTANE
0.99
1.1065
1
0.9799
3,4'
PCB
0.99
1.1368
0.9657
0.3108
2974­
92­
7
3,4,4
TRIMETHYLHEPTANE
0.99
1.1117
1
0.9835
20278­
88­
0
3,4,5
TRIMETHYLHEPTANE
0.99
1.1159
1
0.9839
20278­
87­
9
3,4­
DIMETHYLPYRIDINE
0.3779
0.6303
0.6017
0.0732
583­
58­
4
3,4­
DINITROTOLUENE
0.7051
0.0964
0.1582
0.1032
610­
39­
9
3,5
DIMETHYLHEPTANE
0.99
1.1079
1
0.9798
926­
82­
9
3,5
DIMETHYLOCTANE
0.99
1.1065
1
0.9787
15869­
93­
9
3,5­
DIBROMO­
4­
HYDROXYBENZONITRILE
0.7294
0.04
0.0588
0.0403
1689­
84­
5
3,5­
DIMETHYLPYRIDINE
0.6486
0.7172
0.6847
0.1204
591­
22­
0
3,6
DIMETHYLOCTANE
0.99
1.1065
1
0.9794
15869­
94­
0
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
3­
CHLORO­
2­
METHYLPROPENE
0.99
1.0981
1
0.7381
563­
47­
3
3­
CHLOROPHTHALIC
ANHYDRIDE
0.1981
0.0038
0.0042
0.0528
117­
21­
5
3­
ETHYLPENTANE
0.99
1.0987
1
0.9803
617­
78­
7
3­
ETHYLPRYIDINE
0.9467
0.4816
0.4627
0.154
3­
HEXANOL
0.9745
0.6243
0.6783
0.326
623­
37­
0
3­
METHYLINDOLE
SKATOLE
0.7271
0.1209
0.11
0.0407
83­
34­
1
3­
PENTEN­
2­
OL
0.8844
0.6095
0.6564
0.3194
1569­
50­
2
4
(
1
METHYLPROPYL)
2
NITROPHENOL
0.99
0.003
0.0038
0.2255
3555­
18­
8
4
BROMOTOLUENE
(
P)
0.99
0.8593
0.9999
0.6733
106­
38­
7
4
CHLORO
2
NITROPHENOL
0.99
0.003
0.004
0.1298
89­
64­
5
4
CHLORO
5
METHYL
2
NITROPHENOL
0.99
0.0047
0.006
0.1694
7147­
89­
9
4
CHLOROBENZYL
ALCOHOL
0.2508
0.0403
0.039
0.0544
873­
76­
7
4
CHLOROBIPHENYL
0.99
1.1038
0.9166
0.7593
2051­
62­
9
4
ETHYL
2
METHYLHEPTANE
0.99
1.1065
1
0.9852
52896­
88­
5
4
ETHYL
2
METHYLHEXANE
0.99
1.1079
1
0.9797
3074­
75­
7
4
ETHYL
2,2
DIMETHYLHEXANE
0.99
1.1117
1
0.9793
52896­
99­
8
4
ETHYL
2,3
DIMETHYLHEXANE
0.99
1.1159
1
1.0257
52897­
01­
5
4
ETHYL
2,4
DIMETHYLHEXANE
0.99
1.1117
1
0.9803
52897­
03­
7
4
ETHYL
3
METHYLHEPTANE
0.99
1.1065
1
0.9796
52896­
89­
6
4
ETHYL
3,3
DIMETHYLHEXANE
0.99
1.1117
1
0.9802
52897­
05­
9
4
ETHYL
4
METHYLHEPTANE
0.99
1.1023
1
0.9804
17302­
04­
4
4
ETHYLHEPTANE
0.99
1.0975
1
0.9795
2216­
32­
2
4
ETHYLOCTANE
0.99
1.0971
1
0.9833
15869­
86­
0
4
ISOPROPYLHEPTANE
0.99
1.1065
1
0.9799
52896­
87­
4
4
METHOXY
2
NITROPHENOL
0.99
0.0002
0.0002
0.2587
1568­
70­
3
4
METHYL
1
PENTENE
0.99
1.1344
1
0.9777
691­
37­
2
4
METHYL
2
NITROPHENOL
0.99
0.012
0.0165
0.1673
119­
33­
5
4
METHYL
2
PENTANOL
0.907
0.6795
0.7279
0.3134
108­
11­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
4
METHYLHEPTANE
0.99
1.098
1
0.9809
589­
53­
7
4
METHYLNONANE
0.99
1.0971
1
0.9784
17301­
94­
9
4
METHYLOCTANE
C9H20
0.99
1.0975
1
0.9818
2216­
34­
4
4
NITROTOLUENE
(­
P)
0.5589
0.3392
0.4174
0.0917
99­
99­
0
4
PROPYLHEPTANE
0.99
1.0971
1
0.9792
3178­
29­
8
4,4
DIMETHYLHEPTANE
0.99
1.1033
1
0.9795
1068­
19­
5
4,4
DIMETHYLHEXANE
0.99
1.1045
1
0.9836
28777­
67­
5
4,5
DIMETHYLOCTANE
0.99
1.1065
1
0.9791
4­
CHLORO­
5­
PHENOXYDIMETHYL
PHTHALAT
0.99
0.005
0.0053
0.9435
4­
ETHYLPYRIDINE
0.8907
0.5804
0.5575
0.1324
536­
75­
4
4­
METHYLPYRIDINE
0.7464
0.667
0.6456
0.1157
108­
89­
4
5
ETHYL
2
METHYLHEPTANE
0.99
1.1065
1
0.9789
5
FLUORO
2
NITROPHENOL
0.99
0.0158
0.0217
0.1843
446­
36­
6
5
METHYL
2
NITROPHENOL
0.99
0.0015
0.0021
0.1588
700­
38­
9
5
METHYLNONANE
0.99
1.0971
1
0.9792
15869­
85­
9
5­
METHYLCHRYSENE
0.99
0.0849
0.0677
0.0511
3697­
24­
3
8
METHYL
1­
DECENE
0.99
1.1158
1
0.8666
61142­
79­
8
ABAMECTIN
(
M)
0.99
0.999
0.999
0.4728
71751­
41­
2
ACENAPHTHENE
0.99
1.175
0.9451
0.3357
83­
32­
9
ACENAPHTHYLENE
0.99
1.0937
0.8678
0.313
208­
96­
8
ACETALDEHYDE
0.9531
0.7241
1
0.5037
75­
07­
0
ACETONITRILE
0.6407
0.7783
0.9893
0.354
75­
05­
8
ACETOPHENONE
0.735
0.2943
0.2765
0.138
98­
86­
2
ACETYL
CHLORIDE
0.99
0.8611
1
0.5794
75­
36­
5
ACETYL
DIETHYLMALONATE
0.9868
0.0025
0.0035
0.167
570­
08­
1
ACETYL
KETENE,
DIKETENE
0.125
0.6151
0.8122
0.0788
674­
82­
8
ACETYLAMINOFLUORENE,
2­
0.99
0.4685
0.4695
0.2303
53­
96­
3
ACETYLFURAN
2*
0.6567
0.4121
0.4775
0.1679
1192­
62­
7
ACETYLPYRIDINE
3
0.99
0.0168
0.0182
0.9661
1122­
54­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
ACIFLUORFEN
0.99
0.1371
0.157
0.2953
50594­
66­
6
ACRYLAMIDE,
N­(
HYDROXYMETHYL)­
0.99
0.3881
0.8355
0.4839
924­
42­
5
ACRYLONITRILE
0.9689
0.5999
0.9998
0.4631
107­
13­
1
ADAMANTANE
DICHLORIDE
0.99
0.8046
0.7229
0.4843
ALDRIN
0.99
0.05
0.0452
0.3418
309­
00­
2
ALKYLIMINE
CARBOXYLIC
ACID
N,
SUB(
M)
0.8482
0.125
0.125
0.0864
ALLYL
CHLORIDE
(
3­
CHLORO­
1­
PROPENE)
0.99
1.0918
1
0.841
107­
05­
1
ALLYL
ETHER,
DIALLYL
ETHER
0.99
0.9734
1
0.6267
557­
40­
4
ALLYL
MERCAPTAN
0.99
0.6447
1
0.7272
870­
23­
5
ALLYLAMINE
0.6786
0.818
0.9705
0.3004
107­
11­
9
ALPHA
METHYL
STYRENE
0.99
1.2172
1
0.7293
98­
83­
9
ALPHA
METHYL
STYRENE
DIMERS
0.99
1.1928
0.98
0.7287
ALPHA­
CHLORO­
BETAMETHYLNAPHTHALENE
0.99
1.1874
0.9924
0.7129
5859­
45­
0
ALPHA­
HYDROXYADIPIMIDE
(
M)
0.9247
0.144
0.144
0.1562
AMINO­
2­
CHLOROTOLUENE
4
0.99
0.1407
0.1351
0.7565
95­
74­
9
AMINO­
4­
NITROBENZYL
ALCOHOL
2
(
M)
0.7416
0.149
0.149
0.0865
AMINO­
4­
NITROTOLUENE
2
0.99
0.0029
0.004
0.7963
99­
55­
8
AMINO­
5­
CHLOROPYRIDINE
2
0.99
0.0054
0.0059
0.464
1072­
98­
6
AMINOBENZOIC
ACID
(­
P)
0.4105
0.0002
0.0003
0.0029
150­
13­
0
AMINOCYCLOHEXANE
0.5831
0.8471
0.9077
0.166
108­
91­
8
AMINO­
P'­
METHYLAZOBENZENE
P
(
M)
0.99
0.119
0.119
0.7347
AMINOPROPIONITRILE
3
0.8851
0.0205
0.0299
0.2172
151­
18­
8
AMPHETAMINE
0.99
0.611
0.5749
0.3617
300­
62­
9
AMYL
MERCAPTAN
0.99
0.746
1
0.6807
110­
66­
7
ANETHOLE
0.99
0.6028
0.5586
0.4109
104­
46­
1
ANTHRACENE
0.99
0.1088
0.0867
0.2857
120­
12­
7
AZEPINE*
0.99
0.3584
0.34
0.8088
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
AZIRIDINE
ETHYLENE
IMINE
0.7773
0.7247
1
0.2962
151­
56­
4
BENEFIN
0.99
0.0161
0.0207
0.3042
1861­
40­
1
BENZAL
CHLORIDE
0.99
1.1345
0.9994
0.4938
98­
87­
3
BENZALDEHYDE
0.9383
0.4536
0.4303
0.2487
100­
52­
7
BENZALKONIUM
CHLORIDE
(
M)
0.4082
0.129
0.129
0.0264
BENZENE
0.99
1.2267
1
0.7721
71­
43­
2
BENZENE,
1,1'­
OXYBIS
4­
ISOCYANAT(
M)
0.99
0.999
0.999
0.4728
4128­
73­
8
BENZENE,
1,3­
DIISOCYANATO­
(
M)
0.99
0.999
0.999
0.4728
123­
61­
5
BENZETHONIUM
CHLORIDE
0.3936
0.0328
0.0315
0.1269
121­
54­
0
BENZIDINE
DIHYDROCHLORIDE
(
M)
0.99
0.0964
0.0964
0.9873
531­
85­
1
BENZO(
A)
ANTHRACENE
0.99
0.0203
0.0161
0.1403
56­
55­
3
BENZODIOXANE­
1,3
0.4216
0.2185
0.2327
0.0752
254­
27­
3
BENZOFURAN
2,3
0.99
1.0611
0.9881
0.3674
271­
89­
6
BENZONITRILE
0.9866
1.0478
0.9657
0.345
100­
47­
0
BENZOPHENONE
0.99
0.0118
0.0104
0.7368
119­
61­
9
BENZOTHIAZOLONE
2(
2H)­*
0.9849
0.164
0.1977
0.2841
934­
34­
9
BENZOTHIOPHENE
0.99
0.8836
0.9275
0.4114
11095­
43­
5
BENZOTRICHLORIDE
0.99
1.0688
0.9576
0.3948
98­
07­
7
BENZOYL
CHLORIDE
0.9856
0.6213
0.5971
0.3641
98­
88­
4
BENZYL
CHLORIDE
0.99
1.0811
1
0.4646
100­
44­
7
BENZYL
MERCAPTAN
0.99
0.8821
0.982
0.3993
100­
53­
8
BENZYL
METHYL
ETHER
0.99
0.9704
0.9267
0.363
538­
86­
3
BHC,
ALPHA­
0.99
1.0633
1
0.0941
319­
84­
6
BICYCLO(
4,2,0)
OCTA
1.3.5
TRIENE
0.99
1.2215
1
0.7508
694­
87­
1
BIFENTHRIN
(
M)
0.99
0.999
0.999
0.4728
82657­
04­
3
BIPHENYL
0.99
1.0739
0.8638
0.4056
92­
52­
4
BIS(
1,1,2,2­
TETRACHLOROPROPYL)
ETHE
0.99
0.9597
1
1.0014
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
BIS(
2­
CHLOROISOPROPYL)
ETHER
0.99
0.9476
0.9717
0.3328
108­
60­
1
BIS(
2­
ETHYLHEXYL)
PHTHALATE
0.99
0.0348
0.0361
0.1385
117­
81­
7
BIS(
CHLOROMETHYL)
ETHER
0.99
0.8953
1
0.5718
542­
88­
1
BIS(
TRI­
N­
BUTYLTIN)
OXIDE*
0.99
1.0533
0.9942
0.9927
56­
35­
9
BIURET,
DITHIO­
(
M)
0.99
0.999
0.999
0.4728
541­
53­
7
BROMACIL*
0.99
0.4252
0.6603
0.3622
314­
40­
9
BROMO­
3­
CHLOROBUTADIENE
2
0.99
0.8033
1
0.8066
BROMO­
4­
CHLORO­
6­
CYANOBENZYL
ALCOHO
0.9869
0.0217
0.0276
0.1417
BROMO­
4­
CHLOROCYCLOHEXANE
1
0.99
0.1873
0.2256
0.9477
BROMO­
4­
CYANOMETHYL
BENZOATE
2
0.99
0.072
0.0966
0.9473
BROMO­
4­
CYANOMETHYL
BENZOATE
3
0.99
0.072
0.0966
0.8755
BROMOACETONE
0.3041
0.4103
0.6759
0.1068
598­
31­
2
BROMOBENZENE
0.99
0.8334
1
0.6345
108­
86­
1
BROMOBENZYL
ALCOHOL
­(
M)
0.99
0.0004
0.0005
0.0474
15852­
73­
0
BROMOBENZYL
ALCOHOL
­(
O)
0.45
0.0242
0.0308
0.0474
18982­
54­
2
BROMOBENZYL
ALCOHOL
­(
P)
0.45
0.0242
0.0308
0.0474
873­
75­
6
BROMOCHLOROBENZYL
ALCOHOL
0.5214
0.0282
0.0342
0.083
BROMOCHLORODIFLUOROMETHANE
0.99
0.7536
1
0.9607
353­
59­
3
BROMOCHLOROMETHANE
0.99
0.6695
1
0.7379
74­
97­
5
BROMODICHLOROMETHANE
0.99
0.7354
1
0.6619
75­
27­
4
BROMOETHANE
0.99
0.6105
1
0.8771
74­
96­
4
BROMOETHYL
ACETATE
0.9103
0.4678
0.7963
0.5373
927­
68­
4
BROMOETHYLENE
(
VINYL
BROMIDE)
0.99
0.6288
1
0.9294
593­
60­
2
BROMOFORM
(
TRIBROMOMETHANE)
0.99
0.4795
0.9978
0.4709
75­
25­
2
BROMOMETHANE
0.99
0.5392
1
0.8614
74­
83­
9
BROMOPHENYL
PHENYL
ETHER,
4­
0.99
0.096
0.1055
0.286
101­
55­
3
BROMOPROPIONITRILE
3
0.7182
0.4922
0.799
0.2471
2417­
90­
5
BROMOTRIFLUOROMETHANE
0.99
0.7258
1
0.9782
75­
63­
8
BROMOURACIL,
5­*
0.9166
0.1224
0.2545
0.3053
51­
20­
7
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
BROMOXYNIL
OCTANOATE
0.99
0.0205
0.0269
0.144
1689­
99­
2
BUTADIENE­(
1,3)
0.99
1.1867
1
0.9434
106­
99­
0
BUTADIYNE
(
BIACETYLENE)
0.99
1.28
1
0.8556
460­
12­
8
BUTANAL
(
BUTYRALDEHYDE)
0.9892
0.861
0.9922
0.4477
123­
72­
8
BUTANE
0.99
1.0795
1
0.9856
106­
97­
8
BUTANENITRILE
(
BUTYRONITRILE)
0.5213
0.8784
0.9574
0.414
109­
74­
0
BUTYL
ACRYLATE
0.99
0.7805
0.9096
0.483
141­
32­
2
BUTYL
BENZENE
0.99
1.1809
1
0.8089
104­
51­
8
BUTYL
DODECANOATE
(
BUTYL
LAURATE)
0.99
0.9282
0.9604
0.448
106­
18­
3
BUTYL
ETHANOATE
(
N­
BUTYL
ACETATE)
0.99
0.8079
0.995
0.4648
123­
86­
4
BUTYL
MERCAPTAN
0.99
0.6919
1
0.8523
109­
79­
5
BUTYLAMINE
0.9037
0.8159
0.9513
0.2446
109­
73­
9
BUTYLATE*
0.99
0.4209
0.4414
0.0715
2008­
41­
5
BUTYLBUTOXY
PROPIONATE
0.99
0.1658
0.1741
0.1449
BUTYLISOBUTYRATE
0.99
0.8341
0.9552
0.4891
97­
87­
0
C
2,4
PENTANEDIOL
DINITRATE
0.8886
0.0984
0.2408
0.2351
CAMPHENE
0.99
1.1428
1
0.5229
79­
92­
5
CAPROLACTONE
0.99
0.7449
0.9136
0.3333
502­
44­
3
CARBON
TETRACHLORIDE
0.99
1.0267
1
0.9124
56­
23­
5
CARBONIC
CHLORIDE
FLUORIDE
0.5391
0.9044
1
0.4251
CARBONYL
FLUORIDE*
0.5306
0.8842
1
0.376
303­
50­
4
CARBONYL
SULFIDE*
0.99
0.2597
1
0.9806
463­
58­
1
CHLORACETOPHENONE,
2­
0.5486
0.161
0.1524
0.0492
532­
27­
4
CHLORAL
0.282
0.4443
0.5314
0.0601
302­
17­
0
CHLORAMIDE*
0.8603
.
.
0.2476
10599­
90­
3
CHLORDANE
0.99
0.1794
0.1659
0.2268
57­
74­
9
CHLORENDIC
ANHYDRIDE
0.99
0.0118
0.0126
0.1147
115­
27­
5
CHLORO
2
BUTENE,
1
TRANS
0.99
1.0981
1
0.7175
591­
97­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLORO
2
PROPANONE
0.4513
0.8829
0.9772
0.2868
CHLORO(­
P)
PHENYLHYDRAZINE
0.99
0.0152
0.016
0.4632
1073­
69­
4
CHLORO­
1,3­
CYCLOPENTADIENE
5
0.99
1.1479
1
0.9532
41851­
50­
7
CHLORO­
2,2­
DIBROMOETHANE
1
0.99
0.6164
0.9948
0.5887
CHLORO­
2­
METHOXYBENZOIC
ACID
4
0.99
0.0042
0.0048
0.7156
57479­
70­
6
CHLORO­
2­
NITROBENZYL
ALCOHOL
4
0.1512
0.0014
0.0018
0.0515
22996­
18­
5
CHLORO­
3­
NITRO­
5­
PHENYLCYCLOHEXA(
M)
0.6312
0.1308
0.1308
0.0539
CHLORO­
3­
NITROANILINE
4
0.99
0.006
0.008
0.3965
635­
22­
3
CHLORO­
4­
CYANOBENZYL
ALCOHOL
2
(
M)
0.7433
0.1485
0.1485
0.0936
CHLORO­
4­
HYDROXYBIPHENYL
3
0.99
0.0051
0.0046
0.9621
92­
04­
6
CHLORO­
4­
METHOXY­
6­
AMINOBENZOIC
(
M)
0.99
0.125
0.125
0.4157
CHLORO­
4­
METHYL­
NMETHYLBENZAMID
M)
0.8323
0.1335
0.1335
0.1047
CHLORO­
4­
NITROANISOLE
2
0.2862
0.0381
0.0603
0.0229
4920­
79­
0
CHLORO­
4­
PHENYLPYRIDINE
2
0.6946
0.3313
0.2971
0.0996
CHLORO­
5­
CYANOPHTHALIC
ACID
4
(
M)
0.99
0.1123
0.1123
0.9876
CHLORO­
5­
CYANOTOLUENE
3
(
M)
0.99
0.1495
0.1495
0.6002
CHLORO­
5­
FLUOROTOLUENE
3
0.99
1.1514
1
0.4206
443­
83­
4
CHLOROACETALDEHYDE
0.7616
0.8549
0.9968
0.3537
107­
20­
0
CHLOROALLYL
ALCOHOL
2
0.9269
0.1187
0.1327
0.263
5976­
47­
6
CHLOROAZOBENZENE
0.99
1.1038
0.9166
0.7646
CHLOROBENZENE
0.99
1.1662
1
0.6512
108­
90­
7
CHLOROBENZENESULFONIC
ACID
(­
P)*
0.2734
0.0023
0.0028
0.1062
100­
03­
8
CHLOROBENZOTRICHLORIDE
P
0.99
1.1031
1
0.9395
5216­
25­
1
CHLOROBENZOTRIFLUORIDE,
P
0.99
1.1311
1
0.9527
98­
56­
6
CHLOROBUTADIENE,
1
0.99
1.1237
1
0.9446
CHLOROCOUMARAN
2
0.99
0.3756
0.3809
0.7982
2051­
59­
4
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLOROCROTYL
ESTER
OF
2,4­
D
0.9285
0.1063
0.1098
0.0392
2971­
38­
2
CHLOROCYANOBENZENE
(
1,4)
0.99
1.0711
1
0.9916
873­
32­
5
CHLOROCYCLOHEXANE
0.99
1.0811
1
0.9854
542­
18­
7
CHLOROCYCLOHEXANOL
2
0.99
0.1008
0.1069
0.4916
1561­
86­
0
CHLOROCYCLOHEXANOL
4
0.99
0.0346
0.0361
0.6743
CHLORODIACETYL
0.2491
0.1334
0.1615
0.1113
5559­
62­
6
CHLORODIFLUOROMETHANE
(
R22)
0.99
1.0823
1
0.9417
75­
45­
6
CHLORODIFLUORONITROOXYMETHANE
0.99
0.7313
1
0.4613
CHLORODIMETHYL
PHTHALATE
3
(
M)
0.99
0.1105
0.1105
0.9518
CHLORODIPHENYL
THIOETHER
P
(
M)
0.99
0.1227
0.1227
0.8049
CHLOROETHANE
(
ETHYL
CHLORIDE)
0.99
1.0462
1
0.9118
75­
00­
3
CHLOROETHYLENE
(
VINYL
CHLORIDE)
0.99
1.0808
1
0.9629
75­
01­
4
CHLOROFLUOROBENZENE
P
0.99
1.1516
1
1.0126
352­
33­
0
CHLOROFLUOROMETHANE*
(
R31)
0.99
1.0747
1
0.8894
593­
70­
4
CHLOROFORM
0.99
1.0233
1
0.8047
67­
66­
3
CHLOROHYDROXYPHENYL4
METHYL
BENZ(
M)
0.99
0.0938
0.0938
0.9878
CHLOROIODOMETHANE
0.99
0.486
1
0.698
593­
71­
5
CHLOROMETHANE
(
METHYLCHLORIDE)
0.99
1.04
1
0.8583
74­
87­
3
CHLOROMETHYL
ACETYLENE
0.99
1.1206
1
0.7142
624­
65­
7
CHLOROMETHYL
BENZOATE
P
0.99
0.5295
0.5535
0.9496
1126­
46­
1
CHLOROMETHYL
ETHYL
KETONE
0.99
0.7779
0.8335
0.8094
616­
27­
3
CHLOROMETHYL
METHYL
ETHER
0.9368
0.8395
0.9999
0.51
107­
30­
2
CHLOROMETHYL
PHENYLHYDRAZINE
P
(
M)
0.99
0.1465
0.1465
0.4324
CHLOROMETHYLAMINOIMINE
(
M)
0.99
0.999
0.999
0.9834
CHLORONITROALKOXYIMINE
(
M)
0.9578
0.11
0.11
0.1604
CHLORONITROBENZENE(­
O)
0.99
0.5189
0.6252
0.8136
88­
73­
3
CHLORONITROBENZENE,
P
0.9706
0.5189
0.6252
0.2301
100­
00­
5
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLOROPENTAFLUOROETHANE
0.99
1.0512
1
0.9874
76­
15­
3
CHLOROPENTAFLUOROETHANE
R115
0.99
1.0665
1
0.9784
CHLOROPHENYL
PHENYL
ETHER,
4­
0.99
0.4363
0.393
0.3462
7005­
72­
3
CHLOROPHTHALIC
ANHYDRIDE
4
0.1981
0.0038
0.0042
0.0528
CHLORO­
P'­
METHYLBIPHENYL
P
0.99
1.1484
1
0.7645
1667­
11­
4
CHLOROPRENE
0.99
1.1237
1
0.9719
126­
99­
8
CHLOROPROPANE­
1
0.99
1.0546
1
0.9033
540­
54­
5
CHLOROPROPANE­
2
0.99
1.0646
1
0.8969
75­
29­
6
CHLOROPROPIONITRILE,
3­
0.4559
0.5798
0.6217
0.1603
542­
76­
7
CHLOROPROPYLENE­
2
0.99
1.0902
1
0.858
557­
98­
2
CHLORO­
P­
XYLENE
0.99
1.0879
1
0.6224
104­
82­
5
CHLOROPYRIDINE
2
0.99
0.3669
0.3603
0.662
109­
09­
1
CHLOROSTYRENE
(­
4)
0.99
1.179
1
0.7686
1331­
28­
8
CHLOROTETRAFLUOROETHANE
(
M)
0.99
0.999
0.999
0.4728
63938­
10­
3
CHLOROTETRAHYDROFURAN
3
(
M)
0.99
0.6424
0.6424
0.459
CHLOROTHANONIL
0.9434
0.1912
0.1862
0.0206
1897­
45­
6
CHLOROTHIOPHENOL
P
0.99
0.9079
0.9994
0.4482
106­
54­
7
CHLOROTOLUENE­
4
0.99
1.1644
1
0.7197
106­
43­
4
CHLOROTRIFLUOROMETHANE
(
R13)
0.99
1.0374
1
0.9796
75­
72­
9
CHLOROTRIMETHYLSILANE
0.99
0.7691
1
0.9357
75­
77­
4
CHLOROURACIL,
5­
0.99
0.5294
0.937
0.4107
1820­
81­
1
CHLORPYRIFOS*
0.99
0.0003
0.0003
0.0289
2921­
88­
2
CHRYSENE
0.99
0.0098
0.0077
0.2144
218­
01­
9
CIS
1,2
CYCLOHEXANEDIOL
DINITRATE
0.6497
0.0089
0.0196
0.0761
CIS
1,2
DIMETHYLCYCLOHEXANE
0.99
1.1171
1
0.9654
2207­
01­
4
CIS
1,3
CYCLOHEXANEDIOL
DINITRATE
0.6497
0.0089
0.0196
0.0761
CIS
1,3
DICHLOROPROPENE
0.99
1.071
1
0.7087
10061­
01­
5
CIS
2
BUTENE
0.99
1.1409
1
0.9793
107­
01­
7
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
COPPER
PHTHALOCYANINE
(
M)
0.99
0
0
0.6014
147­
14­
8
COUMARAN
0.99
0.9981
0.943
0.3991
496­
16­
2
CROTONYLENE
(
2­
BUTYNE)
0.99
1.1851
1
0.9858
503­
17­
3
CROTYL
MERCAPTAN
0.99
0.7222
1
0.7172
CUMENE
(
ISOPROPYLBENZENE)
0.99
1.1978
1
0.8297
98­
82­
8
CYANIDEION
0.3234
0.776
0.9864
0.4848
57­
12­
5
CYANOBENZYL
ALCOHOL
P*
0.1562
0.0024
0.0025
0.0453
CYANOGEN
0.99
0.616
1
0.9033
460­
19­
5
CYANOGEN
BROMIDE*
0.99
0.4832
1
0.5879
506­
68­
3
CYANOGEN
CHLORIDE
0.99
0.8375
1
0.7796
506­
77­
4
CYANOMETHYLPHTHALATE
4
(
M)
0.99
0.071
0.071
0.948
CYANOTOLUENE
4
0.9863
0.9691
0.8868
0.2947
104­
85­
8
CYCLOHEPTANE
0.99
1.0933
1
0.9539
291­
64­
5
CYCLOHEXANE
0.99
1.0933
1
0.9663
110­
82­
7
CYCLOHEXANE,
1,1'­
METHYLENEBIS
(
M)
0.99
0.999
0.999
0.4728
5124­
30­
1
CYCLOHEXANE,
1,3­
BIS(
ISOCYANATOM(
M)
0.99
0.999
0.999
0.4728
38661­
72­
2
CYCLOHEXANE,
1,4­
DIISOCYANATO­
(
M)
0.99
0.999
0.999
0.4728
2556­
36­
7
CYCLOHEXANOL
0.9606
0.2425
0.2622
0.1728
108­
93­
0
CYCLOHEXANONE
0.783
0.7033
0.7399
0.2625
108­
94­
1
CYCLOHEXENE
0.99
1.1356
1
0.9387
110­
83­
8
CYCLOHEXENE
1
ONE,
2
0.6829
0.4982
0.5065
0.176
930­
68­
7
CYCLOHEXYL
ACETATE
0.99
0.8456
0.9625
0.3037
622­
45­
7
CYCLOHEXYL­
2,2­
DIPHENYLETHYLAMIN(
M)
0.99
0.0965
0.0965
0.3261
CYCLOHEXYLCYCLOHEXANONE
4
0.99
0.1697
0.1639
0.6202
56025­
96­
8
CYCLOOCTANE
0.99
1.0933
1
0.9498
292­
64­
8
CYCLOPENTADIENE
0.99
1.1984
1
0.917
542­
92­
7
CYCLOPENTANE
0.99
.
.
0.9731
287­
92­
3
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
CYCLOPENTENE
0.604
1.1443
1
0.95
142­
29­
0
CYCLOPHOSPHAMIDE
(
M)
0.99
0.0944
0.0944
0.9841
50­
18­
0
CYCLOPROPANE
C3H6
0.99
1.0933
1
0.9766
75­
19­
4
CYCLOPROPANECARBONITRILE
0.4061
0.7396
0.8032
0.2318
5500­
21­
0
CYFLUTHRIN
(
M)
0.99
0.999
0.999
0.4728
68359­
37­
5
CYHALOTHRIN
(
M)
0.99
0.999
0.999
0.4728
68085­
85­
8
CYMENE,
PARA
0.99
1.1927
1
0.7465
99­
87­
6
CYTOSINE*
0.8367
0.1942
0.3932
0.1746
71­
30­
7
DACTHAL
0.7825
0.0362
0.0399
0.0203
1861­
32­
1
DAUNOMYCIN
(
M)
0.99
0
0
0.7521
20830­
81­
3
DDD,
P,
P'­
0.9715
1.1247
0.989
0.0597
72­
54­
8
DDE,
P,
P'­
0.99
1.1492
0.9997
0.4455
72­
55­
9
DDT
0.99
1.1283
0.9975
0.0662
50­
29­
3
DECAHYDRONAPHTHALENE
(
DECALIN)
0.99
1.1185
1
0.948
91­
17­
8
DECANAL
0.99
0.6363
0.6433
0.5443
112­
31­
2
DECANE
(
C10
LINEAR)
0.99
1.0877
1
0.978
124­
18­
5
DECANOL
0.99
0.0786
0.0807
0.2525
112­
30­
1
DIACETYL
0.6108
0.1776
0.2379
0.5164
431­
03­
8
DIALLATE
0.99
0.7564
0.877
0.8344
2303­
16­
4
DIAMINO­
5­
SULFONYL
BENZYL
2,4
(
M)
0.99
0.1325
0.1325
0.9518
DIAZOMETHANE*
0.99
0.573
0.9995
0.9928
334­
88­
3
DIBENZOFURANS*
0.99
0.7639
0.6665
0.3203
132­
64­
9
DIBROMO­
3­
CHLOROPROPANE,
1,2
0.7086
0.559
0.8631
0.4313
96­
12­
8
DIBROMOCHLOROMETHANE
0.99
0.5851
1
0.7861
124­
48­
1
DIBROMOMETHANE
0.99
0.4927
1
0.5764
74­
95­
3
DIBUTYL
ETHER
0.99
0.958
1
0.7408
142­
96­
1
DIBUTYLAMINE
0.99
0.9134
0.9473
0.3281
111­
92­
2
DICAMBA
SODIUM
SALT
(
M)
0.99
0.999
0.999
0.4728
1982­
69­
0
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
DICHLORO­
1,3­
CYCLOPENTADIENE
5,5(
M)
0.99
0.4132
0.4132
0.9456
DICHLORO­
2­
BUTENE
1,2
0.99
1.0799
1
0.7053
13602­
13­
6
DICHLOROAMINE
(
CHLORIMIDE)*
0.9795
.
.
0.3264
3400­
09­
7
DICHLOROBENZENE
(
MIXED)
0.99
1.1341
1
0.6939
25321­
22­
6
DICHLOROBENZONITRILE,
2,6­
0.9409
0.5164
0.4832
0.0788
1194­
65­
6
DICHLOROBENZOPHENONE
P,
P
0.9831
0.0635
0.0575
0.0494
90­
98­
2
DICHLOROBIPHENYL
(
PARA)
0.99
1.1368
0.9657
0.3261
2050­
68­
2
DICHLOROBUTANE
(
1,4)
0.99
1.0517
1
0.9882
110­
56­
5
DICHLORODIMETHYLSILANE
0.99
0.7979
1
0.9409
75­
78­
5
DICHLORODIPHENYLMETHANE
0.99
0.5203
0.443
0.7737
2051­
90­
3
DICHLOROETHANE(
1,2)
0.99
1.04
1
0.6373
107­
06­
2
DICHLOROETHYL
ETHER
0.8723
0.7111
0.7574
0.398
111­
44­
4
DICHLOROETHYLENE(
1,2)
CIS
0.99
1.0609
1
0.7852
156­
59­
2
DICHLOROFLUOROMETHANE
(
R21)
0.99
1.0396
1
0.8897
75­
43­
4
DICHLOROIODOMETHANE
0.9892
0.5139
0.9061
0.357
594­
04­
7
DICHLOROPENTAFLUOROPROPANE
0.99
1.0596
1
0.9889
127564­
92­
5
DICHLOROPROPANE
1,2
0.99
1.0536
1
0.7296
78­
87­
5
DICHLOROPROPYLENE,
1,2­
(
CIS)
0.99
1.0722
1
0.8082
563­
54­
2
DICHLOROPROPYLENE,
1,2­(
TRANS)
0.99
1.0722
1
0.8913
563­
54­
2
DICHLOROSTYRENE
2,6
0.99
1.1492
1
0.7521
28469­
92­
3
DICHLORO­
TRANS­
ETHYLENE(
1,2)
0.99
1.0609
1
0.7922
540­
59­
0
DICHLOROTRIFLUOROETHANE
(
R123)
0.99
1.0347
1
0.908
306­
83­
2
DICLOFOP­
METHYL
(
M)
0.99
0.999
0.999
0.4728
51338­
27­
3
DICOFOL
0.99
0.0036
0.0033
0.0875
115­
32­
2
DICYCLOPENTADIENE
0.99
1.1984
1
0.7941
77­
73­
6
DIELDRIN
0.99
0.0674
0.0636
0.1872
60­
57­
1
DIEPOXYBUTANE
0.1007
0.6982
0.8815
0.114
1464­
53­
5
DIETHOXYMETHANE
0.99
0.7589
0.9951
0.4523
462­
95­
3
DIETHYL
(
N,
N)
ANILINE
0.99
0.6076
0.5691
0.3416
91­
66­
7
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
DIETHYL
AMINE
0.9728
0.8652
0.9999
0.3974
109­
89­
7
DIETHYL
ETHER
ACID
CHLORIDE
(
M)
0.99
0.3792
0.3792
0.9936
DIETHYL
SULFATE*
0.9094
0.002
0.0037
0.1109
64­
67­
5
DIETHYL
THIOETHER
0.99
0.6956
1
0.6978
352­
93­
2
DIETHYLBENZENE
P
0.99
1.1908
1
0.7263
105­
05­
5
DIETHYLDIISOCYANATOBENZENE
(
M)
0.99
0.999
0.999
0.4728
134190­
37­
7
DIETHYLDIPHENYL
UREA
SYM
0.99
0.6557
0.6967
0.7724
85­
98­
3
DIETHYLUREA
1,1*
0.6128
0.0731
0.1227
0.1004
634­
95­
7
DIFLUROMETHANE
0.99
1.08
1
0.9089
75­
10­
5
DIHYDRO­
5­
OXAZALONE
(
DIHYDROAZLA(
M)
0.99
0.982
0.982
0.7714
DIHYDROSAFROLE*
0.99
0.6303
0.6409
0.2839
94­
58­
6
DIIODOMETHANE
0.99
0.1903
0.6078
0.4866
75­
11­
6
DIISOBUTYLENE
0.99
1.1269
1
0.934
107­
39­
1
DIISODECYL
PHTHALATE
0.99
0.0072
0.0074
0.0214
26761­
40­
32
DIISOPROPYL
BENZENE
(
PARA)
0.99
1.1838
1
0.9386
100­
18­
5
DIISOPROPYL
CARBAMATE*
0.99
0.9186
1
0.9876
2303­
17­
5
DIISOPROPYL
KETONE
0.99
0.9726
0.9998
0.5337
565­
80­
0
DIISOPROPYLAMINE
0.9649
0.9393
1
0.3179
108­
18­
9
DIMETHIPIN
(
M)
0.99
0.999
0.999
0.4728
552932­
64­
7
DIMETHOXY
METHANE
0.9711
0.608
0.9717
0.5157
109­
87­
5
DIMETHYL
AMINE
0.9804
0.7086
0.9964
0.4994
124­
40­
3
DIMETHYL
BENZ(
A)
ANT
7,12
0.99
0.1066
0.0854
0.0743
DIMETHYL
DISULFIDE
0.99
0.3376
0.9917
0.5706
624­
92­
0
DIMETHYL
HYDRAZINE(
1,1)
0.5874
0.2767
0.3821
0.2064
57­
14­
7
DIMETHYL
NITROISOPROPYLAMINE
N,
N(
M)
0.99
0.4387
0.4387
0.3991
DIMETHYL
SULFATE*
0.5486
0.0342
0.086
0.0807
77­
78­
1
DIMETHYL
SULFIDE
(
DMS)
0.99
0.5161
1
0.7624
75­
18­
3
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
DIMETHYL
TRISULFIDE
0.99
0.1166
0.459
0.964
3658­
80­
8
DIMETHYL­
1­
NITROBENZENE
2,4
0.99
0.6858
0.8127
0.7851
25168­
04­
1
DIMETHYLANILINE
N,
N
0.99
0.2186
0.2073
0.5541
121­
69­
7
DIMETHYLCARBAMODITHIOIC
ACID,
IR(
M)
0.99
0.999
0.999
0.4728
14484­
64­
1
DIMETHYLETHYLAMINE
0.3241
0.863
1
0.2469
75­
64­
9
DIMETHYLPHENYLCARBINOL
0.9775
0.1237
0.1179
0.2195
617­
94­
7
DIMETHYLPROPANE
NEOPENTANE
0.99
.
.
0.9834
463­
82­
1
DINITROBENZENE
M
0.0228
0.5641
1
0.2068
99­
65­
0
DINITROTOLUENE
(
MIXED)
0.39
0.0517
0.0848
0.0572
25321­
14­
6
DI­
N­
OCTYL
PHTHALATE
0.9879
0.042
0.0438
0.0222
117­
84­
0
DIOXIN
0.99
0.0004
0.0003
0.1514
1746­
01­
6
DIPHENYL
ETHER
0.99
0.4721
0.4191
0.368
101­
84­
8
DIPHENYL
THIOETHER
0.99
0.4252
0.4131
0.3479
139­
66­
2
DIPHENYLAMINE
0.8763
0.0607
0.0539
0.0585
122­
39­
4
DIPHENYLBUTADIENE
1,3
0.99
1.0401
0.8394
0.5246
886­
65­
7
DIPHENYLCHLOROMETHANE
0.99
1.1818
0.9849
0.751
90­
99­
3
DIPHENYLDIKETONE
0.99
0.0085
0.008
0.7845
134­
81­
6
DIPHENYLETHANE
1,1
0.99
1.2223
0.9955
0.4569
612­
00­
0
DIPHENYLETHANOL
1,1
0.0718
0.0062
0.0055
0.0237
599­
67­
7
DIPHENYLHYDRAZINE,
1,1­
0.99
0.0016
0.0015
0.6385
530­
50­
7
DIPHENYLMETHANE
0.99
0.6277
0.5086
0.2239
101­
81­
5
DIPHENYLNITROSAMINE*
0.99
0.5244
0.5726
0.4576
86­
30­
6
DIPOTASSIUM
ENDOTHALL
(
M)
0.99
0.999
0.999
0.4728
2164­
07­
0
DIPROPYLAMINE
0.99
0.9243
0.9955
0.2978
142­
84­
7
DIPROPYLBUTRAL
0.99
0.6216
0.6177
0.2981
DIPROPYLFORMAMIDE
0.99
0.7174
1
0.7988
6282­
00­
4
DISODIUM
CYANODITHIOIMIDOCARBONA(
M)
0.99
0.999
0.999
0.4728
138­
93­
2
DISULFOTON*
0.7973
.
.
0.0216
298­
04­
4
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
DI­
TERT­
BUTYL­
P­
CRESOL
0.9302
0.199
0.1826
0.0418
128­
37­
0
DIVINYL
KETONE
(
M)
0.99
0.999
0.999
0.4885
D­
LIMONENE
0.99
1.1435
1
0.8745
5989­
27­
5
DODECACHLOROPENTACYCLODECANE
0.99
0.3679
0.3437
0.34
2385­
85­
5
DODECANE
(
C12
LINEAR)
0.99
1.0886
1
0.9812
112­
40­
3
DODECANOIC
ACID
(
LAURIC
ACID)
0.99
0.0375
0.0405
0.0823
143­
07­
7
D­
TRANS­
ALLETHRIN
(
M)
0.99
0.999
0.999
0.4728
28057­
48­
9
EICOSCANE
(
C20
LINEAR)
0.99
1.0905
1
0.3229
112­
95­
8
ENDOSULFAN
0.99
0.02
0.0184
0.1144
115­
29­
7
ENDRIN
ALDEHYDE*
0.9597
0.0055
0.0052
0.0647
7421­
93­
4
EPOXYBUTANE
1,2
0.99
0.8786
1
0.5369
106­
88­
7
EPTAM
(
EPTC)
0.7149
0.784
1
0.1375
759­
94­
4
ETHALFLURALIN
0.99
0.778
0.9877
0.0245
55283­
68­
6
ETHANE
0.99
1.0667
1
0.9901
74­
84­
0
ETHANE,
1,1,2,2­
TETRACHLORO­
1­
FLUOR
0.99
1.0292
1
0.9647
354­
14­
3
ETHANE,
1,2­
DICHLORO­
1,1,2­
TRIFLUOR
0.99
1.0529
1
0.9764
354­
23­
4
ETHANE,
1­
CHLORO­
1,1,2,2­
TETRAFLUOR
0.99
1.0811
1
0.9739
354­
25­
6
ETHANE,
DICHLORO­
1,1,2­
TRIFLUORO(
M)
0.99
0.999
0.999
0.4728
90454­
18­
5
ETHANE,
DICHLOROTRIFLUORO­
(
9CI)
0.99
1.0347
1
0.9751
34077­
87­
7
ETHANETHIOL
(
ETHYL
MERCAPTAN)
0.99
0.5108
1
0.8111
75­
08­
1
ETHANOIC
PEROXYACID
(
PEROXYACETIC
A
0.2286
0.0782
0.185
0.0915
79­
21­
0
ETHANOL
0.3028
0.5857
0.8603
0.1308
64­
17­
5
ETHENYLBENZENE
(
STYRENE)
0.99
1.2286
1
0.8175
100­
42­
5
ETHER
(
DIETHYL
ETHER,
ETHYL
ETHER)
0.99
0.8556
1
0.6887
60­
29­
7
ETHYL
ACETATE
PEROXIDE
(
M)
0.99
0.6594
0.6594
0.6413
ETHYL
ACRYLATE
0.99
0.7652
0.966
0.5133
140­
88­
5
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
ETHYL
BUTANOATE
(
ETHYL
BUTYRATE)
0.99
0.8132
0.9999
0.4878
105­
54­
4
ETHYL
BUTYL
KETONE
0.99
0.929
0.9641
0.3784
106­
35­
4
ETHYL
CHLOROCARBONATE
0.9812
0.6909
0.907
0.426
541­
41­
3
ETHYL
CYANIDE
(
PROPIONITRILE)
0.5568
0.8298
0.9507
0.4009
107­
12­
0
ETHYL
DODECANOATE
0.99
0.9286
0.9766
0.449
106­
33­
2
ETHYL
ETHANOATE
(
ETHYL
ACETATE)
0.99
0.7224
0.9999
0.5166
141­
78­
6
ETHYL
HEPTANOATE
0.99
0.8869
0.9991
0.4335
106­
30­
9
ETHYL
HYDROPEROXIDE
0.1942
0.289
0.5718
0.1021
3031­
74­
1
ETHYL
ISOPROPYL
PEROXIDE
(
M)
0.99
0.9311
0.9311
0.4106
ETHYL
METHACRYLATE*
0.99
0.8387
0.9999
0.5351
97­
63­
2
ETHYL
METHANOATE
(
ETHYL
FORMATE)
0.99
0.6422
1
0.5928
109­
94­
4
ETHYL
METHYL
ETHER
0.99
0.7905
1
0.5726
540­
67­
0
ETHYL
NITRATE
0.99
0.344
0.9988
0.6365
625­
58­
1
ETHYL
PENTANOATE
0.99
0.8431
0.9996
0.4653
539­
82­
2
ETHYL
PROPYL
ETHER
0.99
0.8934
1
0.6373
628­
32­
0
ETHYL
THIOPHANATE
(
M)
0.99
0.0398
0.0398
0.3382
23564­
06­
9
ETHYL
VINYL
ETHER
0.99
0.8896
1
0.819
109­
92­
2
ETHYL­(
2)­
PROPYL­(
3)
ACROLEIN*
0.7802
0.9768
1
0.273
645­
62­
5
ETHYLAMINE
0.9476
0.7105
0.9991
0.4657
75­
04­
7
ETHYLBENZENE
0.99
1.204
1
0.797
100­
41­
4
ETHYLENE
(
ETHENE)
0.99
1.1867
1
0.9875
74­
85­
1
ETHYLENE
GLYCOL
DIMETHYL
ETHER
0.9047
0.6009
0.8604
0.2161
110­
71­
4
ETHYLENE
GLYCOL
MONOBUTYL
ETHER
ACE
0.9246
0.2514
0.3206
0.1338
112­
07­
2
ETHYLENE
GLYCOL
MONOMETHYL
ETHER
AC
0.2846
0.2111
0.3153
0.06
110­
49­
6
ETHYLENE
OXIDE
0.986
0.7116
1
0.4436
75­
21­
8
ETHYLENEBIS
(
DITHIOCARBAMATO))
ZI(
M)
0.99
0.999
0.999
0.4728
12122­
67­
7
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
ETHYLETHOXY
PROPIONATE
0.7316
0.2892
0.3401
0.1366
763­
69­
9
ETHYNE
(
ACETYLENE)
0.99
1.28
1
0.856
74­
86­
2
FENARIMOL
(
M)
0.99
0.999
0.999
0.4728
60168­
88­
9
FENBUTATIN
OXIDE
(
M)
0.99
0.999
0.999
0.4728
13356­
08­
6
FENCHONE,
D­
0.99
0.9312
0.9088
0.3391
4695­
62­
9
FENO
ENOXAPROP
ETHYL
(
M)
0.99
0.999
0.999
0.4728
66441­
23­
4
FENOXYCARB
(
M)
0.99
0.999
0.999
0.4728
724932­
01­
8
FENPROPATHIN*
0.9486
0.0011
0.0011
0.0592
39515­
41­
8
FENVALERATE
(
M)
0.99
0.999
0.999
0.4728
516332­
58­
1
FLUAZIFOP­
BUTYL
(
M)
0.99
0.999
0.999
0.4728
69806­
50­
4
FLUORANTHENE
0.99
0.0487
0.0385
0.082
206­
44­
0
FLUORENE
0.99
1.0207
0.8167
0.3078
86­
73­
7
FLUORINE
(
M)
0.99
0.999
0.999
0.6485
7782­
41­
4
FLUOROBENZENE
0.99
1.1955
1
0.8143
462­
06­
6
FLUOROETHANE
0.99
1.1093
1
0.9461
353­
36­
6
FLUOROMETHANE*
0.99
1.13
1
0.9559
593­
53­
3
FLUOROURACIL,
5­
0.99
0.4655
1
0.9702
51­
21­
8
FLUVALINATE
(
M)
0.99
0.999
0.999
0.4728
69409­
94­
5
FOLPET*
0.99
0.0046
0.0053
0.0339
133­
07­
3
FOMESAFEN
(
M)
0.99
0.999
0.999
0.4728
72178­
02­
32
FONOFOS*
0.9791
0.0037
0.0044
0.0634
944­
22­
9
FORMIC
ACID
0.0297
0.0781
0.2253
0.169
64­
18­
6
FORMIC
ACID,
HEPTYL
ESTER
0.99
0.8534
0.9905
0.3604
112­
23­
2
FORMYL
FLUORIDE*
0.99
0.848
1
0.6859
1493­
02­
3
FREON
11,
TRICHLOROFLUOROMETHANE
0.99
1.0293
1
0.9578
75­
69­
4
FREON
12,
DICHLORODIFLUOROMETHANE
0.99
1.0331
1
0.978
75­
71­
8
FREONS
(
M)
0.99
0.6438
0.6438
0.973
FURFURAL
0.2059
0.2746
0.3155
0.0576
98­
01­
1
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
GAMMA
BHC
(
LINDANE)
0.9329
1.0351
0.9734
0.0552
58­
89­
9
GENERIC
PEROXIDE
WITH
CL
OR
FL
(
M)
0.9782
0.999
0.999
0.2753
GENERIC
PEROXIDE
WITH
FLUORINE
0.8651
0.013
0.033
0.2825
GEOSMIN
(
M)
0.99
0.1338
0.1338
0.4007
23333­
91­
1
GUANINE
(
M)
0.99
0.1494
0.1494
0.9947
73­
40­
5
HEPTACHLOR
0.99
1.0469
0.958
0.459
76­
44­
8
HEPTACHLOR
EPOXIDE
0.99
0.0422
0.0403
0.353
1024­
57­
3
HEPTADECANE
(
C17
LINEAR)
0.99
1.09
1
0.906
629­
78­
7
HEPTANAL
0.99
0.7778
0.8181
0.4547
111­
71­
7
HEPTANE
ISO
0.99
1.0987
1
0.9847
31394­
54­
4
HEPTANE(­
N)
0.99
1.0853
1
0.9761
142­
82­
5
HEXACHLOROBENZENE
0.99
1.0467
0.9662
0.3858
118­
74­
1
HEXACHLOROBUTADIENE
0.99
0.9372
0.883
0.7848
87­
68­
3
HEXACHLOROCYCLOHEXANE
(
ALPHA
ISOMER
0.99
1.0627
0.9994
0.0892
608­
73­
1
HEXACHLOROCYCLOHEXANE
(
ALPHA
ISOMER
0.9758
1.0627
0.9994
0.0892
HEXACHLOROCYCLOPENTADIENE
0.99
0.8865
0.8262
0.8658
77­
47­
4
HEXACHLOROETHANE
0.99
0.5153
0.4987
0.6754
67­
72­
1
HEXACHLORONAPTHALENE
0.99
1.1124
1
0.2258
1335­
87­
1
HEXADECANE
N
0.99
1.0898
1
0.9484
544­
76­
3
HEXAFLUOROACETONE
0.99
0.9748
1
0.9805
684­
16­
2
HEXAFLUOROETHANE
0.99
1.0567
1
0.9878
76­
16­
4
HEXAFLUOROPROPENE
0.99
1.08
1
0.9876
116­
15­
4
HEXAMETHYLENE
1,6
DIISOCYANATE
*
0.99
0.0055
0.0063
0.9722
822­
06­
0
HEXAMETHYLENIMINE
0.7857
0.7455
0.7988
0.1179
111­
49­
9
HEXANAL
0.99
0.8287
0.8902
0.4571
66­
25­
1
HEXANE(­
N)
0.99
1.084
1
0.9784
110­
54­
3
HEXANOL­
1
0.9645
0.3219
0.3548
0.1979
111­
27­
3
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
HEXAZINONE
0.99
0.4216
0.6923
0.4317
51235­
04­
2
HEXEN­
2­
ONE
5
0.9156
0.8851
0.9154
0.3879
109­
49­
9
HEXYL
ETHANOATE
0.99
0.8542
0.9855
0.4723
142­
92­
7
HEXYLAMINE
0.9464
0.7069
0.7658
0.2571
111­
26­
2
HEXYLBENZENE
0.99
1.1658
1
0.852
1077­
16­
3
HYDRAMETHYLNON
(
M)
0.99
0.999
0.999
0.4728
67485­
29­
4
HYDRAZINE
SULFATE
(
1:
1)
(
M)
0.99
0.999
0.999
0.4728
10034­
93­
2
HYDRAZOIC
ACID
(
M)
0.99
0.999
0.999
0.3755
7782­
79­
8
HYDROCYANIC
ACID
0.9452
0.616
1
0.5699
74­
90­
8
HYDROGEN
BROMIDE*
0.99
0.44
1
0.773
10035­
10­
6
HYDROGEN
CHLORIDE*
0.99
1
1
0.4516
7647­
01­
0
HYDROGEN
FLUORIDE*
0.7731
1.13
1
0.6046
7664­
39­
3
HYDROGEN
SULFIDE
0.99
0.3333
1
0.9194
7783­
06­
4
HYDROXY
DIMETHYL
ETHER
0.99
0.0408
0.0805
0.9683
4461­
52­
3
HYDROXY­
1,3­
CYCLOPENTADIENE
5
(
M)
0.99
0.999
0.999
0.7173
HYDROXY­
4­
METHYLTETRAHYDROFURAN
(
M)
0.99
0.9481
0.9481
0.411
HYDROXY­
5­
METHYLDIMETHYL
PHTHALA(
M)
0.99
0.1125
0.1125
0.9379
HYDROXYACETONE
(
ACETOL)
0.7742
0.0254
0.0397
0.217
116­
09­
6
HYDROXYCYCLOHEXANONE
4
0.1201
0.0005
0.0007
0.0923
13482­
22­
9
HYDROXYDIMETHYL
PHTHALATE
4
(
M)
0.99
0.12
0.12
0.9369
HYDROXYMETHYL
ISOPROPYL
KETONE
(
M)
0.99
0.999
0.999
0.6334
HYDROXYMETHYL,
N­
METHYLETHYL
AMI(
M)
0.99
0.999
0.999
0.9638
HYDROXYMETHYLPHENYL
CARBAMATE
N
(
M)
0.9201
0.147
0.147
0.1508
HYDROXYMETHYLVINYL
ETHER
(
M)
0.99
0.4896
0.4896
0.8968
HYDROXYPENTANE
3
0.7921
0.715
0.8007
0.2163
584­
02­
1
IMAZALIL
BASE
(
M)
0.99
0.999
0.999
0.4728
35554­
44­
32
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
IODINE
CHLORIDE*
0.0774
0.4294
1
0.1217
7790­
99­
0
IODOBENZENE
0.99
0.6189
0.9703
0.5328
591­
50­
4
IODOCOUMARAN
2
(
M)
0.99
0.102
0.102
0.3681
IODOETHANE
0.99
0.4208
1
0.8298
75­
03­
6
IRON
PENTACARBONYL
(
M)
0.99
0.999
0.999
0.4728
13463­
40­
6
ISOAMYL
NITRATE
0.99
0.5757
0.974
0.6825
110­
46­
3
ISOBUTANE
0.99
1.1025
1
0.9867
75­
28­
5
ISOBUTYL
ETHANOATE(
ISOBUTYLACETATE)
0.99
0.8232
0.9997
0.5205
110­
19­
0
ISOBUTYLBENZENE
0.99
1.1908
1
0.8913
538­
93­
2
ISOBUTYLENE
0.99
1.1409
1
0.9759
115­
11­
7
ISOBUTYRALDEHYDE
0.99
0.8859
0.9995
0.509
78­
84­
2
ISOCYANO
4
METHYL
BENZENE*
0.8663
0.3658
0.3332
0.1402
7175­
47­
5
ISODECANOL
0.99
0.1885
0.192
0.2613
25339­
17­
7
ISODECYL
OCTYL
ESTER
0.99
1.0308
0.9977
0.5079
ISODRIN
(
M)
0.99
0.999
0.999
0.4728
465­
73­
6
ISOHEPTANOL
0.9787
0.4208
0.447
0.2854
543­
49­
7
ISOPENTANE
0.99
1.1007
1
0.9848
78­
78­
4
ISOPENTANOL
0.9125
0.5016
0.5617
0.2158
123­
51­
3
ISOPENTYL
ETHANOATE
(
ISOAMYL
ACETA
0.99
0.8509
0.9981
0.5161
123­
92­
2
ISOPENTYL
METHANOATE
(
ISOAMYL
FORMA
0.99
0.817
0.9999
0.5625
110­
45­
2
ISOPHORONE
0.616
0.5249
0.5058
0.0901
78­
59­
1
ISOPROPYL
AMINE
0.931
0.8112
1
0.235
75­
31­
0
ISOPROPYL
ETHER
(
DIISOPROPYL
ETHER
0.0192
0.9393
1
0.6014
108­
20­
3
ISOXAFLUTOLE*
(
M)
0.99
0.0153
0.0153
0.3293
141112­
29­
0
LIMONENE
0.99
1.16
1
0.8564
LITHIUM
BROMACIL
(
M)
0.99
0.999
0.999
0.4728
53404­
19­
6
MALEIC
ANHYDRIDE
0.5715
0.01
0.0156
0.0915
108­
31­
6
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
MESITYL
OXIDE
0.9173
0.8547
0.8715
0.3189
141­
79­
7
METHANE
0.99
1.0667
1
0.9961
74­
82­
8
METHANETHIOL(
METHYL
MERCAPTAN)
0.99
0.3333
1
0.839
74­
93­
1
METHANOL
0.3166
0.433
0.8547
0.2062
67­
56­
1
METHOXYACETIC
ACID
0.5928
0.0054
0.0102
0.0599
625­
45­
6
METHOXYACETONITRILE
0.7975
0.1026
0.1514
0.5443
1738­
36­
9
METHOXYBENZENE
(
ANISOLE)
0.99
1.0321
0.9973
0.7082
100­
66­
3
METHOXYCHLOR
0.99
0.0912
0.087
0.0724
72­
43­
5
METHYL
2­
PROPYL
ETHER
0.99
0.863
1
0.6295
598­
53­
8
METHYL
ACRYLATE
0.99
0.7345
0.9884
0.4239
96­
33­
3
METHYL
ACRYLONITRILE*
0.9108
0.9597
0.9729
0.5145
126­
98­
7
METHYL
AMINE
0.9097
0.5158
0.9919
0.509
74­
89­
5
METHYL
AMINOACETYLENE
(
M)
0.99
0.999
0.999
0.9579
METHYL
BENZOATE
0.9646
0.3348
0.3568
0.2508
93­
58­
3
METHYL
BENZYL
ALCOHOL
4
0.9169
0.0582
0.0555
0.1722
589­
18­
4
METHYL
BIPHENYL
(­
P)
0.99
1.1524
0.9328
0.7484
644­
08­
6
METHYL
BUTANOATE
0.99
0.7748
1
0.481
623­
42­
7
METHYL
CHLOROACETAMIDE
N
0.6712
0.2875
0.4623
0.1683
96­
30­
0
METHYL
CHLOROCARBONATE
0.99
0.7027
0.9862
0.903
79­
22­
1
METHYL
CHOLANTHRENE
3
0.99
0.0367
0.0293
0.2701
56­
49­
5
METHYL
COUMARAN
2
0.99
0.1287
0.129
0.7955
607­
71­
6
METHYL
DECANOATE
0.99
0.7429
0.8086
0.4182
110­
42­
9
METHYL
DOCOSANOATE
(
METHYL
BEHENATE
0.99
0.7766
0.7754
0.7815
929­
77­
1
METHYL
DODECANOATE
0.99
0.931
0.9888
0.4469
111­
82­
0
METHYL
EICOSANOATE
(
METHYL
ARACHIDA
0.99
0.8882
0.9024
0.7167
1120­
28­
1
METHYL
ERUCATE
0.99
0.8191
0.8103
0.4566
1120­
34­
9
METHYL
ETHANOATE
(
METHYL
ACETATE)
0.9562
0.6522
1
0.4756
79­
20­
9
METHYL
ETHER
DIMETHYL
ETHER
0.99
0.6984
1
0.9266
115­
10­
6
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
METHYL
HEXADECANOATE
0.99
0.4664
0.4793
0.5416
112­
39­
0
METHYL
HEXANOATE
0.99
0.8426
0.999
0.4633
106­
70­
7
METHYL
HYDRAZINE
0.4948
0.0824
0.1546
0.121
60­
34­
4
METHYL
HYDROPEROXIDE
0.0714
0.1936
0.5799
0.1308
3031­
73­
0
METHYL
IODIDE
0.99
0.3544
1
0.7923
74­
88­
4
METHYL
ISOAMYL
KETONE
0.99
0.8721
0.8983
0.6668
110­
12­
3
METHYL
ISOBUTYL
KETONE
(
MIBK)
0.99
0.9334
0.9787
0.5417
108­
10­
1
METHYL
ISOPROPYL
KETONE
0.986
0.9223
0.9907
0.5838
563­
80­
4
METHYL
ISOTHIOCYANATE
(
M)
0.99
0.999
0.999
0.4728
556­
61­
6
METHYL
LINOLATE
0.99
0.9818
0.9647
0.2747
112­
63­
0
METHYL
LINOLENATE
0.9836
0.0231
0.0228
0.1666
301­
00­
8
METHYL
METHACRYLATE
0.9863
0.7614
0.9546
0.4244
80­
62­
6
METHYL
METHANOATE
(
METHYL
FORMATE)
0.6826
0.5362
0.9987
0.6005
107­
31­
3
METHYL
MORPHOLINE
0.4131
0.3653
0.4749
0.0605
109­
02­
4
METHYL
NITRATE
0.99
0.2081
0.9998
0.6479
598­
58­
3
METHYL
OCTADECANOATE
0.99
0.8882
0.9024
0.5456
112­
61­
8
METHYL
OCTANOATE
0.99
0.8793
0.9906
0.4743
111­
11­
5
METHYL
OLEATE
0.99
0.9197
0.924
0.3814
112­
62­
9
METHYL
PENTANOATE
0.99
0.8131
0.9998
0.4702
624­
24­
8
METHYL
PROPANOATE
(
METHYL
PROPIONAT
0.99
0.7241
1
0.491
554­
12­
1
METHYL
PROPYL
ETHER
0.99
0.8478
1
0.7154
557­
17­
5
METHYL
PROPYL
SULFIDE
0.99
0.6956
1
0.7113
3877­
15­
4
METHYL
TERT­
BUTYL
ETHER
0.99
0.9105
1
0.5695
1634­
04­
4
METHYL
TETRADECANOATE
0.99
0.9331
0.9729
0.4914
124­
10­
7
METHYL
THIOPHENOL
4
0.99
0.902
0.9998
0.5039
106­
45­
6
METHYL­
1,3­
CYCLOPENTADIENE
5
0.99
1.19
1
0.9353
26519­
91­
5
METHYL­
2,3,4­
TRIHYDROQUINOLINE
N
0.9876
0.8012
0.7493
0.1545
491­
34­
9
METHYL­
2­
AMINOETHYLAMINE
0.99
0.0147
0.023
0.979
109­
81­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
METHYL­
2­
HYDROXYETHYLAMINE
0.8728
0.0152
0.0241
0.1297
109­
83­
1
METHYL­
3­
ACETYLCYCLOPENTADIENE
1(
M)
0.99
0.8971
0.8971
0.777
METHYL­
3­
NITROBENZYL
ALCOHOL
4
0.3192
0.0007
0.001
0.0902
40870­
59­
5
METHYL­
4­
NITROBENZYL
ALCOHOL
2
0.1598
0.0007
0.001
0.0513
23876­
13­
3
METHYL­
5­
THIOACETYLDIHYDRO1,3THI(
M)
0.994
0.146
0.146
0.9553
METHYLBUTADIENE
(
ISOPRENE)
0.99
1.1755
1
0.9597
78­
79­
5
METHYLBUTYLAMINE
0.99
0.7912
0.8835
0.3238
110­
68­
9
METHYLCHLORPYRIFOS
(
M)
0.5388
0.999
0.999
0.0661
5598­
13­
0
METHYLCYCLOHEXANE
0.99
1.1069
1
0.9716
108­
87­
2
METHYLCYCLOPENTANE
0.99
1.1092
1
0.9752
96­
37­
7
METHYLENE
CHLORIDE,
DICHLOROMETHANE
0.99
1.0167
1
0.7886
75­
09­
2
METHYLFURAN
2*
0.99
0.9876
1
0.8139
534­
22­
5
METHYLISOBORNEOL,
2­
0.99
0.2848
0.2833
0.2741
2371­
42­
8
METHYLPHENYL
CARBAMATE
N
0.99
0.0013
0.0016
0.1674
1943­
79­
9
METHYL­
PHENYLETHYLAMINE
N
0.99
0.4696
0.4418
0.5815
589­
08­
2
METHYL­
P'­
METHYLTRIPHENYL
PHOSPH(
M)
0.99
0.0789
0.0789
0.8434
METHYLSTYRENE
(­
4)
0.99
1.2172
1
0.6776
622­
97­
9
METHYLTIN
TRICHLORIDE
(
M)
0.4702
0.105
0.105
0.0282
993­
16­
8
METHYLTRICHLOROSILANE
0.99
0.8188
1
0.9582
75­
79­
6
METHYL­
TRIHYDRO­
1,3­
THIAZOLE
4
(
M)
0.99
0.9141
0.9141
0.357
METIRAM
(
M)
0.99
0
0
0.4232
9006­
42­
2
MITOMYCIN
C*
(
M)
0.99
0.0578
0.0578
0.9471
50­
07­
7
MNNG
(
M)
0.99
0.1994
0.1994
0.9536
70­
25­
7
MOLINATE*
0.99
0.0236
0.0289
0.0654
2212­
67­
1
MONURON
0.99
0.6878
0.8405
0.3513
150­
68­
5
MORPHOLINE
0.99
0.1484
0.2067
0.4779
110­
91­
8
N
METHYL
PYRROLIDINE
0.99
0.8507
0.9381
0.3121
120­
94­
5
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
NALED
0.99
0.0113
0.018
0.2702
300­
76­
5
NAPHTHALENE
0.99
1.2388
0.9937
0.5877
91­
20­
3
NAPHTHALENE,
1,5­
DIISOCYANATO­
(
M)
0.99
0.999
0.999
0.4728
3173­
72­
6
NAPHTHOQUINONE­
1,4
0.7199
0.0016
0.0015
0.2066
130­
15­
4
NITRAPYRIN
0.99
0.6441
0.6251
0.3421
1929­
82­
4
NITRO
M
XYLENE,
2
0.99
0.7789
0.923
0.3651
81­
20­
9
NITRO­
4­
METHYLBENZOATE
3
(
M)
0.99
0.1275
0.1275
0.9511
NITROBENZENE
0.8079
0.3052
0.3941
0.2301
98­
95­
3
NITROBENZENESULFONYL
CHLORIDE
P
(
M)
0.99
0.1142
0.1142
0.3755
98­
74­
8
NITROBENZYL
ALCOHOL
P
0.8684
0.0004
0.0005
0.4339
619­
73­
8
NITROBIPHENYL,
4­
0.6348
0.0437
0.0455
0.0301
92­
93­
3
NITROCELLULOSE
(
M)
0.99
0
0
0.2027
9004­
70­
0
NITROETHANE
0.9553
0.4062
0.9515
0.4316
79­
24­
3
NITROMETHANE
0.99
0.2545
0.9542
0.622
75­
52­
5
NITROPROPANE
2
0.9846
0.5309
0.9894
0.4403
79­
46­
9
NITROSOBENZYL
ALCOHOL
4
(
M)
0.9005
0.4047
0.4047
0.1588
NITROSOMORPHOLINE
0.99
0.0067
0.0124
0.3524
59­
89­
2
N­
NITROSODIBUTYLAMINE
0.99
0.0855
0.0954
0.1183
924­
16­
3
N­
NITROSODIETHYLAMINE
0.896
0.0888
0.1143
0.0894
55­
18­
5
N­
NITROSOMETHYLVINYLAMINE*
0.9464
0.5287
0.7049
0.2803
4549­
40­
0
NONADECANE
(
C19
LINEAR)
0.99
1.0903
1
0.5359
629­
92­
5
NONANAL
0.99
0.6766
0.6912
0.4839
124­
19­
6
O
TOLUIDINE
0.4585
0.1591
0.1522
0.0527
95­
53­
4
O,
O­
DIMETHYL
PHOSPHOROCHLORIDOTH(
M)
0.99
0.999
0.999
0.4728
2524­
03­
0
O­
ANISIDINE
HYDROCHLORIDE
(
M)
0.99
0.999
0.999
0.4728
134­
29­
2
OCTACHLORONAPHTHALENE
0.99
1.0982
1
0.354
2234­
13­
1
OCTADECANE
(
C18
LINEAR)
0.99
1.0902
1
0.7116
593­
45­
3
OCTAFLUOROCYLCLOBUTANE
0.99
1.08
1
0.977
115­
25­
3
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
OCTAMETHYLPYROPHOSPHORAMIDE
(
M)
0.99
0.0819
0.0819
0.9907
152­
16­
9
OCTANAL
0.99
0.7485
0.7745
0.4685
124­
13­
0
OCTANE
0.99
1.0863
1
0.9832
111­
65­
9
OCTANOL
2
0.99
0.3814
0.3983
0.2401
123­
96­
6
OCTANOL
3
0.99
0.5136
0.5363
0.1017
589­
98­
0
OCTANOL
4
0.99
0.4462
0.4659
0.1228
589­
62­
8
O­
THIOCRESOL
0.99
0.7905
0.8762
0.3716
137­
06­
4
OXACYCLOPENTADIENE
(
FURAN,
FURFURAN)
0.99
0.9833
1
0.8338
110­
00­
9
OXAMIC
ACID*
0.99
.
0.0001
0.3894
471­
47­
6
OXYDEMETON
METHYL
(
M)
0.99
0.999
0.999
0.4728
301­
12­
2
P
BROMOCHLOROBENZENE
0.99
0.8686
1
0.5305
106­
39­
8
P
TOLUIDINE
0.8496
0.2741
0.2621
0.2305
106­
49­
0
PARAFORMALDEHYDE
(
M)
0.99
0
0
0.3198
30525­
89­
4
PARALDEHYDE
0.7954
0.7173
0.9906
0.2573
123­
63­
7
PCB
AROCLOR
1016
(
MONOCHLOROBIPHENY
0.99
1.1038
0.9166
0.3302
12674­
11­
2
PCB
AROCLOR
1221
(
MONOCHLOROBIPHEN
0.99
1.1038
0.9166
0.3682
11104­
28­
2
PCB
AROCLOR
1232
(
DICHLOROBIPHENY
0.99
1.1368
0.9657
0.4569
11141­
16­
5
PCB
AROCLOR
1242
(
TRICHLOROBIPHEN
0.99
0.4727
0.4084
0.3757
53469­
21­
9
PCB
AROCLOR
1248
(
QUATROCHLOROBIPHE
0.99
1.14
0.998
0.3509
12672­
29­
6
PCB
AROCLOR
1254
(
PENTACHLOROBIPHEN
0.99
0.7979
0.7059
0.3662
11097­
69­
1
PCB
AROCLOR
1260
(
HEXACHLOROBIPHEN
0.99
0.4035
0.36
0.3405
11096­
82­
5
PCB
AROCLOR
1268
0.99
0.2777
0.2478
0.3509
111032­
14­
4
PCB'S
(
AROCLORS)
0.99
1.1422
1
0.3575
1336­
36­
3
PEBULATE
0.99
0.4921
0.7308
0.6317
1114­
71­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
PENTACHLOROBENZENE
0.99
1.0908
1
0.7221
608­
93­
5
PENTACHLORODECANE
ISOMERS
0.99
0.651
0.6147
0.194
PENTACHLOROETHANE
0.99
0.9912
0.9656
0.6441
76­
01­
7
PENTACHLORONITROBENZENE
0.7355
0.7739
0.8385
0.0375
82­
68­
8
PENTACHLOROPHENOL,
NA
SALT
(
M)
0.99
0.999
0.999
0.4728
131­
52­
2
PENTACHLOROUNDECANE
ISOMERS
0.99
0.4759
0.4487
0.0989
PENTADECANE
(
C15
LINEAR)
0.99
1.0896
1
0.9598
629­
62­
9
PENTADIENE
1,2
0.99
1.1908
1
0.968
591­
95­
7
PENTANAL
(
VALERALDEHYDE)
0.99
0.8755
0.968
0.4692
110­
62­
3
PENTANE
0.99
1.0822
1
0.9843
109­
66­
0
PENTANEDINITRILE,
2­
BROMO­
2­
(
BROMOM
0.9832
0.2477
0.3733
0.1304
35691­
65­
7
PENTYL
ETHANOATE
(
N
AMYL
ACETATE)
0.99
0.8367
0.9934
0.3159
628­
63­
7
PENTYL
PROPANOATE
(
AMYL
PROPIONATE
0.99
0.8657
0.9977
0.512
624­
54­
4
PENTYLAMINE
0.893
0.7923
0.8846
0.2701
110­
58­
7
PENTYLBENZENE
0.99
1.1726
1
0.8491
538­
68­
1
PENTYLCYCLOPENTANE
0.99
1.1029
1
0.9715
3741­
00­
2
PERCHLOROMETHYL
MERCAPTAN
0.99
0.8442
0.9946
0.6467
594­
42­
3
PERMETHRIN
(
M)
0.99
0.999
0.999
0.4728
52645­
53­
1
PEROXY
2
PROPENOYL
NITRATE
0.99
0.0276
0.0769
0.6458
PEROXY
ISOBUTRYL
NITRATE
0.99
0.0265
0.0549
0.6254
65424­
60­
4
PEROXY
N
BUTRYL
NITRATE
0.99
0.0073
0.0171
0.5946
PEROXYACETYL
NITRATE
0.99
0.0141
0.0532
0.5605
2278­
22­
0
PEROXYPROPIONYL
NITRATE
0.9816
0.0059
0.0167
0.6044
PHENANTHRENE
0.99
0.2788
0.2221
0.2182
85­
01­
8
PHENOL,
3­(
1,1­
DIMETHYLETHYL)­
0.925
0.1385
0.132
0.0925
585­
34­
2
PHENONTHRIN
0.99
0.0156
0.0148
0.054
26002­
80­
2
PHENOTHIAZINE
(
M)
0.99
0.1254
0.1254
0.8769
92­
84­
2
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
PHENYL
ISOCYANATE
0.99
0.4955
0.5328
0.4306
103­
71­
9
PHENYL
MERCAPTAN
0.99
0.8697
0.9989
0.4792
108­
98­
5
PHENYLACETIC
PEROXIDE
0.971
0.0321
0.0382
0.1732
PHENYLCYCLOHEXANONE
4
0.99
1.0555
0.9687
0.7638
4894­
75­
1
PHENYLPHENOL
P
0.99
0.001
0.0009
0.6147
92­
69­
3
PINENE(
ALPHA­)
0.99
1.1655
1
0.8789
80­
56­
8
PIPERIDINE
0.3658
0.8444
0.9312
0.1044
110­
89­
4
PIRIMIPHOS­
METHYL
(
M)
0.99
0.999
0.999
0.4728
29232­
93­
7
POLYCHLORINATED
DODECANE
ISOMERS
0.99
0.337
0.3174
0.0919
POLYCYCLIC
KETONE
O
(
M)
0.99
0
0
0.8734
POTASSIUM
NMETHYLDITHIOCARBAMAT
M)
0.99
0.999
0.999
0.4728
137­
41­
7
P­
PHENYLENEDIAMINE,
DIHYDROCHLOR(
M)
0.99
0.999
0.999
0.4728
624­
18­
0
PROPANAL
(
PROPIONALDEHYDE)
0.99
0.8126
0.9992
0.4383
123­
38­
6
PROPANE
0.99
1.0751
1
0.988
74­
98­
6
PROPANE
SULTONE,
1,3­*
0.9031
0.2776
0.4574
0.5793
1120­
71­
4
PROPANE,
1,1'­
OXYBIS
3­
CHLORO­
0.8454
0.4735
0.4911
0.177
629­
36­
7
PROPANIL
0.99
0.9043
1
0.8155
709­
98­
8
PROPANONE
(
ACETONE)
0.8432
0.827
0.997
0.3324
67­
64­
1
PROPENAL
(
ACROLEIN)
0.9682
0.8554
1
0.481
107­
02­
8
PROPENYL
BENZENE
0.99
1.2172
1
0.6264
637­
50­
3
PROPIOLACTONE
B
0.6035
0.1985
0.304
0.2145
57­
57­
8
PROPYL
BUTANOATE
(
PROPYL
BUTYRATE)
0.99
0.8432
0.9998
0.4948
105­
66­
8
PROPYL
DODECANOATE
(
PROPYL
LAURATE)
0.99
0.9331
0.9729
0.4443
3681­
78­
5
PROPYL
ETHANOATE
(
PROPYL
ACETATE)
0.99
0.7728
0.9994
0.4729
109­
60­
4
PROPYL
ETHER
(
DIPROPYL
ETHER)
0.99
0.9209
1
0.7004
111­
43­
3
PROPYL
METHANOATE
(
PROPYL
FORMATE)
0.99
0.7139
0.9999
0.5776
110­
74­
7
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
PROPYL
PROPANOATE
(
PROPYL
PROPIONAT
0.99
0.8132
0.9999
0.5023
106­
36­
5
PROPYL(­
N)
BENZENE
0.99
1.1911
1
0.8077
103­
65­
1
PROPYL­
3­
METHOXY
PYRAZINE,
2­
ISO
0.99
0.1768
0.21
0.0508
25773­
40­
4
PROPYLAMINE
0.6076
0.794
0.9903
0.2718
107­
10­
8
PROPYLCYCLOPENTANE
0.99
1.1052
1
0.974
2040­
96­
2
PROPYLENE
(
PROPENE)
0.99
1.1438
1
0.9816
115­
07­
1
PROPYLENE
CHLOROHYDRIN
0.313
0.3379
0.3827
0.1353
127­
00­
4
PROPYLENE
GLYCOL
MONOMETHYLETHER
AC
0.2889
0.4146
0.5722
0.0724
108­
65­
6
PROPYLENIMINE
1,2
2
METHYL
AZIRI
0.681
0.7915
0.9438
0.2559
75­
55­
8
PROPYNE
0.99
1.2
1
0.9189
74­
99­
7
PYRAZINE
0.99
0.6381
0.8
0.101
290­
37­
9
PYRENE
0.99
0.0456
0.0361
0.1046
129­
00­
0
PYRIDINE
0.7987
0.6079
0.5999
0.1964
110­
86­
1
PYRIMIDINE
0.985
0.5578
0.6994
0.0969
289­
95­
2
PYRROLIDINE
0.2684
0.8141
0.9357
0.0691
123­
75­
1
QUINALDINE
0.9858
0.7323
0.6556
0.0804
91­
63­
4
QUIZALOFOP­
ETHYL
(
M)
0.99
0.999
0.999
0.4728
76578­
14­
8
RONNEL
0.99
0.1481
0.1532
0.1211
299­
84­
3
S4CHL.
CYCLOHEX.
00DIMETH.
PHOS.
DIT(
M)
0.99
0.052
0.052
0.292
SAFROLE
0.507
0.7009
0.7135
0.1047
94­
59­
7
SEC
BUTYLBENZENE
0.99
1.1868
1
0.8286
135­
98­
8
SETHOXYDIM
(
M)
0.99
0.999
0.999
0.4728
74051­
80­
2
S­
ETHYL
CYCLOHEXYLETHYLCARBAMOTHIOA
0.4306
0.6489
0.7577
0.0628
1134­
23­
2
SODIUM
DODECYL
SULFATE
(
M)
0.99
0.0808
0.0808
0.3855
151­
21­
3
SODIUM
DODECYLBENZENE
SULFONATE
(
M)
0.9077
0.0829
0.0829
0.1051
25155­
30­
32
SODIUM
PENTOBARBITOL
(
M)
0.99
0.999
0.999
0.4728
57­
33­
0
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
STREPTOZOTOCIN
(
M)
0.99
0.0924
0.0924
0.9964
18883­
66­
4
STYRENE
OXIDE
0.814
0.8831
0.83
0.1852
96­
09­
3
T
2,4
PENTANEDIOL
DINITRATE
0.9524
0.0984
0.2408
0.2719
T
BUTYL
NITRATE
0.99
0.5382
1
0.6607
TAMARON
(
METHAMIDIPHOS)
0.2513
0.4299
0.6721
0.1188
10265­
92­
6
T­
BUTYL
HYDROPEROXIDE
0.99
0.6537
0.9187
0.1765
75­
91­
2
TERBACIL
0.99
0.672
1
0.4759
5902­
51­
2
TERBUFOS
0.99
0.251
0.3125
0.1289
13071­
79­
9
TERPINEOL,
ALPHA
0.99
0.1281
0.125
0.1314
98­
55­
5
TERT­
AMYLBENZENE
0.99
1.1827
1
0.8401
2049­
95­
8
TERT­
BUTYL
ACETATE
0.99
0.8299
1
0.5862
540­
88­
5
TERT­
BUTYLBENZENE
0.99
1.192
1
0.8078
98­
06­
6
TETRACHLOROAQUINONE
0.99
0.7403
0.7658
0.2955
118­
75­
2
TETRACHLOROBENZENE
(
1,2,4,5)
0.99
1.1006
1
0.7669
95­
94­
3
TETRACHLORODIBENZOFURAN
(
2,3,7,8)
0.99
0.5493
0.5014
0.2913
51207­
31­
9
TETRACHLOROETHANE(
1,1,1,2)
0.99
1.0353
1
0.6621
630­
20­
6
TETRACHLOROETHANE(
1,1,2,2)
0.99
1.0152
0.9986
0.5245
79­
34­
5
TETRACHLOROETHENE
0.99
1.0483
1
0.8866
127­
18­
4
TETRACHLOROPHENOL(
2,3,4,6)
0.99
0.6367
0.6216
0.0999
58­
90­
2
TETRACHLOROPROPENE
(
1,1,2,3)
0.99
1.0497
1
0.8066
10436­
39­
2
TETRADECANE
0.99
1.0893
1
0.967
629­
59­
4
TETRAETHYL
LEAD*
0.99
0.9575
0.8891
0.9768
78­
00­
2
TETRAETHYLENE
PENTANE
0.99
1.1827
1
0.9247
TETRAETHYLPYROPHOSPHATE
(
M)
0.99
0.0799
0.0799
0.3261
107­
49­
3
TETRAFLUOROETHENE
0.99
1.08
1
0.9749
116­
14­
3
TETRAFLUOROMETHANE
(
CARBONTETRAFLUORIDE)
0.99
1.0374
1
0.9877
75­
73­
0
TETRAHYDROBENZALDEHYDE
0.8707
0.6781
0.6838
0.24
1321­
16­
0
TETRAHYDROFURAN
(
THF)
0.9158
0.8601
1
0.5563
109­
99­
9
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
TETRAHYDROPYRAN
0.9875
0.898
1
0.4208
142­
68­
7
TETRAHYDROTHIOPHENE
0.99
0.6955
0.9999
0.5811
110­
01­
0
TETRANITROMETHANE*
0.259
0.2667
1
0.1696
509­
14­
8
THIOACETAMIDE
0.9274
0.2177
0.5194
0.2742
62­
55­
5
THIOANISOLE
0.99
0.8638
0.9587
0.4202
100­
68­
5
THIOCYANATE
(
TOTAL
AS
SCN­)(
M)
0.99
0.6424
0.6424
0.9063
463­
56­
9
THIODICARB
(
M)
0.99
0.999
0.999
0.4728
59669­
26­
32
THIOPHENE
0.99
0.7592
1
0.7328
110­
02­
1
THIRAM
(
M)
0.99
0.1048
0.1048
0.957
137­
26­
8
THYMINE
0.99
0.3752
1
0.9935
65­
71­
4
TOLUENE
0.99
1.2149
1
0.78
108­
88­
3
TOLUENE24DIAZOBISMETATOLUENEDIA
M)
0.9863
0.011
0.011
0.1692
TOLUENESULFONYL
CHLORIDE
0.3652
0.046
0.0469
0.0264
98­
59­
9
TOLUIC
ALDEHYDE
0.99
0.3054
0.2867
0.4361
122­
78­
1
TOXAPHENE
0.8136
0.0536
0.0499
0.0545
8001­
35­
2
TRANS
1,2
CYCLOHEPTANEDIOL
DINITRAT
0.8471
0.0107
0.0217
0.0964
TRANS
1,2
CYCLOHEXANEDIOL
DINITRATE
0.923
0.0089
0.0196
0.1436
TRANS
1,2
DIMETHYLCYCLOHEXANE
0.99
1.1171
1
0.969
6876­
23­
9
TRANS
1,3
CYCLOHEXANEDIOL
DINITRATE
0.9105
.
.
0.1202
TRANS
1,3
DICHLOROPROPENE
0.99
1.071
1
0.6751
10061­
02­
6
TRANS
1,4
DIMETHYLCYCLOHEXANE
0.99
1.1171
1
0.9743
2207­
04­
7
TRANS
2
BUTENAL
(
CROTONALDEHYDE)
0.6342
0.8769
0.9628
0.2571
4170­
30­
3
TRANS
2
BUTENE
0.99
1.1409
1
0.9782
624­
64­
6
TRANS
2
HEPTENE
0.99
1.1205
1
0.9706
14686­
13­
6
TRANS
2
HEXENAL
0.9102
0.9481
0.9845
0.3219
6728­
26­
3
TRANS
2
OCTENAL
0.9897
0.8759
0.883
0.3191
2363­
89­
5
TRANS­
TRANS
2,4
HEXADIENAL
0.9574
0.9953
0.999
0.3888
142­
83­
6
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
TRIBENURON­
METHYL
(
M)
0.99
0.0323
0.0323
0.3353
101200­
48­
0
TRIBROMOMETHYLPHOSPHATE
(
M)
0.9797
0.0517
0.0517
0.1771
TRIBUTYL
PHOSPHOROTRITHIOATE
SSS
0.99
.
.
0.2672
78­
48­
8
TRIBUTYL
TIN
ACETATE
0.99
0.929
0.98
0.4315
56­
36­
0
TRICHLORO­
1,3,5­
TRIAZINE
2,4,6
0.99
0.2282
0.2728
0.5601
108­
77­
0
TRICHLOROACETYLCHLORIDE
0.99
0.9557
1
0.4724
76­
02­
8
TRICHLOROANISOLE
2,3,6
0.99
1.0296
0.9972
0.2962
50375­
10­
5
TRICHLOROBENZENE
1,2,4
0.99
1.1142
1
0.5496
120­
82­
1
TRICHLOROBUTANE
1,2,3
0.242
1.0565
1
0.1675
18338­
40­
4
TRICHLOROETHANE
0.99
1.0371
1
0.8982
71­
55­
6
TRICHLOROETHYLENE
0.99
1.0533
1
0.8584
79­
01­
6
TRICHLORONITROMETHANE*
0.99
0.7383
1
0.6757
76­
06­
2
TRICHLOROPHENOL
2,4,5
0.9637
0.1108
0.1083
0.1467
95­
95­
4
TRICHLOROPROPANE
1,1,1
0.99
1.0424
1
0.7067
7789­
89­
1
TRICHLOROPROPANE(
1,1,2)
0.99
1.0371
1
0.9324
598­
77­
6
TRICHLOROPROPANE(
1,2,2)
0.99
1.0465
1
0.9365
3175­
23­
3
TRICHLOROPROPANE(
1,2,3)
0.8438
1.0477
1
0.5764
96­
18­
4
TRICHLOROPROPENE
(
1,1,2)
0.99
1.062
1
0.7923
21400­
25­
9
TRICOSANE
N
(
M)
0.99
0.1328
0.1328
0.9871
638­
6­
5
TRIDECANE
(
C13
LINEAR)
0.99
1.089
1
0.9716
629­
50­
5
TRIETHYLAMINE
0.99
0.9374
1
0.3953
121­
44­
8
TRIETHYLPHOSPHOROTHIOATE,
O,
O,
O­
(
M)
0.9892
0.1259
0.1259
0.703
126­
68­
1
TRIFLUOROACETIC
ACID
0.1464
0.3883
0.4967
0.1521
76­
05­
1
TRIFLUOROACETYLCHLORIDE
0.954
0.9307
1
0.455
TRIFLUOROETHANE(
1,1,1)
0.99
1.0585
1
0.987
420­
46­
2
TRIFLUOROMETHANE
(
R23)
0.99
1.0567
1
0.9773
75­
46­
7
TRIFLUOROMETHYL
BENZENE
0.99
1.1551
1
0.8291
TRIFLURALIN
0.99
0.2004
0.2572
0.2498
1582­
09­
8
TABLE
2
OF
APPENDIX
J­­
Continued
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
TRIIODOMETHANE
(
IODOFORM)
0.99
0.0117
0.0388
0.7286
75­
11­
8
TRIISOBUTYLENE
0.99
1.1165
1
0.8888
7756­
94­
7
TRIISOPROPYLAMINE
0.99
1.0258
1
0.5032
3424­
21­
3
TRIMELLITIC
ANHYDRIDE
(
M)
0.629
0.1289
0.1289
0.0456
552­
30­
7
TRIMETHOXYMETHANE
0.9717
0.2131
0.3512
0.2266
149­
73­
5
TRIMETHYL­
4­
NITROANILINE
2,3,5
(
M)
0.99
0.135
0.135
0.7544
TRIMETHYLAMINE
0.99
0.8111
0.9999
0.6086
75­
50­
3
TRIMETHYLBENZENE
(
1,3,5)
0.99
1.1997
1
0.7323
108­
67­
8
TRIMETHYLPENTANE
2,2,4
0.99
1.1162
1
0.9807
540­
84­
1
TRIMETHYLSILANOL
0.99
0.5333
1
0.4874
1066­
40­
6
TRI­
N­
BUTYLTIN
FLUORIDE
(
M)
0.99
0.999
0.999
0.4728
1983­
10­
4
TRINITROBENZENE,
SYM­
0.2238
0.0128
0.029
0.0317
99­
35­
4
TRINITROTOLUENE(
2,4,6)
0.2428
0.0098
0.0201
0.134
118­
96­
7
TRIPHENYL
PHOSPHINE
(
M)
0.99
0.0939
0.0939
0.2812
603­
35­
0
TRIPHENYLMETHANE
0.99
0.7556
0.608
0.3033
519­
73­
3
TRIPHENYLPHOSPHINE
NICKEL
CARBON(
M)
0.99
0.0365
0.0365
0.5562
TRIPHENYLTIN
CHLORIDE
(
M)
0.99
0.999
0.999
0.4728
639­
58­
7
TRIS
(
1­
AZIRIDINYL)
PHOSPHINE
SU(
M)
0.99
0.1304
0.1304
0.951
52­
24­
4
TRIS
(
2,3­
DIBROMOPROPYL)
PHOSPHA(
M)
0.99
0
0
1.0001
126­
72­
7
UNDECANE
(
C11
LINEAR)
0.99
1.0882
1
0.9857
1120­
21­
4
URACIL
0.99
0.2493
1
0.9522
66­
22­
8
VINYL
ACETATE
0.99
0.7478
1
0.5922
108­
05­
4
VINYL
ACETYLENE
0.99
1.2315
1
0.9437
689­
97­
4
VINYL
DIHYDROPYRAN
0.99
0.9347
1
0.5476
VINYL
METHYL
ETHER
0.99
0.8305
1
0.9074
107­
25­
5
VINYLCYCLOHEXENE
4
0.99
1.1648
1
0.9787
100­
40­
3
XYLENE
0.99
1.2063
1
0.8
1330­
20­
7
TABLE
2
OF
APPENDIX
J­­
Concluded
Compound
fr
m25D
fm
305
Fe
CAS
STAFF
DRAFT
­
09/
30/
2005
XYLENE(­
M)
0.99
1.2063
1
0.7863
108­
38­
3
XYLENE(­
O)
0.99
1.2063
1
0.7688
95­
47­
6
XYLENE(­
P)
0.99
1.2063
1
0.7959
106­
42­
3
XYLYL
CHLORIDE
M
0.99
1.0879
1
0.6111
620­
19­
9
XYLYL
CHLORIDE
O
0.99
1.0879
1
0.6111
552­
45­
4
*
Molecular
structure
only
approximate.
(
M)
Fraction
measured
(
Fm)
estimated
from
Mwt
correlation.
1
The
Fe
values
listed
in
Table
2
are
Fe
values
for
emissions
from
both
the
individual
drain
system
and
the
treatment
process.
Use
these
Fe
values
with
Section
2.5.1.
STAFF
DRAFT
­
09/
30/
2005
TABLE
3
OF
APPENDIX
J­­
FE
VALUES
FOR
EMISSIONS
FROM
BOTH
THE
INDIVIDUAL
DRAIN
SYSTEM
AND
THE
TREATMENT
PROCESS
(
use
with
Section
2.5.1)

Henry's
Law
Constant
Fe
value
0.025
0.01
0.052
0.02
0.081
0.03
0.11
0.04
0.15
0.05
0.18
0.06
0.21
0.07
0.25
0.08
0.28
0.09
0.32
0.1
0.35
0.11
0.39
0.12
0.45
0.13
0.52
0.14
0.60
0.15
0.68
0.16
0.76
0.17
0.83
0.18
0.91
0.19
0.99
0.2
1.2
0.21
1.4
0.22
1.6
0.23
1.8
0.24
2.0
0.25
2.2
0.26
2.4
0.27
2.6
0.28
2.8
0.29
3.0
0.3
3.2
0.31
3.4
0.32
TABLE
3
OF
APPENDIX
J
 
­
Continued
Henry's
Law
Constant
Fe
value
STAFF
DRAFT
­
09/
30/
2005
3.6
0.33
3.8
0.34
4.3
0.35
5.6
0.36
7.0
0.37
8.3
0.38
9.7
0.39
11.5
0.4
13.6
0.41
15.6
0.42
17.6
0.43
19.6
0.44
22.4
0.45
25.4
0.46
28.3
0.47
31.2
0.48
34.2
0.49
37.1
0.5
40.1
0.51
43.8
0.52
47.6
0.53
51.4
0.54
55.1
0.55
58.9
0.56
64.3
0.57
70.4
0.58
76.5
0.59
82.6
0.6
88.7
0.61
94.9
0.62
102.9
0.63
121.1
0.64
TABLE
3
OF
APPENDIX
J
 
­
Continued
Henry's
Law
Constant
Fe
value
STAFF
DRAFT
­
09/
30/
2005
139.3
0.65
157.6
0.66
175.8
0.67
194.0
0.68
212.3
0.69
230.5
0.7
248.7
0.71
266.9
0.72
285.2
0.73
303.4
0.74
321.6
0.75
339.9
0.76
358.1
0.77
376.3
0.78
394.6
0.79
442.3
0.8
502.7
0.81
563.0
0.82
623.4
0.83
683.7
0.84
744.0
0.85
804.4
0.86
864.7
0.87
925.1
0.88
985.4
0.89
1281.9
0.9
1638.9
0.91
1995.9
0.92
2453.0
0.93
3158.0
0.94
5315.6
0.95
8709.6
0.96
TABLE
3
OF
APPENDIX
J
 
­
Concluded
Henry's
Law
Constant
Fe
value
STAFF
DRAFT
­
09/
30/
2005
4190876923.4
0.97
10000000000.0
0.98
STAFF
DRAFT
­
09/
30/
2005
TABLE
4
OF
APPENDIX
J­­
FET
VALUES
FOR
COMPOUNDS
WITH
HENRY'S
LAW
CONSTANTS
AT
25O
C
THAT
ARE
GREATER
THAN
OR
EQUAL
TO
0.1
(
Y/
X)
ATMOSPHERES
PER
MOLE
FRACTION
(
use
with
Section
2.5.3)

Compound
Y/
X
fet
CAS
1
BROMO
2
(
2
PROPYL)
BENZENE
OBROMOCUMENE
326.80
0.538
1
BROMO
2
CHLORO
2
BUTENE
188.90
0.585
544132­
84­
3
1
BROMO
2
CHLOROETHANE
50.50
0.618
107­
04­
0
1
BROMO
2
ETHYLBENZENE
185.20
0.524
1
BROMO
2
METHYL
PROPANE
1292.00
0.748
78­
77­
3
1
BROMO
3
METHYLBUTANE
(
ISOAMYLBROMIDE)
1916.00
0.716
107­
82­
4
1
BROMOBUTANE
6693.00
0.709
109­
65­
9
1
BROMOPENTANE
(
AMYLPENTANE)
1089.00
0.716
1
BROMOPROPANE
396.80
0.743
106­
94­
5
1
BUTANOL
0.43
0.173
71­
36­
3
1
BUTENE
13530.00
0.710
106­
98­
9
1
BUTYL
NITRATE
85.47
0.568
928­
45­
0
1
BUTYNE
(
ETHYLACETYLENE)
1010.00
0.798
107­
00­
6
1
CHLORO
1,1
DIFLUOROMETHANE
R142B
3968.00
0.683
1
CHLORO
1,2,2,2
TETRAFLUOROETHANE
R124
5050.00
0.583
1
CHLORO
2
METHYL
PROPANE
66.14
0.608
513­
36­
0
1
CHLORO
2
METHYLBENZENE
198.40
0.573
95­
49­
8
1
CHLORO
2,3­
EPOXYPROPANE
1.69
0.334
106­
89­
8
1
CHLOROBUTANE
941.60
0.719
109­
69­
3
1
CHLOROHEXANE
(
HEXYL
CHLORIDE)
1355.00
0.723
544­
10­
5
1
CHLORONAPHTHALENE
191.60
0.516
90­
13­
1
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1
CHLOROPENTANE
(
AMYL
CHLORIDE)
2778.00
0.690
543­
59­
9
1
DODECANOL
2.78
0.207
112­
53­
8
1
ETHENYL
2
METHYL
BENZENE
169.30
0.539
611­
15­
4
1
ETHENYL
3
METHYLBENZENE
213.70
0.566
100­
80­
1
1
ETHYL
2
METHYLBENZENE
(
OETHYLTOLUENE
307.80
0.591
611­
14­
3
1
ETHYL
4
METHYLBENZENE
(
PETHYLTOLUENE
277.80
0.574
622­
96­
8
1
ETHYLNAPHTHALENE
20.58
0.350
1127­
76­
0
1
FLUOROPROPANE
896.00
0.778
1
HEPTADECANOL
0.76
0.097
1454­
85­
9
1
HEPTANOL
1.03
0.196
111­
70­
6
1
HEPTENE
22220.00
0.575
592­
76­
7
1
HEPTYNE
3968.00
0.662
628­
71­
7
1
HEXADECANOL
0.93
0.106
36653­
82­
4
1
HEXENE
23150.00
0.542
592­
41­
6
1
HEXYL
NITRATE
82.92
0.527
1
HEXYNE
1208.00
0.721
693­
02­
7
1
IODOBUTANE
881.80
0.698
542­
69­
8
1
IODOPROPANE
505.00
0.703
107­
08­
4
1
ISOCYANO
3­
METHYLBENZENE
0.62
0.137
621­
29­
4
1
METHYLCYCLOHEXENE
4273.00
0.664
591­
49­
1
1
NONANOL
1.95
0.218
143­
08­
8
1
NONENE
46300.00
0.487
124­
11­
8
1
NONYNE
7936.00
0.551
567104
1
OCTADECANOL
0.60
0.077
112­
92­
5
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1
OCTANOL
1.32
0.199
111­
87­
5
1
OCTENE
34970.00
0.523
111­
66­
0
1
OCTYNE
4630.00
0.621
629­
05­
0
1
PENTADECANOL
1.03
0.115
629­
76­
5
1
PENTYL
NITRATE
(
AMYL
NITRATE)
92.59
0.575
1002­
16­
0
1
PENTYNE
1355.00
0.760
627­
19­
0
1
PROPANETHIOL
222.20
0.701
107­
03­
9
1
PROPANOL
0.51
0.171
71­
23­
8
1
PROPYL
NITRATE
70.55
0.619
627­
13­
4
1
TETRADECANOL
1.13
0.124
112­
72­
1
1­(
4­
CHLOROPHENYL)
ETHANOL
435.00
0.656
544855
1­(
CHLOROMETHYL)
NAPHTHALENE
65.00
0.408
86­
52­
2
1,1
DICHLOROBUTANE
427.30
0.684
541­
33­
3
1,1
DICHLOROETHENE
VINYLIDENE
CHLORIDE
1431.00
0.746
75­
35­
4
1,1
DICHLOROTETRAFLUOROETHANE
R114
94160.00
0.490
1,1
DIETHOXYETHANE
(
ACETAL)
5.56
0.394
105­
57­
7
1,1
DIFLUOROETHENE*
22220.00
0.818
75­
38­
7
1,1,1
TRIFLUORO
2
PROPANOL
1.24
0.237
1,1,1
TRIFLUORO
2
PROPANONE
0.40
0.124
1,1,1
TRIMETHOXYETHANE
0.85
0.195
1445­
45­
0
1,1,1,2
TETRAFLUOROETHANE
(
R134A)
1029.00
0.694
811­
97­
2
1,1,1,2­
TETRACHLORO­
2­
FLUOROETHANE
6666.00
0.595
354­
11­
0
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1,1,1,3,3,3
HEXAFLUORO
2
PROPANOL
2.32
0.238
1,1,1,3,3­
PENTAFLUORO­
2,2­
DICHLOROPROPAN
14790000.00
0.821
128903­
21­
9
1,1,1,3,3­
PENTAFLUORO­
2,3­
DICHLOROPROPAN
4414000.00
0.797
431­
86­
7
1,1,1­
TRIFLUORO­
2­
CHLOROETHANE
897.20
0.738
75­
88­
7
1,1,2
TRICHLOROETHANE
54.30
0.548
79­
00­
5
1,1,2
TRICHLOROTRIFLUOROETHANE
R113
17590.00
0.493
76­
13­
1
1,1,3
TRIMETHYLCYCLOPENTANE
86800.00
0.628
4516­
69­
2
1,10
DECANEDIOL
DINITRATE
1.29
0.134
1,10
DICHLORODECANE
277.80
0.522
1,12
DICHLORODODECANE
3.47
0.208
1,1­
DICHLORO­
1,2,2­
TRIFLUOROETHANE
121500.00
0.595
812­
04­
4
1,1­
DICHLORO­
1­
FLUOROETHANE
R141B
7032.00
0.679
1717­
00­
6
1,1­
DICHLORO­
2,2,3,3,3­
PENTAFLUOROPROPAN
12590000.00
0.818
422­
56­
0
1,1­
DIFLUOROETHANE
(
R152A)
1358.00
0.841
75­
37­
6
1,2
BUTANEDIOL
DINITRATE
2.65
0.255
1,2
DECANEDIOL
DINITRATE
27.78
0.321
1,2
DIBROMOETHANE
29.07
0.533
106­
93­
4
1,2
DIBROMOPROPANE
81.70
0.572
78­
75­
1
1,2
DICHLOROBENZENE
(­
O)
87.60
0.595
95­
50­
1
1,2
DICHLOROETHENE
TRANS
561.20
0.766
156­
60­
5
1,2
DICHLOROTETRAFLUOROETHANE
R114
66930.00
0.463
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1,2
DIETHOXYETHANE
3.48
0.358
629­
14­
1
1,2
DIFLUOROBENZENE
396.80
0.696
1,2
EPOXYPROPANE
(
PROPYLENEOXIDE)
4.47
0.440
75­
56­
9
1,2
ETHANEDIOL
DINITRATE
0.70
0.170
628­
96­
6
1,2
HEXANEDIOL
DINITRATE
5.73
0.277
1,2
OCTANEDIOL
DINITRATE
10.48
0.292
1,2
PENTANEDIOL
DINITRATE
4.27
0.273
1,2
PROPANEDIOL
DINITRATE
1.74
0.241
6423­
43­
4
1,2,10,11
TETRACHLOROUNDECANE
3.47
0.203
1,2,3
TRICHLOROBENZENE
69.44
0.423
87­
61­
6
1,2,3,4
TETRACHLOROBENZENE
38.80
0.370
634­
66­
2
1,2,3,4
TETRAHYDRONAPHTHALENE
(
TETRALIN)
104.80
0.485
119­
64­
2
1,2,3,4TETRACHLORODIBENZO[
BE][
1,4]
DIOXIN
1.09
0.112
30746­
58­
8
1,2,3,5
TETRACHLOROBENZENE
87.78
0.416
634­
90­
2
1,2,3­
TRIMETHYL
BENZENE
199.10
0.551
526­
73­
8
1,2,4
TRICHLORODIBENZO[
B,
E][
1,4]
DIOX
IN
1.98
0.272
1,2,4,5
TETRAMETHYLBENZENE
1389.00
0.627
95­
93­
2
1,2,4­
TRIMETHYLBENZENE
342.20
0.596
95­
63­
6
1,2,9,10
TETRACHLORODECANE
9.75
0.276
1,2­
DIBROMOTETRAFLUOROETHANE
101900.00
0.634
124­
73­
2
1,2­
DICHLORO­
1,1,2,3,3­
PENTAFLUOROPROPAN
5554000.00
0.802
422­
44­
6
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1,2­
DICHLORO­
1,1­
DIFLUOROETHANE
3944.00
0.694
1649­
08­
7
1,2­
DICHLOROTETRAFLUOROETHANE
193600.00
0.623
76­
14­
2
1,2­
METHYLENEDIOXY­
4­
PROPENYL
BENZENE
3.13
0.253
120­
58­
1
1,3
BUTANEDIOL
DINITRATE
0.96
0.158
1,3
DIBROMOBENZENE
108.90
0.550
108­
36­
1
1,3
DIBROMOPROPANE
50.50
0.530
109­
64­
8
1,3
DICHLOROBENZENE
(­
M)
157.80
0.558
541­
73­
1
1,3
DICHLOROPROPANE
55.56
0.636
142­
28­
9
1,3
DICHLOROPROPENE
85.47
0.586
542­
75­
6
1,3
DIFLUOROBENZENE
427.30
0.700
372­
18­
9
1,3
DIMETHYLNAPHTHALENE
39.68
0.382
575­
41­
7
1,3
PROPANEDIOL
DINITRATE*
0.43
0.107
3457­
90­
7
1,3,5
CYCLOHEPTATRIENE
264.50
0.649
544­
25­
2
1,3,5
TRICHLOROBENZENE
105.00
0.456
108­
70­
3
1,3­
DICHLORO­
1,1,2,3,3­
PENTAFLUOROPROPAN
6012.00
0.506
136013­
79­
1
1,3­
DICHLORO­
1,2,2,3,3­
PENTAFLUOROPROPAN
5554000.00
0.802
507­
55­
1
1,3­
DIOXOLANE
1.36
0.348
646­
06­
0
1,3­
PROPANEDIOL,
2­
BROMO­
2­
NITRO­
0.13
0.038
52­
51­
7
1,4
BUTANEDIOL
DINITRATE
0.35
0.079
1,4
DIBROMOBENZENE
113.40
0.550
106­
37­
6
1,4
DICHLORO­
2­
BUTENE
14.39
0.480
764­
41­
0
1,4
DICHLOROBENZENE
(­
P)
175.50
0.568
106­
46­
7
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1,4
DIFLUOROBENZENE
427.30
0.701
1,4
DIMETHYLNAPHTHALENE
27.78
0.364
571­
58­
4
1,4
DIOXANE
0.40
0.204
123­
91­
1
1,4
PENTADIENE
6536.00
0.689
591­
93­
5
1,4
PENTANEDIOL
DINITRATE
1.42
0.175
1,4­
DICHLORO­
2­
BUTENE(
TRANS)
4.87
0.386
110­
57­
6
1,5
DICHLOROPENTANE
30.86
0.504
1,5
DIMETHYLNAPHTHALENE
34.72
0.375
571­
61­
9
1,5
HEXADIENE
7507.00
0.641
592­
42­
7
1,5
HEXANEDIOL
DINITRATE
1.98
0.189
1,5
PENANEDIOL
DINITRATE
0.46
0.085
1,6
HEXANEDIOL
DINITRATE
0.37
0.065
1,7
HEPTANEDIOL
DINITRATE
0.46
0.123
1,8
OCTANEDIOL
DINITRATE
0.70
0.097
1112TETRACHLORO22DIFLUOROETHAN
E
5556.00
0.544
76­
11­
9
1­
BROMODECANE
109.40
0.407
112­
29­
8
1­
BROMONONANE
93.33
0.410
693­
58­
3
1­
CHLORO­
1,1­
DIFLUOROETHANE
3267.00
0.729
75­
68­
3
1­
CHLORO­
1,2,2,2­
TETRAFLUOROETHANE
19000.00
0.729
2837­
89­
0
1­
CHLORO­
4­
ISOCYANATOBENZENE
0.30
0.080
104­
12­
1
1­
ETHOXY­
HEXANE
105.00
0.529
5756­
43­
4
1­
ETHOXY­
OCTANE
98.33
0.441
929­
61­
3
1H
IMIDAZOLE*
0.21
0.117
288­
32­
4
1­
METHYL
NAPHTHALENE
28.30
0.385
90­
12­
0
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
1­
NITROPROPANE
5.05
0.410
108­
03­
2
1­
PENTANOL
(
AMYLALCOHOL)
0.68
0.189
71­
41­
0
1­
PENTENE
22220.00
0.693
109­
67­
1
1­
PROPOXY
2­
PROPANOL
0.43
0.125
1569­
01­
3
2
AMINO­
4­
CHLORO­
6­
CYANOPYRIDINE*
17.22
0.440
2
BROMO
2
METHYL
PROPANE
1792.00
0.751
507­
19­
7
2
BROMOPROPANE
603.90
0.760
75­
26­
3
2
BUTANOL
(
SEC
BUTANOL)
0.51
0.224
78­
92­
2
2
BUTANONE
(
METHYL
ETHYL
KETONE,
MEK)
2.58
0.358
78­
93­
3
2
BUTEN
1
0L
0.19
0.091
6117­
91­
5
2
BUTEN
3
ONE
(
METHYL
VINYL
KETONE)
2.58
0.387
78­
94­
4
2
BUTYL
NITRATE
(
ISOBUTYL
NITRATE)
126.30
0.636
543­
29­
3
2
CHLORO
1,1,1
TRIFLUOROETHANE
R133
1501.00
0.729
2
CHLOROANILINE
933.30
0.733
95­
51­
2
2
CHLOROBENZYL
ALCOHOL
0.16
0.053
17849­
38­
6
2
CHLOROBUTANE
1029.00
0.735
78­
86­
4
2
CHLOROETHYLVINYLETHER
1922.00
0.800
110­
75­
8
2
CHLORONAPHTHALENE
17.36
0.365
91­
58­
7
2
CHLOROPENTANE
1543.00
0.745
625­
29­
6
2
CHLOROPHENOL
0.62
0.155
95­
57­
8
2
ETHYLHEXYL
DODECANOATE
179.20
0.410
2
ETHYLHEXYL
HEXANOL
4.78
0.238
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2
ETHYLNAPHTHALENE
34.72
0.375
939­
27­
5
2
HEPTANONE
9.39
0.380
110­
43­
0
2
IODOPROPANE
624.20
0.715
75­
30­
9
2
METHYL
1
BUTANOL
(
ISOPENTANOL)
0.78
0.208
137­
32­
6
2
METHYL
1
PROPANOL
(
ISOBUTANOL)
1.50
0.329
78­
83­
1
2
METHYL
1­
PENTENE
15430.00
0.629
763­
29­
1
2
METHYL
2
BUTANOL
(
TERTPENTANOL
0.76
0.205
75­
85­
4
2
METHYL
2
BUTENE
12350.00
0.693
513­
35­
9
2
METHYL
2
PENTANOL
1.79
0.271
590­
36­
3
2
METHYL
2
PROPANOL
(
TERTBUTANOL
0.79
0.248
75­
65­
0
2
METHYL
3
BUTEN
2
OL
0.85
0.219
115­
18­
4
2
METHYL
3
PENTANOL
1.92
0.277
565­
67­
3
2
METHYL
OCTANE
264500.00
0.640
3221­
61­
2
2
METHYL
TETRAHYDROFURAN
5.05
0.381
96­
47­
9
2
METHYL
THIOPHENE
132.30
0.614
554­
14­
3
2
METHYLHEXANE
C7H16
191600.00
0.696
591­
76­
4
2
METHYLNAPHTHALENE
28.78
0.379
91­
57­
6
2
METHYLNONANE
308600.00
0.615
871­
83­
0
2
METHYLPROPENAL
(
METHACROLEIN)
15.50
0.527
78­
85­
3
2
METHYLPROPYLMETHANOATE
(
ISOBUTYL
FORMAT
32.68
0.536
542­
55­
2
2
NITROPHENOL
1.88
0.465
88­
75­
5
2
NITROTOLUENE
0.69
0.155
88­
72­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2
NONANONE
20.58
0.384
821­
55­
6
2
OCTANONE
10.29
0.372
111­
13­
7
2
PENTANONE
3.47
0.376
107­
87­
9
2
PENTENE
12920.00
0.686
109­
68­
2
2
PENTYL
NITRATE
163.40
0.627
21981­
48­
6
2
PROPANOL
(
ISOPROPANOL)
0.43
0.204
67­
63­
0
2
PROPEN
1
OL
(
ALLYL
ALCOHOL)
0.31
0.155
107­
18­
6
2
PROPYL
NITRATE
126.30
0.670
1712­
64­
7
2
PYRROLIDONE
0.14
0.093
616­
45­
5
2
UNDECANONE
34.72
0.370
112­
12­
9
2,2
DIMETHYL
1
PROPANOL
1.11
0.245
75­
84­
3
2,2
DIMETHYL
PROPANOIC
ACID
0.15
0.063
75­
98­
9
2,2
DIMETHYLBUTANE
C6H14
94160.00
0.678
75­
83­
2
2,2
DIMETHYLHEPTANE
264500.00
0.644
1071­
26­
7
2,2
DIMETHYLHEXANE
191600.00
0.588
590­
73­
8
2,2
DIMETHYLOCTANE
326800.00
0.800
15869­
87­
1
2,2
DIMETHYLPENTANE
173600.00
0.697
590­
35­
2
2,2'
PCB
19.16
0.309
13029­
08­
8
2,2,2
TRIFLUOROETHANOL
0.94
0.260
79­
89­
8
2,2,3
TRIMETHYLBUTANE
135500.00
0.629
464­
06­
2
2,2,3
TRIMETHYLHEPTANE
370400.00
0.634
52896­
92­
1
2,2,3
TRIMETHYLHEXANE
292400.00
0.656
16747­
25­
4
2,2,3
TRIMETHYLPENTANE
213700.00
0.655
564­
02­
3
2,2',
3,3'
PCB
11.34
0.266
38444­
93­
8
2,2,3,3
TETRAFLUORO
1
PROPANOL
0.35
0.105
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2,2,3,3
TETRAMETHYLBUTANE
213700.00
0.673
594­
82­
1
2,2,3,3
TETRAMETHYLHEXANE
463000.00
0.665
13475­
81­
5
2,2,3,3
TETRAMETHYLPENTANE
347200.00
0.671
7154­
79­
2
2,2,3,3,3
PENTAFLUORO
1
PROPANOL
1.24
0.200
2,2,3,3,4
PENTAMETHYLPENTANE
555600.00
0.674
16747­
44­
7
2,2',
3,3',
4,4'
PCB
1.68
0.148
383832­
07­
3
2,2,3,4
TETRAMETHYLHEXANE
463000.00
0.655
52897­
08­
2
2,2,3,4
TETRAMETHYLPENTANE
326800.00
0.664
1186­
53­
4
2,2,3,4,4
PENTAMETHYLPENTANE
555600.00
0.672
16747­
45­
8
2,2,3,5
TETRAMETHYLHEXANE
347200.00
0.637
52897­
09­
3
2,2,4
TRIMETHYLHEPTANE
347200.00
0.626
14720­
74­
2
2,2,4
TRIMETHYLHEXANE
264500.00
0.644
16747­
26­
5
2,2,4,4
TETRAMETHYLHEXANE
463000.00
0.662
517532­
65­
3
2,2,4,4
TETRAMETHYLPENTANE
292400.00
0.657
1070­
87­
7
2,2',
4,4',
5,5'
PCB
7.31
0.232
35065­
27­
1
2,2',
4,4',
6,6'
PCB
42.74
0.311
33979­
03­
2
2,2,4,5
TETRAMETHYLHEXANE
370400.00
0.635
16747­
42­
5
2,2',
4,5,5'
PCB
14.25
0.306
376832­
73­
2
2,2',
4,6,6'
PCB
50.50
0.326
56558­
16­
8
2,2,5
TRIMETHYLHEPTANE
347200.00
0.777
20291­
95­
6
2,2,5
TRIMETHYLHEXANE
C9H20
292400.00
0.654
3522­
94­
9
2,2',
5,5'
PCB
19.16
0.290
35693­
99­
3
2,2,5,5
TETRAMETHYLHEXANE
308600.00
0.627
1071­
81­
4
2,2',
5,6'
PCB
23.15
0.298
41464­
41­
9
2,2,6
TRIMETHYLHEPTANE
326800.00
0.629
1190­
83­
6
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2,2',
6,6'
PCB
30.86
0.311
15968­
05­
5
2,2­
DICHLOROPROPANE
298.90
0.697
594­
20­
7
2,2'­
OXYBIS(
2­
CHLOROPROPANE*
22.06
0.390
39638­
32­
9
2,3
BUTANEDIOL
DINITRATE
4.63
0.307
2,3
DICHLORO
1
PROPENE
198.40
0.692
78­
88­
6
2,3
DIMETHYL
1,3
BUTADIENE
2645.00
0.707
513­
81­
5
2,3
DIMETHYL
2
BUTANOL
1.85
0.272
594­
60­
5
2,3
DIMETHYLBUTANE
C6H14
71220.00
0.667
79­
29­
8
2,3
DIMETHYLHEPTANE
292400.00
0.641
3074­
71­
3
2,3
DIMETHYLHEXANE
213700.00
0.649
584­
94­
1
2,3
DIMETHYLNAPHTHALENE
32.68
0.372
581­
40­
8
2,3
DIMETHYLOCTANE
370400.00
0.635
7146­
60­
3
2,3
DIMETHYLPENTANE
C7H16
95780.00
0.637
589­
59­
3
2,3,3
TRIMETHYLHEPTANE
396800.00
0.651
52896­
93­
2
2,3,3
TRIMETHYLHEXANE
326800.00
0.648
16747­
28­
7
2,3,3
TRIMETHYLPENTANE
231500.00
0.674
560­
21­
4
2,3,3,4
TETRAMETHYLHEXANE
463000.00
0.754
52897­
10­
6
2,3,3,4
TETRAMETHYLPENTANE
347200.00
0.670
16747­
38­
9
2,3,3,5
TETRAMETHYLHEXANE
396800.00
0.647
52897­
11­
7
2,3,4
TRIMETHYLHEPTANE
396800.00
0.641
52896­
95­
4
2,3,4
TRIMETHYLHEXANE
308600.00
0.656
921­
47­
1
2,3,4
TRIMETHYLPENTANE
C8H18
97460.00
0.601
565­
75­
3
2,3,4,4
TETRAMETHYLHEXANE
463000.00
0.661
52897­
12­
8
2,3,4,5
TETRAMETHYLHEXANE
396800.00
0.642
52897­
15­
1
2,3',
5
PCB
18.52
0.297
38444­
81­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2,3,5
TRIMETHYLHEPTANE
396800.00
0.641
2,3,5
TRIMETHYLHEXANE
277800.00
0.645
1069­
53­
0
2,3,5,6
TETRACHLOROPHENOL
6167000.00
0.788
935­
95­
5
2,3,6
TRIMETHYLHEPTANE
347200.00
0.637
4032­
93­
3
2,3­
DICHLORO­
1,1,1,2,3­
PENTAFLUOROPROPAN
5631000.00
0.801
422­
48­
0
2,3­
DIMETHYLPYRIDINE
0.40
0.117
583­
61­
9
2,4
DICHLOROANILINE
0.10
0.032
554­
00­
7
2,4
DICHLOROPHENOL
1.59
0.211
120­
83­
2
2,4
DIMETHYL
3
ISOPROPYLPENTANE
427400.00
0.648
13475­
79­
1
2,4
DIMETHYLHEPTANE
277800.00
0.639
2213­
23­
2
2,4
DIMETHYLHEXANE
198400.00
0.660
589­
43­
5
2,4
DIMETHYLOCTANE
326800.00
0.629
4032­
94­
4
2,4
DIMETHYLPENTANE
C7H16
163400.00
0.689
108­
08­
7
2,4,4'
PCB
15.43
0.289
7012­
37­
5
2,4,4
TRIMETHYLHEPTANE
370400.00
0.635
4032­
92­
2
2,4,4
TRIMETHYLHEXANE
292400.00
0.654
16747­
30­
1
2,4,5
TRIMETHYLHEPTANE
370400.00
0.635
20278­
84­
6
2,4,6
PCB
37.04
0.329
35693­
92­
6
2,4,6
TRIMETHYLHEPTANE
308600.00
0.622
2613­
61­
8
2,4­
D,
ISOPROPYL
ESTER*
21.00
0.316
94­
11­
1
2,4­
DICHLOROPHENOXYACETIC
ACID,
2­
BUTOXY
0.57
0.072
1320­
18­
9
2,4­
DIMETHYLPYRIDINE
0.37
0.111
108­
47­
4
2,4­
PENTANEDIONE
0.13
0.062
123­
54­
6
2,5
DIMETHYLHEPTANE
277800.00
0.650
2216­
30­
0
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2,5
DIMETHYLHEXANE
185200.00
0.654
592­
13­
2
2,5
DIMETHYLOCTANE
347200.00
0.635
2,5
DIMETHYLTETRAHYDROFURAN
9.75
0.389
1003­
38­
9
2,5
HEXANEDIOL
DINITRATE
1.74
0.178
2,5
PCB
21.37
0.313
34883­
39­
1
2,5,5
TRIMETHYLHEPTANE
370400.00
0.634
2,5­
DIHYDROFURAN
0.13
0.072
1708­
29­
8
2,5­
DIMETHYLPYRIDINE
0.46
0.131
589­
93­
5
2,6
DICHLOROPHENOL
0.27
0.071
87­
65­
0
2,6
DIMETHYLHEPTANE
264500.00
0.644
1072­
05­
5
2,6
DIMETHYLNAPHTHALENE
66.93
0.413
581­
42­
0
2,6
DIMETHYLOCTANE
347200.00
0.635
2051­
30­
1
2,6­
DIMETHYL
2,5­
HEPTADIEN
4­
ONE
24.28
0.381
504­
20­
1
2,6­
DIMETHYLANILINE
0.11
0.038
87­
62­
7
2,6­
DIMETHYLPHENOL
0.37
0.106
576­
26­
1
2,6­
DIMETHYLPYRIDINE
0.58
0.158
108­
48­
5
2,7
DICHLORODIBENZO[
B,
E][
1,4]
DIOXIN
3.27
0.203
33857­
26­
0
2,7
DIMETHYLOCTANE
326800.00
0.629
1072­
16­
8
2­
AMINO­
3­
CHLORO­
5­
PHENYLCYCLOHEXANONE
0.22
0.042
2­
CHLORO
2­
METHYLBUTANE
1417.00
0.719
594­
36­
5
2­
CHLORO­
N­(
2­
CHLOROETHYL)­
NMETHYLETHAN
61.90
0.584
51­
75­
2
2­
ETHYL
3­
METHOXYPYRAZINE
0.82
0.168
25680­
58­
4
2­
ETHYL
HEXANAL
63.40
0.457
123­
05­
7
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
2­
ETHYLHEXANOL
3.43
0.276
104­
76­
7
2­
ETHYLHEXYL
ACRYLATE
24.10
0.336
103­
11­
7
2­
ETHYLHEXYL­
2,4­
DICHLOROPHENOXYACETATE
1.41
0.129
1928­
43­
4
2­
ETHYLPYRAZINE
0.14
0.060
13925­
00­
3
2­
ETHYLPYRIDINE
0.91
0.201
100­
71­
0
2­
FLUOROPROPANE
941.60
0.774
420­
26­
8
2­
ISOBUTYL
3­
METHOXYPYRAZINE
4.27
0.268
24683­
00­
9
2­
ISOBUTYLPYRAZINE*
0.28
0.080
2­
METHYL
PENTANE
C6H14
45780.00
0.602
107­
83­
5
2­
METHYLPYRAZINE
0.12
0.063
109­
08­
0
2­
PENTANOL
(
SEC­
PENTANOL)
0.82
0.212
6032­
29­
7
2­
PICOLINE
(
ALPHA
PICOLINE)
0.55
0.169
109­
06­
8
3
BROMO
1
PROPENE
(
ALLYL
BROMIDE)
326.80
0.730
3
CHLOROANILINE
933.30
0.733
108­
42­
9
3
CHLOROBENZYL
ALCOHOL
0.16
0.053
873­
63­
2
3
CHLOROPENTANE
1462.00
0.745
616­
20­
6
3
CHLOROPHENOL
0.18
0.062
108­
43­
0
3
ETHYL
2
METHYLHEPTANE
370400.00
0.635
14676­
29­
0
3
ETHYL
2
METHYLHEXANE
292400.00
0.650
16789­
46­
1
3
ETHYL
2
METHYLPENTANE
213700.00
0.666
609­
26­
7
3
ETHYL
2,2
DIMETHYLHEXANE
396800.00
0.714
20291­
91­
2
3
ETHYL
2,2
DIMETHYLPENTANE
308600.00
0.658
16747­
32­
3
3
ETHYL
2,2,3
TRIMETHYLPENTANE
555600.00
0.674
52897­
17­
3
3
ETHYL
2,2,4
TRIMETHYLPENTANE
427400.00
0.658
52897­
18­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
3
ETHYL
2,3
DIMETHYLHEXANE
427300.00
0.655
52897­
00­
4
3
ETHYL
2,3
DIMETHYLPENTANE
370400.00
0.664
3
ETHYL
2,3,4
TRIMETHYLPENTANE
505100.00
0.667
52897­
19­
5
3
ETHYL
2,4
DIMETHYLHEXANE
396800.00
0.871
7220­
26­
0
3
ETHYL
2,4
DIMETHYLPENTANE
308600.00
0.646
1068­
87­
7
3
ETHYL
2,5
DIMETHYLHEXANE
370400.00
0.642
52897­
04­
8
3
ETHYL
3
METHYLHEPTANE
396800.00
0.649
17302­
01­
1
3
ETHYL
3
METHYLHEXANE
326800.00
0.663
3
ETHYL
3,4
DIMETHYLHEXANE
427300.00
0.649
52897­
06­
0
3
ETHYL
4
METHYLHEPTANE
396800.00
0.648
52896­
91­
0
3
ETHYL
4
METHYLHEXANE
308600.00
0.645
3074­
77­
9
3
ETHYLHEPTANE
292400.00
0.702
15869­
80­
4
3
ETHYLHEXANE
213700.00
0.651
619­
99­
8
3
ETHYLOCTANE
347200.00
0.627
5881­
17­
4
3
ETHYLTHIOPHENE
51.00
0.490
52006­
63­
0
3
ISOPROPYL
2
METHYLHEXANE
505000.00
0.673
3
METHYL
1
BUTENE
29240.00
0.709
563­
45­
1
3
METHYL
2
NITROPHENOL
0.22
0.061
4920­
77­
8
3
METHYL
PYRIDINE
(
3
PICOLINE)
0.43
0.135
108­
99­
6
3
METHYLHEPTANE
C8H18
205800.00
0.664
589­
81­
1
3
METHYLHEXANE
C7H16
169200.00
0.746
589­
34­
4
3
METHYLNONANE
326800.00
0.696
1465084
3
METHYLOCTANE
277800.00
0.646
2216­
33­
3
3
METHYLTHIOPHENE
398.30
0.699
3
NITROTOLUENE
0.52
0.128
99­
08­
1
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
3
PENTANONE
4.29
0.383
96­
22­
0
3
PENTYL
NITRATE
150.10
0.619
82944­
59­
32
3,3
DIETHYL
2
METHYLPENTANE
505100.00
0.673
52897­
16­
2
3,3
DIETHYLHEXANE
427300.00
3.016
17302­
02­
2
3,3
DIETHYLPENTANE
370400.00
0.761
1067­
20­
5
3,3
DIMETHYLHEPTANE
292400.00
0.651
4032­
86­
4
3,3
DIMETHYLHEXANE
213700.00
0.675
563­
16­
6
3,3
DIMETHYLPENTANE
C7H16
101000.00
0.660
562­
49­
2
3,3'
PCB
13.23
0.292
2050­
67­
1
3,3,4
TRIMETHYLHEPTANE
427300.00
0.646
3,3,4
TRIMETHYLHEXANE
326800.00
0.662
16747­
31­
2
3,3',
4,4'
PCB
5.05
0.223
32598­
13­
3
3,3,4,4
TETRAMETHYLHEXANE
555600.00
0.682
5171­
84­
6
3,3,5
TRIMETHYLHEPTANE
396800.00
0.647
7154­
80­
5
3,4
DIETHYLHEXANE
396800.00
0.651
19398­
77­
7
3,4
DIMETHYLHEPTANE
308600.00
0.644
922­
28­
1
3,4
DIMETHYLHEXANE
231500.00
0.658
583­
48­
2
3,4
DIMETHYLOCTANE
370400.00
0.642
3,4'
PCB
11.57
0.285
2974­
92­
7
3,4,4
TRIMETHYLHEPTANE
427300.00
0.692
20278­
88­
0
3,4,5
TRIMETHYLHEPTANE
396800.00
0.694
20278­
87­
9
3,4­
DIMETHYLPYRIDINE
0.21
0.072
583­
58­
4
3,4­
DINITROTOLUENE
0.54
0.101
610­
39­
9
3,5
DIMETHYLHEPTANE
277800.00
0.644
926­
82­
9
3,5
DIMETHYLOCTANE
347200.00
0.625
15869­
93­
9
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
3,5­
DIBROMO­
4­
HYDROXYBENZONITRILE
0.22
0.039
1689­
84­
5
3,5­
DIMETHYLPYRIDINE
0.40
0.118
591­
22­
0
3,6
DIMETHYLOCTANE
347200.00
0.635
15869­
94­
0
3­
CHLORO­
2­
METHYLPROPENE
123.90
0.664
563­
47­
3
3­
CHLOROPHTHALIC
ANHYDRIDE
0.20
0.052
117­
21­
5
3­
ETHYLPENTANE
142400.00
0.662
617­
78­
7
3­
ETHYLPRYIDINE
0.58
0.151
3­
HEXANOL
2.78
0.314
623­
37­
0
3­
METHYLINDOLE
SKATOLE
0.12
0.040
83­
34­
1
3­
PENTEN­
2­
OL
2.26
0.309
1569­
50­
2
4
(
1
METHYLPROPYL)
2
NITROPHENOL
2.32
0.217
3555­
18­
8
4
BROMOTOLUENE
(
P)
129.20
0.582
106­
38­
7
4
CHLORO
2
NITROPHENOL
0.70
0.127
89­
64­
5
4
CHLORO
5
METHYL
2
NITROPHENOL
1.54
0.164
7147­
89­
9
4
CHLOROBENZYL
ALCOHOL
0.16
0.053
873­
76­
7
4
CHLOROBIPHENYL
522.20
0.566
2051­
62­
9
4
ETHYL
2
METHYLHEPTANE
347200.00
0.708
52896­
88­
5
4
ETHYL
2
METHYLHEXANE
264500.00
0.641
3074­
75­
7
4
ETHYL
2,2
DIMETHYLHEXANE
347200.00
0.634
52896­
99­
8
4
ETHYL
2,3
DIMETHYLHEXANE
396800.00
3.274
52897­
01­
5
4
ETHYL
2,4
DIMETHYLHEXANE
427300.00
0.651
52897­
03­
7
4
ETHYL
3
METHYLHEPTANE
396800.00
0.640
52896­
89­
6
4
ETHYL
3,3
DIMETHYLHEXANE
427300.00
0.649
52897­
05­
9
4
ETHYL
4
METHYLHEPTANE
396800.00
0.651
17302­
04­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
4
ETHYLHEPTANE
292400.00
0.640
2216­
32­
2
4
ETHYLOCTANE
347200.00
0.683
15869­
86­
0
4
ISOPROPYLHEPTANE
370400.00
0.643
52896­
87­
4
4
METHOXY
2
NITROPHENOL
2.42
0.250
1568­
70­
3
4
METHYL
1
PENTENE
34720.00
0.652
691­
37­
2
4
METHYL
2
NITROPHENOL
0.90
0.163
119­
33­
5
4
METHYL
2
PENTANOL
2.53
0.302
108­
11­
2
4
METHYLHEPTANE
205800.00
0.664
589­
53­
7
4
METHYLNONANE
326800.00
0.620
17301­
94­
9
4
METHYLOCTANE
C9H20
555600.00
0.676
2216­
34­
4
4
NITROTOLUENE
(­
P)
0.31
0.090
99­
99­
0
4
PROPYLHEPTANE
326800.00
0.630
3178­
29­
8
4,4
DIMETHYLHEPTANE
292400.00
0.641
1068­
19­
5
4,4
DIMETHYLHEXANE
370400.00
0.709
28777­
67­
5
4,5
DIMETHYLOCTANE
370400.00
0.631
4­
CHLORO­
5­
PHENOXYDIMETHYL
PHTHALATE
8889.00
0.479
4­
ETHYLPYRIDINE
0.46
0.130
536­
75­
4
4­
METHYLPYRIDINE
0.33
0.113
108­
89­
4
5
ETHYL
2
METHYLHEPTANE
347200.00
0.627
5
FLUORO
2
NITROPHENOL
1.09
0.179
446­
36­
6
5
METHOXY
2
PENTANONE
0.10
0.038
17429­
04­
8
5
METHYL
2
NITROPHENOL
0.82
0.155
700­
38­
9
5
METHYLNONANE
326800.00
0.631
15869­
85­
9
5­
METHYLCHRYSENE
0.31
0.050
3697­
24­
3
8
METHYL
1­
DECENE
1389.00
0.597
61142­
79­
8
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
ACENAPHTHENE
8.08
0.314
83­
32­
9
ACENAPHTHYLENE
6.33
0.295
208­
96­
8
ACETALDEHYDE
5.55
0.484
75­
07­
0
ACETONITRILE
1.05
0.347
75­
05­
8
ACETOPHENONE
0.51
0.135
98­
86­
2
ACETYL
CHLORIDE
13.89
0.550
75­
36­
5
ACETYL
DIETHYLMALONATE
1.08
0.163
570­
08­
1
ACETYL
KETENE,
DIKETENE
0.16
0.078
674­
82­
8
ACETYLAMINOFLUORENE,
2­
3.70
0.220
53­
96­
3
ACETYLFURAN
2*
0.54
0.165
1192­
62­
7
ACETYLPYRIDINE
3
16830.00
0.659
1122­
54­
9
ACIFLUORFEN
14.22
0.269
50594­
66­
6
ACRYLAMIDE,
N­(
HYDROXYMETHYL)­
24.11
0.437
924­
42­
5
ACRYLONITRILE
7.61
0.437
107­
13­
1
ADAMANTANE
DICHLORIDE
57.78
0.421
ALDRIN
27.20
0.301
309­
00­
2
ALKYLIMINE
CARBOXYLIC
ACID
N,
SUB
0.56
0.084
ALLYL
CHLORIDE
(
3­
CHLORO­
1­
PROPENE)
501.30
0.721
107­
05­
1
ALLYL
ETHER,
DIALLYL
ETHER
96.67
0.552
557­
40­
4
ALLYL
MERCAPTAN
123.30
0.645
870­
23­
5
ALLYLAMINE
1.01
0.294
107­
11­
9
ALPHA
METHYL
STYRENE
211.10
0.612
98­
83­
9
ALPHA
METHYL
STYRENE
DIMERS
655.50
0.507
ALPHA­
CHLORO­
BETAMETHYLNAPHTHALENE
490.60
0.526
5859­
45­
0
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
ALPHA­
HYDROXYADIPIMIDE
0.90
0.152
AMINO­
2­
CHLOROTOLUENE
4
388.90
0.618
95­
74­
9
AMINO­
4­
NITROBENZYL
ALCOHOL
2
0.34
0.085
AMINO­
4­
NITROTOLUENE
2
422.80
0.673
99­
55­
8
AMINO­
5­
CHLOROPYRIDINE
2
14.28
0.432
1072­
98­
6
AMINOBENZOIC
ACID
(­
P)
0.22
0.002
150­
13­
0
AMINOCYCLOHEXANE
0.59
0.162
108­
91­
8
AMINO­
P'­
METHYLAZOBENZENE
P
588.90
0.532
AMINOPROPIONITRILE
3
0.51
0.213
151­
18­
8
AMMONIA*
3.38
0.594
7664­
41­
7
AMPHETAMINE
7.50
0.339
300­
62­
9
AMYL
MERCAPTAN
140.60
0.585
110­
66­
7
ANETHOLE
26.00
0.365
104­
46­
1
ANTHRACENE
4.18
0.272
120­
12­
7
ARSINE
[
ASH3]
6195.00
0.692
7784­
42­
1
AZEPINE*
462.80
0.669
AZIRIDINE
ETHYLENE
IMINE
0.67
0.291
151­
56­
4
BENEFIN
16.17
0.274
1861­
40­
1
BENZAL
CHLORIDE
40.50
0.438
98­
87­
3
BENZALDEHYDE
1.32
0.242
100­
52­
7
BENZALKONIUM
CHLORIDE
0.11
0.026
BENZENE
308.30
0.650
71­
43­
2
BENZETHONIUM
CHLORIDE
1.24
0.123
121­
54­
0
BENZIDINE
DIHYDROCHLORIDE
588900.00
0.774
531­
85­
1
BENZO(
A)
ANTHRACENE
0.67
0.137
56­
55­
3
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
BENZODIOXANE­
1,3
0.26
0.074
254­
27­
3
BENZOFURAN
2,3
6.44
0.346
271­
89­
6
BENZONITRILE
2.86
0.332
100­
47­
0
BENZOPHENONE
506.10
0.550
119­
61­
9
BENZOTHIAZOLONE
2(
2H)­*
3.51
0.271
934­
34­
9
BENZOTHIOPHENE
15.89
0.375
11095­
43­
5
BENZOTRICHLORIDE
17.16
0.361
98­
07­
7
BENZOYL
CHLORIDE
4.55
0.347
98­
88­
4
BENZYL
CHLORIDE
19.36
0.425
100­
44­
7
BENZYL
MERCAPTAN
12.11
0.367
100­
53­
8
BENZYL
METHYL
ETHER
5.49
0.345
538­
86­
3
BHC,
ALPHA­
0.68
0.091
319­
84­
6
BICYCLO(
4,2,0)
OCTA
1.3.5
TRIENE
258.30
0.629
694­
87­
1
BICYCLO[
2.2.1]­
2,5­
HEPTADIENE
DICHLORIDE
4389.00
0.637
BIPHENYL
22.57
0.363
92­
52­
4
BIS(
1,1,2,2­
TETRACHLOROPROPYL)
ETHER
2417000.00
1.033
BIS(
2­
CHLOROISOPROPYL)
ETHER
6.11
0.313
108­
60­
1
BIS(
2­
ETHYLHEXYL)
PHTHALATE
0.81
0.135
117­
81­
7
BIS(
CHLOROMETHYL)
ETHER
11.83
0.546
542­
88­
1
BIS(
TRI­
N­
BUTYLTIN)
OXIDE*
8296000.00
0.863
56­
35­
9
BROMACIL*
29.56
0.317
314­
40­
9
BROMO­
3­
CHLOROBUTADIENE
2
469.40
0.666
BROMO­
4­
CHLORO­
6­
CYANOBENZYL
ALCOHOL
2
1.05
0.138
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
BROMO­
4­
CHLOROCYCLOHEXANE
1
5544.00
0.637
BROMO­
4­
CYANOMETHYL
BENZOATE
2
6667.00
0.597
BROMO­
4­
CYANOMETHYL
BENZOATE
3
1339.00
0.654
BROMOACETONE
0.32
0.105
598­
31­
2
BROMOBENZENE
118.20
0.545
108­
86­
1
BROMOBENZYL
ALCOHOL
­(
M)
0.21
0.046
15852­
73­
0
BROMOBENZYL
ALCOHOL
­(
O)
0.21
0.046
18982­
54­
2
BROMOBENZYL
ALCOHOL
­(
P)
0.21
0.046
873­
75­
6
BROMOCHLOROBENZYL
ALCOHOL
0.46
0.081
BROMOCHLORODIFLUOROMETHANE
7710.00
0.653
353­
59­
3
BROMOCHLOROMETHANE
81.67
0.683
74­
97­
5
BROMODICHLOROMETHANE
88.02
0.591
75­
27­
4
BROMOETHANE
427.30
0.778
74­
96­
4
BROMOETHYL
ACETATE
23.22
0.500
927­
68­
4
BROMOETHYLENE
(
VINYL
BROMIDE)
1665.00
0.748
593­
60­
2
BROMOFORM
(
TRIBROMOMETHANE)
32.68
0.425
75­
25­
2
BROMOMETHANE
407.80
0.759
74­
83­
9
BROMOPHENYL
PHENYL
ETHER,
4­
6.50
0.269
101­
55­
3
BROMOPROPIONITRILE
3
1.12
0.241
2417­
90­
5
BROMOTRIFLUOROMETHANE
27780.00
0.682
75­
63­
8
BROMOURACIL,
5­*
2.16
0.297
51­
20­
7
BROMOXYNIL
OCTANOATE
1.77
0.138
1689­
99­
2
BUTADIENE­(
1,3)
2746.00
0.714
106­
99­
0
BUTADIYNE
(
BIACETYLENE)
292.40
0.760
460­
12­
8
BUTANAL
(
BUTYRALDEHYDE)
5.78
0.427
123­
72­
8
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
BUTANE
46300.00
0.767
106­
97­
8
BUTANENITRILE
(
BUTYRONITRILE)
3.57
0.399
109­
74­
0
BUTYL
ACRYLATE
27.16
0.437
141­
32­
2
BUTYL
BENZENE
731.00
0.593
104­
51­
8
BUTYL
DODECANOATE
(
BUTYL
LAURATE)
77.16
0.368
106­
18­
3
BUTYL
ETHANOATE
(
N­
BUTYL
ACETATE)
15.87
0.430
123­
86­
4
BUTYL
MERCAPTAN
505.00
0.715
109­
79­
5
BUTYLAMINE
0.97
0.239
109­
73­
9
BUTYLATE*
0.44
0.070
2008­
41­
5
BUTYLBUTOXY
PROPIONATE
1.27
0.140
BUTYLISOBUTYRATE
15.39
0.459
97­
87­
0
C
2,4
PENTANEDIOL
DINITRATE
2.53
0.226
CAMPHENE
75.56
0.443
79­
92­
5
CAPROLACTONE
3.41
0.319
502­
44­
3
CARBON
TETRACHLORIDE
1634.00
0.695
56­
23­
5
CARBONIC
CHLORIDE
FLUORIDE
5.56
0.405
CARBONYL
FLUORIDE*
2.78
0.363
303­
50­
4
CARBONYL
SULFIDE*
2525.00
0.901
463­
58­
1
CHLORACETOPHENONE,
2­
0.19
0.048
532­
27­
4
CHLORAL
0.18
0.059
302­
17­
0
CHLORAMIDE*
0.59
0.243
10599­
90­
3
CHLORDANE
4.60
0.214
57­
74­
9
CHLORENDIC
ANHYDRIDE
1.15
0.111
115­
27­
5
CHLORO
2
BUTENE,
1
TRANS
104.40
0.647
591­
97­
9
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLORO
2
PROPANONE
0.94
0.281
CHLORO(­
P)
PHENYLHYDRAZINE
15.78
0.428
1073­
69­
4
CHLORO­
1,3­
CYCLOPENTADIENE
5
2778.00
0.755
41851­
50­
7
CHLORO­
2,2­
DIBROMOETHANE
1
43.50
0.543
CHLORO­
2­
METHOXYBENZOIC
ACID
4
207.80
0.613
57479­
70­
6
CHLORO­
2­
NITROBENZYL
ALCOHOL
4
0.21
0.050
22996­
18­
5
CHLORO­
3­
NITRO­
5­
PHENYLCYCLOHEXANE
2
0.23
0.053
CHLORO­
3­
NITROANILINE
4
9.61
0.372
635­
22­
3
CHLORO­
4AMINOCOUMARAN­
6CARBOXYLIC
ACID
2
588900.00
0.768
CHLORO­
4­
CYANOBENZYL
ALCOHOL
2
0.34
0.092
CHLORO­
4­
HYDROXYBIPHENYL
3
29940.00
0.439
92­
04­
6
CHLORO­
4­
METHOXY­
6­
AMINOBENZOIC
ACID
2
22.22
0.376
CHLORO­
4­
METHYL­
NMETHYLBENZAMIDE
3
0.51
0.102
CHLORO­
4­
NITROANISOLE
2
0.10
0.022
4920­
79­
0
CHLORO­
4­
PHENYLPYRIDINE
2
0.53
0.097
CHLORO­
5AMINO3PYRIDINE
CARB.
ACID
AMIDE
2
20.33
0.385
CHLORO­
5­
CYANOPHTHALIC
ACID
4
588900.00
0.778
CHLORO­
5­
CYANOTOLUENE
3
83.89
0.522
CHLORO­
5­
FLUOROTOLUENE
3
16.05
0.383
443­
83­
4
CHLOROACETALDEHYDE
1.44
0.346
107­
20­
0
CHLOROALLYL
ALCOHOL
2
1.02
0.257
5976­
47­
6
CHLOROAZOBENZENE
600.00
0.557
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLOROBENZENE
209.00
0.512
108­
90­
7
CHLOROBENZENESULFONIC
ACID
(­
P)*
0.49
0.104
100­
03­
8
CHLOROBENZOTRICHLORIDE
P
6389.00
0.522
5216­
25­
1
CHLOROBENZOTRIFLUORIDE,
P
11770.00
0.481
98­
56­
6
CHLOROBUTADIENE,
1
2974.00
0.705
CHLOROCOUMARAN
2
501.70
0.639
2051­
59­
4
CHLOROCROTYL
ESTER
OF
2,4­
D
0.25
0.038
2971­
38­
2
CHLOROCYANOBENZENE
(
1,4)
955500.00
0.833
873­
32­
5
CHLOROCYCLOHEXANE
822200.00
0.746
542­
18­
7
CHLOROCYCLOHEXANOL
2
14.94
0.458
1561­
86­
0
CHLOROCYCLOHEXANOL
4
75.00
0.611
CHLORODIACETYL
0.24
0.109
5559­
62­
6
CHLORODIFLUOROMETHANE
(
R22)
1501.00
0.789
75­
45­
6
CHLORODIFLUORONITROOXYMETHANE
19.16
0.422
CHLORODIMETHYL
PHTHALATE
3
6389.00
0.618
CHLORODIPHENYL
THIOETHER
P
566.70
0.640
CHLOROETHANE
(
ETHYL
CHLORIDE)
624.20
0.796
75­
00­
3
CHLOROETHYLENE
(
VINYL
CHLORIDE)
1227.00
0.882
75­
01­
4
CHLOROFLUOROBENZENE
P
9055000.00
1.413
352­
33­
0
CHLOROFLUOROMETHANE*
(
R31)
370.40
0.801
593­
70­
4
CHLOROFORM
267.70
0.700
67­
66­
3
CHLOROHYDROXYPHENYL4
METHYL
BENZOIC
ACID
588900.00
0.781
CHLOROIODOMETHANE
62.42
0.645
593­
71­
5
CHLOROMETHANE
(
METHYLCHLORIDE)
555.00
0.726
74­
87­
3
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLOROMETHYL
ACETYLENE
55.56
0.658
624­
65­
7
CHLOROMETHYL
BENZOATE
P
4739.00
0.654
1126­
46­
1
CHLOROMETHYL
ETHYL
KETONE
147.80
0.744
616­
27­
3
CHLOROMETHYL
METHYL
ETHER
4.79
0.492
107­
30­
2
CHLOROMETHYL
PHENYLHYDRAZINE
P
17.44
0.395
CHLOROMETHYLAMINOIMINE
588900.00
0.713
CHLORONITROALKOXYIMINE
1.28
0.156
CHLORONITROBENZENE(­
O)
437.80
0.676
88­
73­
3
CHLORONITROBENZENE,
P
1.64
0.223
100­
00­
5
CHLOROPENTAFLUOROETHANE
310000.00
0.776
76­
15­
3
CHLOROPENTAFLUOROETHANE
R115
146200.00
0.622
CHLOROPHENYL
PHENYL
ETHER,
4­
12.24
0.318
7005­
72­
3
CHLOROPHTHALIC
ANHYDRIDE
4
0.20
0.052
CHLORO­
P'­
METHYLBIPHENYL
P
561.10
0.567
1667­
11­
4
CHLOROPRENE
2974.00
0.848
126­
99­
8
CHLOROPROPANE­
1
603.90
0.799
540­
54­
5
CHLOROPROPANE­
2
805.10
0.754
75­
29­
6
CHLOROPROPIONITRILE,
3­
0.36
0.158
542­
76­
7
CHLOROPROPYLENE­
2
388.60
0.744
557­
98­
2
CHLORO­
P­
XYLENE
78.33
0.547
104­
82­
5
CHLOROPYRIDINE
2
82.78
0.588
109­
09­
1
CHLOROSTYRENE
(­
4)
385.00
0.612
1331­
28­
8
CHLOROTETRAHYDROFURAN
3
16.83
0.419
CHLOROTHANONIL
0.11
0.020
1897­
45­
6
CHLOROTHIOPHENOL
P
21.30
0.404
106­
54­
7
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
CHLOROTOLUENE­
4
258.90
0.588
106­
43­
4
CHLOROTRIFLUOROMETHANE
(
R13)
62420.00
0.660
75­
72­
9
CHLOROTRIMETHYLSILANE
2807.00
0.683
75­
77­
4
CHLOROURACIL,
5­
12.78
0.378
1820­
81­
1
CHLORPYRIFOS*
0.16
0.028
2921­
88­
2
CHRYSENE
2.60
0.206
218­
01­
9
CIS
1,2
CYCLOHEXANEDIOL
DINITRATE
0.43
0.074
CIS
1,2
DIMETHYLCYCLOHEXANE
19840.00
0.536
112134
CIS
1,3
CYCLOHEXANEDIOL
DINITRATE
0.43
0.074
CIS
1,3
DICHLOROPROPENE
132.30
0.625
10061­
01­
5
CIS
2
BUTENE
12920.00
0.741
107­
01­
7
COBALT
ACETATE
0.34
0.084
71­
48­
7
COPPER
PHTHALOCYANINE
320.00
0.429
147­
14­
8
COUMARAN
8.61
0.374
496­
16­
2
CROTONYLENE
(
2­
BUTYNE)
375600.00
0.753
503­
17­
3
CROTYL
MERCAPTAN
144.40
0.626
CUMENE
(
ISOPROPYLBENZENE)
723.00
0.638
98­
82­
8
CYANIDE
RADICAL
(
CN)*
694.40
0.868
CYANIDEION
3.30
0.469
57­
12­
5
CYANOBENZYL
ALCOHOL
P*
0.13
0.044
CYANOGEN
555.10
0.795
460­
19­
5
CYANOGEN
BROMIDE*
25.83
0.547
506­
68­
3
CYANOGEN
CHLORIDE
92.12
0.716
506­
77­
4
CYANOMETHYLPHTHALATE
4
10740.00
0.475
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
CYANOTOLUENE
4
3.17
0.282
104­
85­
8
CYCLOHEPTANE
5556.00
0.640
291­
64­
5
CYCLOHEXANE
9777.00
0.648
110­
82­
7
CYCLOHEXANOL
0.33
0.169
108­
93­
0
CYCLOHEXANONE
1.24
0.256
108­
94­
1
CYCLOHEXENE
2525.00
0.709
110­
83­
8
CYCLOHEXENE
1
ONE,
2
0.60
0.172
930­
68­
7
CYCLOHEXYL
ACETATE
3.95
0.289
622­
45­
7
CYCLOHEXYL­
2,2­
DIPHENYLETHYLAMINE
2
14.28
0.297
CYCLOHEXYLCYCLOHEXANONE
4
223.30
0.486
56025­
96­
8
CYCLOOCTANE
5787.00
0.604
292­
64­
8
CYCLOPENTADIENE
1122.00
0.757
542­
92­
7
CYCLOPENTANE
10100.00
0.702
287­
92­
3
CYCLOPENTENE
3472.00
0.702
142­
29­
0
CYCLOPHOSPHAMIDE
10740.00
0.837
50­
18­
0
CYCLOPROPANE
C3H6
5050.00
0.803
75­
19­
4
CYCLOPROPANECARBONITRILE
0.71
0.227
5500­
21­
0
CYMENE,
PARA
427.30
0.571
99­
87­
6
CYTOSINE*
0.32
0.172
71­
30­
7
DACTHAL
0.12
0.020
1861­
32­
1
DAUNOMYCIN
611.10
0.556
20830­
81­
3
DDD,
P,
P'­
0.37
0.058
72­
54­
8
DDE,
P,
P'­
67.72
0.371
72­
55­
9
DDT
0.46
0.064
50­
29­
3
DECAHYDRONAPHTHALENE
(
DECALIN)
7610.00
0.534
91­
17­
8
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
DECANAL
91.07
0.457
112­
31­
2
DECANE
(
C10
LINEAR)
260700.00
0.609
124­
18­
5
DECANOL
2.91
0.242
112­
30­
1
DIACETYL
4.78
0.500
431­
03­
8
DIALLATE
1306.00
0.547
2303­
16­
4
DIAMINO­
5­
SULFONYL
BENZYL
2,4
10740.00
0.496
DIAZOMETHANE*
10740.00
0.911
334­
88­
3
DIBENZOFURANS*
13.00
0.292
132­
64­
9
DIBROMO­
3­
CHLOROPROPANE,
1,2
13.78
0.404
96­
12­
8
DIBROMOCHLOROMETHANE
63.86
0.748
124­
48­
1
DIBROMOMETHANE
49.00
0.521
74­
95­
3
DIBUTYL
ETHER
326.80
0.599
142­
96­
1
DIBUTYLAMINE
5.05
0.310
111­
92­
2
DICHLORO­
1,3­
CYCLOPENTADIENE
5,5
3739.00
0.667
DICHLORO­
2­
BUTENE
1,2
116.70
0.626
13602­
13­
6
DICHLOROAMINE
(
CHLORIMIDE)*
1.92
0.317
DICHLOROBENZENE
(
MIXED)
199.20
0.579
25321­
22­
6
DICHLOROBENZONITRILE,
2,6­
0.35
0.077
1194­
65­
6
DICHLOROBENZOPHENONE
P,
P
0.26
0.048
90­
98­
2
DICHLOROBIPHENYL
(
PARA)
9.99
0.299
2050­
68­
2
DICHLOROBUTANE
(
1,4)
176700.00
0.795
110­
56­
5
DICHLORODIMETHYLSILANE
3500.00
0.663
75­
78­
5
DICHLORODIPHENYLMETHANE
661.10
0.557
2051­
90­
3
DICHLOROETHANE(
1,1)
ETHYLIDENEDICHLORIDE
312.20
0.641
75­
34­
3
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
DICHLOROETHANE(
1,2)
65.38
0.569
107­
06­
2
DICHLOROETHYL
ETHER
5.48
0.382
111­
44­
4
DICHLOROETHYLENE(
1,2)
CIS
231.50
0.682
156­
59­
2
DICHLOROFLUOROMETHANE
(
R21)
600.00
0.769
75­
43­
4
DICHLOROIODOMETHANE
8.83
0.336
594­
04­
7
DICHLOROPENTAFLUOROPROPANE
5555000.00
0.799
127564­
92­
5
DICHLOROPROPANE
1,2
197.90
0.624
78­
87­
5
DICHLOROPROPYLENE,
1,2­
(
CIS)
335.00
0.686
563­
54­
2
DICHLOROPROPYLENE,
1,2­(
TRANS)
884.20
0.726
563­
54­
2
DICHLOROSTYRENE
2,6
477.80
0.565
28469­
92­
3
DICHLORO­
TRANS­
ETHYLENE(
1,2)
250.60
0.686
540­
59­
0
DICHLOROTRIFLUOROETHANE
(
R123)
1916.00
0.659
306­
83­
2
DICOFOL
0.74
0.085
115­
32­
2
DICYCLOPENTADIENE
555.00
0.612
77­
73­
6
DIELDRIN
2.78
0.179
60­
57­
1
DIEPOXYBUTANE
0.29
0.112
1464­
53­
5
DIETHOXYMETHANE
8.08
0.429
462­
95­
3
DIETHYL
(
N,
N)
ANILINE
10.55
0.314
91­
66­
7
DIETHYL
AMINE
3.33
0.382
109­
89­
7
DIETHYL
ETHER
ACID
CHLORIDE
588900.00
0.869
DIETHYL
SULFATE*
0.34
0.109
64­
67­
5
DIETHYL
THIOETHER
115.00
0.619
352­
93­
2
DIETHYLBENZENE
P
372.80
0.560
105­
05­
5
DIETHYLDIISOCYANATOBENZENE
16.67
0.435
134190­
37­
7
DIETHYLDIPHENYL
UREA
SYM
744.40
0.538
85­
98­
3
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
DIETHYLUREA
1,1*
0.32
0.098
634­
95­
7
DIFLUROMETHANE
638.60
0.792
75­
10­
5
DIHYDRO­
5­
OXAZALONE
(
DIHYDROAZLACTONE)
400.00
0.609
DIHYDROSAFROLE*
4.52
0.269
94­
58­
6
DIIODOMETHANE
24.15
0.444
75­
11­
6
DIISOBUTYLENE
4056.00
0.597
107­
39­
1
DIISODECYL
PHTHALATE
0.14
0.021
26761­
40­
32
DIISOPROPYL
BENZENE
(
PARA)
5944.00
0.529
100­
18­
5
DIISOPROPYL
CARBAMATE*
1614000.00
0.774
2303­
17­
5
DIISOPROPYL
KETONE
38.06
0.481
565­
80­
0
DIISOPROPYLAMINE
2.92
0.306
108­
18­
9
DIMETHOXY
METHANE
9.58
0.488
109­
87­
5
DIMETHYL
AMINE
2.97
0.485
124­
40­
3
DIMETHYL
BENZ(
A)
ANT
7,12
0.46
0.072
DIMETHYL
DISULFIDE
61.10
0.496
624­
92­
0
DIMETHYL
HYDRAZINE(
1,1)
0.55
0.202
57­
14­
7
DIMETHYL
NITROISOPROPYLAMINE
N,
N
14.78
0.363
DIMETHYL
SULFATE*
0.22
0.079
77­
78­
1
DIMETHYL
SULFIDE
(
DMS)
115.70
0.684
75­
18­
3
DIMETHYL
TRISULFIDE
168500.00
0.370
3658­
80­
8
DIMETHYL­
1­
NITROBENZENE
2,4
420.00
0.637
25168­
04­
1
DIMETHYLANILINE
N,
N
4.25
0.536
121­
69­
7
DIMETHYLETHYLAMINE
0.92
0.241
75­
64­
9
DIMETHYLPHENYLCARBINOL
1.49
0.213
617­
94­
7
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
DIMETHYLPROPANE
NEOPENTANE
116300.00
0.718
463­
82­
1
DINITROBENZENE
M
1.22
0.201
99­
65­
0
DINITROTOLUENE
(
MIXED)
0.23
0.056
25321­
14­
6
DI­
N­
OCTYL
PHTHALATE
0.14
0.022
117­
84­
0
DIOXIN
0.55
0.148
1746­
01­
6
DIPHENYL
ETHER
15.50
0.334
101­
84­
8
DIPHENYL
THIOETHER
12.60
0.319
139­
66­
2
DIPHENYLAMINE
0.19
0.057
122­
39­
4
DIPHENYLBUTADIENE
1,3
114.40
0.425
886­
65­
7
DIPHENYLCHLOROMETHANE
561.10
0.546
90­
99­
3
DIPHENYLDIKETONE
583.30
0.602
134­
81­
6
DIPHENYLETHANE
1,1
50.55
0.391
612­
00­
0
DIPHENYLETHANOL
1,1
0.11
0.023
599­
67­
7
DIPHENYLHYDRAZINE,
1,1­
188.90
0.520
530­
50­
7
DIPHENYLMETHANE
2.02
0.216
101­
81­
5
DIPHENYLNITROSAMINE*
41.40
0.402
86­
30­
6
DIPROPYLAMINE
2.83
0.286
142­
84­
7
DIPROPYLBUTRAL
4.96
0.282
DIPROPYLFORMAMIDE
588.90
0.603
6282­
00­
4
DISULFOTON*
0.12
0.021
298­
04­
4
DI­
TERT­
BUTYL­
P­
CRESOL
0.23
0.041
128­
37­
0
DIVINYL
KETONE
24.33
0.436
D­
LIMONENE
1428.00
0.608
5989­
27­
5
DODECACHLOROPENTACYCLODECANE
45.05
0.284
2385­
85­
5
DODECANE
(
C12
LINEAR)
396800.00
0.661
112­
40­
3
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
DODECANOIC
ACID
(
LAURIC
ACID)
0.52
0.080
143­
07­
7
EICOSCANE
(
C20
LINEAR)
17.92
0.290
112­
95­
8
ENDOSULFAN
1.06
0.111
115­
29­
7
ENDRIN
ALDEHYDE*
0.48
0.063
7421­
93­
4
EPOXYBUTANE
1,2
13.58
0.505
106­
88­
7
EPTAM
(
EPTC)
0.74
0.134
759­
94­
4
ETHALFLURALIN
3.58
0.012
55283­
68­
6
ETHANE
26650.00
0.845
74­
84­
0
ETHANE,
1,1,2,2­
TETRACHLORO­
1­
FLUORO­
18740.00
0.544
354­
14­
3
ETHANE,
1,2­
DICHLORO­
1,1,2­
TRIFLUORO­
121200.00
0.590
354­
23­
4
ETHANE,
1­
CHLORO­
1,1,2,2­
TETRAFLUORO­
44030.00
0.584
354­
25­
6
ETHANE,
DICHLOROTRIFLUORO­
(
9CI)
48050.00
0.598
34077­
87­
7
ETHANETHIOL
(
ETHYL
MERCAPTAN)
213.70
0.720
75­
08­
1
ETHANOIC
PEROXYACID
(
PEROXYACETIC
ACID)
0.12
0.090
79­
21­
0
ETHANOL
0.29
0.128
64­
17­
5
ETHENYLBENZENE
(
STYRENE)
150.10
0.760
100­
42­
5
ETHER
(
DIETHYL
ETHER,
ETHYL
ETHER)
71.22
0.631
60­
29­
7
ETHYL
ACETATE
PEROXIDE
166.70
0.524
ETHYL
ACRYLATE
18.93
0.475
140­
88­
5
ETHYL
BUTANOATE
(
ETHYL
BUTYRATE)
19.84
0.448
105­
54­
4
ETHYL
BUTYL
KETONE
7.40
0.356
106­
35­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
ETHYL
CHLOROCARBONATE
6.22
0.406
541­
41­
3
ETHYL
CYANIDE
(
PROPIONITRILE)
1.85
0.390
107­
12­
0
ETHYL
DODECANOATE
71.22
0.372
106­
33­
2
ETHYL
ETHANOATE
(
ETHYL
ACETATE)
13.58
0.485
141­
78­
6
ETHYL
HEPTANOATE
27.78
0.386
106­
30­
9
ETHYL
HYDROPEROXIDE
0.16
0.101
3031­
74­
1
ETHYL
ISOPROPYL
PEROXIDE
14.44
0.373
ETHYL
METHACRYLATE*
31.80
0.487
97­
63­
2
ETHYL
METHANOATE
(
ETHYL
FORMATE)
15.43
0.560
109­
94­
4
ETHYL
METHYL
ETHER
16.10
0.535
540­
67­
0
ETHYL
NITRATE
34.72
0.591
625­
58­
1
ETHYL
PENTANOATE
19.16
0.425
539­
82­
2
ETHYL
PROPYL
ETHER
63.86
0.571
628­
32­
0
ETHYL
S,
S­
DIPHENYL
PHOSPHORODITHIOATE
O*
8.61
0.263
17109­
49­
8
ETHYL
VINYL
ETHER
288.70
0.718
109­
92­
2
ETHYL­(
2)­
PROPYL­(
3)
ACROLEIN*
1.79
0.264
645­
62­
5
ETHYLAMINE
3.47
0.450
75­
04­
7
ETHYLBENZENE
437.80
0.647
100­
41­
4
ETHYLENE
(
ETHENE)
11470.00
0.842
74­
85­
1
ETHYLENE
GLYCOL
DIMETHYL
ETHER
0.75
0.211
110­
71­
4
ETHYLENE
GLYCOL
MONOBUTYL
ETHER
ACETATE
0.69
0.131
112­
07­
2
ETHYLENE
GLYCOL
MONOMETHYL
ETHER
ACETATE
0.15
0.059
110­
49­
6
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
ETHYLENE
OXIDE
6.57
0.419
75­
21­
8
ETHYLETHOXY
PROPIONATE
0.53
0.134
763­
69­
9
ETHYNE
(
ACETYLENE)
1333.00
0.622
74­
86­
2
FENCHONE,
D­
7.61
0.317
4695­
62­
9
FENPROPATHIN*
0.42
0.058
39515­
41­
8
FLUORANTHENE
0.49
0.080
206­
44­
0
FLUORENE
5.32
0.291
86­
73­
7
FLUOROBENZENE
347.20
0.695
462­
06­
6
FLUOROETHANE
1263.00
0.815
353­
36­
6
FLUOROMETHANE*
1068.00
0.855
593­
53­
3
FLUOROURACIL,
5­
103200.00
0.492
51­
21­
8
FOLPET*
0.19
0.033
133­
07­
3
FONOFOS*
0.39
0.062
944­
22­
9
FORMIC
ACID
0.62
0.165
64­
18­
6
FORMIC
ACID,
HEPTYL
ESTER
8.30
0.337
112­
23­
2
FORMYL
FLUORIDE*
18.50
0.651
1493­
02­
3
FREON
11,
TRICHLOROFLUOROMETHANE
5556.00
0.670
75­
69­
4
FREON
12,
DICHLORODIFLUOROMETHANE
22280.00
0.691
75­
71­
8
FREONS
22280.00
0.615
FURFURAL
0.12
0.057
98­
01­
1
GAMMA
BHC
(
LINDANE)
0.29
0.054
58­
89­
9
GENERIC
PEROXIDE
WITH
CL
OR
FL
1.85
0.266
GENERIC
PEROXIDE
WITH
FLUORINE
1.85
0.275
GEOSMIN
16.67
0.368
23333­
91­
1
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
GUANINE
10740.00
0.943
73­
40­
5
HEPTACHLOR
81.40
0.376
76­
44­
8
HEPTACHLOR
EPOXIDE
24.30
0.312
1024­
57­
3
HEPTADECANE
(
C17
LINEAR)
3086.00
0.546
629­
78­
7
HEPTANAL
16.84
0.417
111­
71­
7
HEPTANE
ISO
241700.00
0.728
31394­
54­
4
HEPTANE(­
N)
50000.00
0.611
142­
82­
5
HEXACHLOROBENZENE
28.70
0.335
118­
74­
1
HEXACHLOROBUTADIENE
572.20
0.597
87­
68­
3
HEXACHLOROCYCLOHEXANE
(
ALPHA
ISOMER)
0.43
0.087
608­
73­
1
HEXACHLOROCYCLOHEXANE
(
ALPHA
ISOMER)
0.43
0.087
HEXACHLOROCYCLOPENTADIENE
1494.00
0.586
77­
47­
4
HEXACHLOROETHANE
461.80
0.478
67­
72­
1
HEXACHLORONAPTHALENE
4.83
0.213
1335­
87­
1
HEXADECANE
N
12590.00
0.444
544­
76­
3
HEXAFLUOROACETONE
17200.00
0.755
684­
16­
2
HEXAFLUOROETHANE
1128000.00
0.783
76­
16­
4
HEXAFLUOROPROPENE
191600.00
0.782
116­
15­
4
HEXAMETHYLENE
1,6
DIISOCYANATE*
12590.00
0.686
822­
06­
0
HEXAMETHYLENIMINE
0.35
0.116
111­
49­
9
HEXANAL
11.34
0.427
66­
25­
1
HEXANE(­
N)
42600.00
0.657
110­
54­
3
HEXANOL­
1
1.03
0.193
111­
27­
3
HEXAZINONE
64.44
0.359
51235­
04­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
HEXEN­
2­
ONE
5
4.44
0.371
109­
49­
9
HEXYL
ETHANOATE
29.24
0.424
142­
92­
7
HEXYLAMINE
1.50
0.249
111­
26­
2
HEXYLBENZENE
1208.00
0.592
1077­
16­
3
HYDRAZOIC
ACID
5.61
0.355
7782­
79­
8
HYDROCYANIC
ACID
7.39
0.542
74­
90­
8
HYDROGEN
SULFIDE
537.80
0.822
2148878
HYDROXY
DIMETHYL
ETHER
1083.00
0.906
4461­
52­
3
HYDROXY­
1,3­
CYCLOPENTADIENE
5
225.00
0.587
HYDROXY­
4­
METHYLTETRAHYDROFURAN
3
14.33
0.374
HYDROXY­
5­
METHYLDIMETHYL
PHTHALATE
4
6278.00
0.527
HYDROXY6METHYLPYRIDINE3CARBOXY
LIC
ACID
2
17.00
0.487
38116­
61­
9
HYDROXYACETONE
(
ACETOL)
0.43
0.213
116­
09­
6
HYDROXYCYCLOHEXANONE
4
0.23
0.091
13482­
22­
9
HYDROXYDIMETHYL
PHTHALATE
4
5833.00
0.536
HYDROXYMETHYL
ISOPROPYL
KETONE
125.00
0.529
HYDROXYMETHYL,
N­
METHYLETHYL
AMINE
N
24720.00
0.479
HYDROXYMETHYL­
NCHLOROMETHYLETHYLAMINE
N
400.00
0.602
HYDROXYMETHYLPHENYL
CARBAMATE
N
0.87
0.147
HYDROXYMETHYLVINYL
ETHER
1806.00
0.624
HYDROXYPENTANE
3
0.87
0.211
584­
02­
1
IODOBENZENE
74.07
0.463
591­
50­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
IODOETHANE
396.80
0.721
75­
03­
6
ISOAMYL
NITRATE
123.50
0.601
110­
46­
3
ISOBUTANE
63660.00
0.777
75­
28­
5
ISOBUTYL
ETHANOATE(
ISOBUTYLACETATE)
24.70
0.477
110­
19­
0
ISOBUTYLBENZENE
1792.00
0.606
538­
93­
2
ISOBUTYLENE
11420.00
0.726
115­
11­
7
ISOBUTYRALDEHYDE
10.00
0.482
78­
84­
2
ISOCYANO
4
METHYL
BENZENE*
0.62
0.137
7175­
47­
5
ISODECANOL
2.92
0.250
25339­
17­
7
ISODECYL
OCTYL
ESTER
133.30
0.400
ISOHEPTANOL
2.76
0.274
543­
49­
7
ISOPENTANE
76100.00
0.743
78­
78­
4
ISOPENTANOL
0.78
0.211
123­
51­
3
ISOPENTYL
ETHANOATE
(
ISOAMYL
ACETATE)
32.68
0.466
123­
92­
2
ISOPENTYL
METHANOATE
(
ISOAMYL
FORMATE)
37.04
0.511
110­
45­
2
ISOPHORONE
0.28
0.088
78­
59­
1
ISOPROPYL
AMINE
0.80
0.230
75­
31­
0
ISOPROPYL
ETHANOATE
(
ISOPROPYL
ACETATE)
15.44
0.463
108­
21­
4
ISOPROPYL
ETHER
(
DIISOPROPYL
ETHER)
113.40
0.502
108­
20­
3
ISOPROPYL
METHANOATE
(
ISOPROPYL
FORMATE)
42.95
0.596
625­
55­
8
ISOPROPYL
PROPANOATE
(
ISOPOPYL
PROPIONAT
32.68
0.491
637­
78­
5
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
LEPTOPHOS
(
PHOSVEL)
0.15
0.058
21609­
90­
5
LIMONENE
1233.00
0.596
MALEIC
ANHYDRIDE
0.22
0.090
108­
31­
6
MELAMINE*
4611.00
0.978
108­
78­
1
MERPHOS*
2367.00
0.564
150­
50­
5
MESITYL
OXIDE
2.43
0.308
141­
79­
7
METHANE
35200.00
0.932
74­
82­
8
METHANETHIOL(
METHYL
MERCAPTAN)
175.80
0.759
74­
93­
1
METHANOL
0.40
0.203
67­
56­
1
METHOXYACETIC
ACID
0.10
0.059
625­
45­
6
METHOXYACETONITRILE
9.89
0.516
1738­
36­
9
METHOXYBENZENE
(
ANISOLE)
231.50
0.592
100­
66­
3
METHOXYCHLOR
0.56
0.070
72­
43­
5
METHYL
2­
PROPYL
ETHER
46.30
0.571
598­
53­
8
METHYL
ACRYLATE
13.58
0.386
96­
33­
3
METHYL
ACRYLONITRILE*
12.30
0.480
126­
98­
7
METHYL
AMINE
2.30
0.496
74­
89­
5
METHYL
AMINOACETYLENE
7500.00
0.571
METHYL
BENZOATE
1.77
0.243
93­
58­
3
METHYL
BENZYL
ALCOHOL
4
0.77
0.168
589­
18­
4
METHYL
BIPHENYL
(­
P)
467.80
0.563
644­
08­
6
METHYL
BUTANOATE
11.57
0.451
623­
42­
7
METHYL
CHLOROACETAMIDE
N
0.60
0.165
96­
30­
0
METHYL
CHLOROCARBONATE
456.40
0.818
79­
22­
1
METHYL
CHOLANTHRENE
3
7.44
0.252
56­
49­
5
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
METHYL
COUMARAN
2
445.00
0.653
607­
71­
6
METHYL
DECANOATE
39.68
0.361
110­
42­
9
METHYL
DOCOSANOATE
(
METHYL
BEHENATE)
925.90
0.516
929­
77­
1
METHYL
DODECANOATE
66.14
0.373
111­
82­
0
METHYL
EICOSANOATE
(
METHYL
ARACHIDATE)
555.50
0.501
1120­
28­
1
METHYL
ERUCATE
104.80
0.362
1120­
34­
9
METHYL
ETHANOATE
(
METHYL
ACETATE)
5.04
0.457
79­
20­
9
METHYL
ETHER
DIMETHYL
ETHER
424.00
0.859
115­
10­
6
METHYL
HEXADECANOATE
185.20
0.412
112­
39­
0
METHYL
HEXANOATE
20.58
0.423
106­
70­
7
METHYL
HYDRAZINE
0.17
0.119
60­
34­
4
METHYL
HYDROPEROXIDE
0.18
0.129
3031­
73­
0
METHYL
IODIDE
298.80
0.686
74­
88­
4
METHYL
ISOAMYL
KETONE
99.39
0.594
110­
12­
3
METHYL
ISOBUTYL
KETONE
(
MIBK)
25.25
0.500
108­
10­
1
METHYL
ISOPROPYL
KETONE
25.44
0.543
563­
80­
4
METHYL
LINOLATE
8.82
0.254
112­
63­
0
METHYL
LINOLENATE
1.98
0.160
301­
00­
8
METHYL
METHACRYLATE
18.55
0.382
80­
62­
6
METHYL
METHANOATE
(
METHYL
FORMATE)
13.55
0.569
107­
31­
3
METHYL
MORPHOLINE
0.15
0.059
109­
02­
4
METHYL
NITRATE
27.78
0.607
598­
58­
3
METHYL
OCTADECANOATE
185.20
0.416
112­
61­
8
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
METHYL
OCTANOATE
42.74
0.415
111­
11­
5
METHYL
OLEATE
42.73
0.325
112­
62­
9
METHYL
PENTANOATE
17.92
0.433
624­
24­
8
METHYL
PROPANOATE
(
METHYL
PROPIONATE)
8.96
0.465
554­
12­
1
METHYL
PROPYL
ETHER
81.70
0.650
557­
17­
5
METHYL
PROPYL
SULFIDE
121.80
0.632
3877­
15­
4
METHYL
TERT­
BUTYL
ETHER
32.61
0.519
1634­
04­
4
METHYL
TETRADECANOATE
108.90
0.394
124­
10­
7
METHYL
THIOPHENOL
4
32.00
0.450
106­
45­
6
METHYL­
1,3­
CYCLOPENTADIENE
5
2228.00
0.719
26519­
91­
5
METHYL­
2,3,4­
TRIHYDROQUINOLINE
N
0.81
0.151
491­
34­
9
METHYL­
2­
AMINOETHYLAMINE
1028.00
0.941
109­
81­
9
METHYL­
2­
HYDROXYETHYLAMINE
0.19
0.128
109­
83­
1
METHYL­
3­
ACETYLCYCLOPENTADIENE
1
294.40
0.662
METHYL­
3­
NITROBENZYL
ALCOHOL
4
0.37
0.088
40870­
59­
5
METHYL­
4­
NITROBENZYL
ALCOHOL
2
0.19
0.050
23876­
13­
3
METHYL­
5­
THIOACETYLDIHYDRO1,
3THIAZOLE
4
10740.00
0.517
METHYLBUTADIENE
(
ISOPRENE)
4242.00
0.717
78­
79­
5
METHYLBUTYLAMINE
2.15
0.313
110­
68­
9
METHYLCHLORPYRIFOS
0.17
0.065
5598­
13­
0
METHYLCYCLOHEXANE
23870.00
0.597
108­
87­
2
METHYLCYCLOPENTANE
19840.00
0.657
96­
37­
7
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
METHYLENE
CHLORIDE,
DICHLOROMETHANE
162.90
0.709
75­
09­
2
METHYLFURAN
2*
329.40
0.696
534­
22­
5
METHYLISOBORNEOL,
2­
4.02
0.261
2371­
42­
8
METHYLPHENYL
CARBAMATE
N
0.78
0.163
1943­
79­
9
METHYL­
PHENYLETHYLAMINE
N
75.00
0.506
589­
08­
2
METHYL­
P'­
METHYLTRIPHENYL
PHOSPHINE
P
811.10
0.669
METHYLSTYRENE
(­
4)
179.20
0.564
622­
97­
9
METHYLTIN
TRICHLORIDE
0.13
0.028
993­
16­
8
METHYLTRICHLOROSILANE
8403.00
0.600
75­
79­
6
METHYL­
TRIHYDRO­
1,3­
THIAZOLE
4
5.83
0.336
MITOMYCIN
C*
10740.00
0.470
50­
07­
7
MNNG
10740.00
0.505
70­
25­
7
MOLINATE*
0.33
0.064
2212­
67­
1
MONURON
18.67
0.316
150­
68­
5
MORPHOLINE
3.18
0.464
110­
91­
8
MUSTARD
GAS
2.46
0.244
505­
60­
2
N
METHYL
PYRROLIDINE
1.68
0.303
120­
94­
5
N'­(
2,4­
DIMETHYLPHENYL)­
N­
[[(
2,4­
DIMETHY
0.55
0.074
33089­
61­
1
NALED
3.61
0.259
300­
76­
5
NAPHTHALENE
66.69
0.521
91­
20­
3
NAPHTHOQUINONE­
1,4
1.28
0.201
130­
15­
4
NITRAPYRIN
18.17
0.308
1929­
82­
4
NITRO
M
XYLENE,
2
9.39
0.339
81­
20­
9
NITRO­
4­
METHYLBENZOATE
3
10740.00
0.493
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
NITROBENZENE
1.36
0.223
98­
95­
3
NITROBENZENESULFONYL
CHLORIDE
P
24.61
0.333
98­
74­
8
NITROBENZYL
ALCOHOL
P
11.17
0.407
619­
73­
8
NITROBIPHENYL,
4­
0.14
0.029
92­
93­
3
NITROCELLULOSE
55.56
0.147
9004­
70­
0
NITROETHANE
4.10
0.415
79­
24­
3
NITROFEN
0.17
0.028
1836­
75­
5
NITROGEN
MUSTARD
N­
OXIDE
400.00
0.552
126­
85­
2
NITROMETHANE
15.43
0.588
75­
52­
5
NITROPROPANE
2
6.61
0.418
79­
46­
9
NITROSOBENZYL
ALCOHOL
4
0.75
0.155
NITROSOMORPHOLINE
1.89
0.344
59­
89­
2
N­
NITROSODIBUTYLAMINE
0.56
0.116
924­
16­
3
N­
NITROSODIETHYLAMINE
0.20
0.088
55­
18­
5
N­
NITROSOMETHYLVINYLAMINE*
1.11
0.274
4549­
40­
0
NONADECANE
(
C19
LINEAR)
163.40
0.415
629­
92­
5
NONANAL
40.73
0.425
124­
19­
6
O
TOLUIDINE
0.13
0.052
95­
53­
4
OCTACHLORONAPHTHALENE
40.61
0.301
2234­
13­
1
OCTADECANE
(
C18
LINEAR)
505.00
0.507
593­
45­
3
OCTAFLUOROCYLCLOBUTANE
222200.00
0.591
115­
25­
3
OCTAMETHYLPYROPHOSPHORAMIDE
245600000.0
0
0.830
152­
16­
9
OCTANAL
26.45
0.421
124­
13­
0
OCTANE
277800.00
0.701
111­
65­
9
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
OCTANOL
2
2.02
0.231
123­
96­
6
OCTANOL
3
0.39
0.100
589­
98­
0
OCTANOL
4
0.52
0.120
589­
62­
8
O­
THIOCRESOL
8.44
0.346
137­
06­
4
OXACYCLOPENTADIENE
(
FURAN,
FURFURAN)*
308.60
0.728
110­
00­
9
OXAMIC
ACID*
4.94
0.371
471­
47­
6
P
BROMOCHLOROBENZENE
80.51
0.451
106­
39­
8
P
TOLUIDINE
1.06
0.225
106­
49­
0
PARAFORMALDEHYDE
55.56
0.259
30525­
89­
4
PARALDEHYDE
2.04
0.248
123­
63­
7
PCB
AROCLOR
1016
(
MONOCHLOROBIPHENYL)
10.00
0.305
12674­
11­
2
PCB
AROCLOR
1221
(
MONOCHLOROBIPHENYL)
12.63
0.340
11104­
28­
2
PCB
AROCLOR
1232
(
DICHLOROBIPHENYL)
48.00
0.397
11141­
16­
5
PCB
AROCLOR
1242
(
TRICHLOROBIPHENYL)
27.78
0.331
53469­
21­
9
PCB
AROCLOR
1248
(
QUATROCHLOROBIPHENY
24.15
0.310
12672­
29­
6
PCB
AROCLOR
1254
(
PENTACHLOROBIPHENYL)
18.52
0.334
11097­
69­
1
PCB
AROCLOR
1260
(
HEXACHLOROBIPHENYL)
18.67
0.306
11096­
82­
5
PCB
AROCLOR
1268
22.22
0.314
111032­
14­
4
PCB'S
(
AROCLORS)
15.64
0.326
1336­
36­
3
PEBULATE
8.67
0.613
1114­
71­
2
PENTACHLOROBENZENE
405.60
0.543
608­
93­
5
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
PENTACHLORODECANE
ISOMERS
2.65
0.186
PENTACHLOROETHANE
120.80
0.556
76­
01­
7
PENTACHLORONITROBENZENE
0.20
0.037
82­
68­
8
PENTACHLOROUNDECANE
ISOMERS
0.81
0.096
PENTADECANE
(
C15
LINEAR)
26450.00
0.429
629­
62­
9
PENTADIENE
1,2
7210.00
0.706
591­
95­
7
PENTANAL
(
VALERALDEHYDE)
8.96
0.442
110­
62­
3
PENTANE
68590.00
0.736
109­
66­
0
PENTANEDINITRILE,
2­
BROMO­
2­
(
BROMOMETHYL
1.05
0.126
35691­
65­
7
PENTYL
ETHANOATE
(
N
AMYL
ACETATE)
21.55
0.286
628­
63­
7
PENTYL
PROPANOATE
(
AMYL
PROPIONATE)
46.30
0.452
624­
54­
4
PENTYLAMINE
1.36
0.263
110­
58­
7
PENTYLBENZENE
1110.00
0.599
538­
68­
1
PENTYLCYCLOPENTANE
101000.00
0.510
3741­
00­
2
PERCHLOROMETHYL
MERCAPTAN
125.60
0.560
594­
42­
3
PEROXY
2
PROPENOYL
NITRATE
32.68
0.607
PEROXY
ISOBUTRYL
NITRATE
55.56
0.574
65424­
60­
4
PEROXY
N
BUTRYL
NITRATE
24.15
0.560
PEROXYACETYL
NITRATE
13.55
0.533
2278­
22­
0
PEROXYPROPIONYL
NITRATE
19.16
0.574
PHENANTHRENE
1.98
0.211
85­
01­
8
PHENOL,
2,3,5­
TRIMETHYL­,
METHYLCARBAMAT
47.94
0.358
2655­
15­
4
PHENOL,
3­(
1,1­
DIMETHYLETHYL)­
0.39
0.090
585­
34­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
PHENONTHRIN
0.38
0.053
26002­
80­
2
PHENOTHIAZINE
1106.00
0.688
92­
84­
2
PHENYL
ISOCYANATE
12.77
0.398
103­
71­
9
PHENYL
MERCAPTAN
18.60
0.439
108­
98­
5
PHENYLACETIC
PEROXIDE
0.84
0.169
PHENYLCYCLOHEXANONE
4
486.10
0.590
4894­
75­
1
PHENYLPHENOL
P
177.80
0.496
92­
69­
3
PINENE(
ALPHA­)
1456.00
0.621
80­
56­
8
PIPERIDINE
0.25
0.103
110­
89­
4
POLYCHLORINATED
DODECANE
ISOMERS
0.75
0.089
POLYCYCLIC
KETONE
O
2778.00
0.476
PROPANAL
(
PROPIONALDEHYDE)
4.27
0.421
123­
38­
6
PROPANE
35420.00
0.808
74­
98­
6
PROPANE
SULTONE,
1,3­*
4.27
0.564
1120­
71­
4
PROPANE,
1,1'­
OXYBIS
3­
CHLORO­
1.08
0.172
629­
36­
7
PROPANIL
1022.00
0.556
709­
98­
8
PROPANONE
(
ACETONE)
2.33
0.320
67­
64­
1
PROPENAL
(
ACROLEIN)
7.51
0.457
107­
02­
8
PROPENYL
BENZENE
122.80
0.529
637­
50­
3
PROPIOLACTONE
B
0.56
0.210
57­
57­
8
PROPYL
BUTANOATE
(
PROPYL
BUTYRATE)
29.24
0.447
105­
66­
8
PROPYL
DODECANOATE
(
PROPYL
LAURATE)
71.22
0.368
3681­
78­
5
PROPYL
ETHANOATE
(
PROPYL
ACETATE)
12.08
0.443
109­
60­
4
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
PROPYL
ETHER
(
DIPROPYL
ETHER)
122.20
0.619
111­
43­
3
PROPYL
METHANOATE
(
PROPYL
FORMATE)
20.58
0.539
110­
74­
7
PROPYL
PROPANOATE
(
PROPYL
PROPIONATE)
21.37
0.462
106­
36­
5
PROPYL(­
N)
BENZENE
593.50
0.625
103­
65­
1
PROPYL­
3­
METHOXY
PYRAZINE,
2­
ISO
0.17
0.050
25773­
40­
4
PROPYLAMINE
0.83
0.266
107­
10­
8
PROPYLCYCLOPENTANE
50510.00
0.577
2040­
96­
2
PROPYLENE
(
PROPENE)
11260.00
0.781
115­
07­
1
PROPYLENE
CHLOROHYDRIN
0.29
0.133
127­
00­
4
PROPYLENIMINE
1,2
2
METHYL
AZIRIDINE
0.62
0.251
75­
55­
8
PROPYNE
591.00
0.815
74­
99­
7
PYRAZINE
0.16
0.099
290­
37­
9
PYRENE
0.66
0.102
129­
00­
0
PYRIDINE
0.62
0.192
110­
86­
1
PYRIMIDINE
0.16
0.095
289­
95­
2
PYRROLIDINE
0.13
0.068
123­
75­
1
QUINALDINE
0.30
0.079
91­
63­
4
RONNEL
1.16
0.117
299­
84­
3
S4CHL.
CYCLOHEX.
00DIMETH.
PHOS.
D
ITHIOATE
9.61
0.270
SAFROLE
0.50
0.102
94­
59­
7
SEC
BUTYLBENZENE
771.60
0.621
135­
98­
8
S­
ETHYL
CYCLOHEXYLETHYLCARBAMOTHIOATE
0.37
0.061
1134­
23­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
SODIUM
DODECYL
SULFATE
16.67
0.356
151­
21­
3
SODIUM
DODECYLBENZENE
SULFONATE
0.79
0.102
25155­
30­
32
SODIUM
PENTOBARBITOL
16.67
0.435
57­
33­
0
STREPTOZOTOCIN
10740.00
0.963
18883­
66­
4
STYRENE
OXIDE
0.87
0.181
96­
09­
3
SULFUR
DIOXIDE*
40.70
0.701
2025884
SULFUR
HEXAFLUORIDE
227500.00
0.780
2551­
62­
4
T
2,4
PENTANEDIOL
DINITRATE
3.70
0.260
T
BUTYL
NITRATE
79.36
0.596
TAMARON
(
METHAMIDIPHOS)
0.38
0.117
10265­
92­
6
T­
BUTYL
HYDROPEROXIDE
0.56
0.173
75­
91­
2
TERBACIL
30.33
0.432
5902­
51­
2
TERBUFOS
1.09
0.125
13071­
79­
9
TERPINEOL,
ALPHA
0.68
0.128
98­
55­
5
TERT­
AMYLBENZENE
1010.00
0.598
2049­
95­
8
TERT­
BUTYL
ACETATE
48.50
0.530
540­
88­
5
TERT­
BUTYLBENZENE
661.40
0.606
98­
06­
6
TETRACHLOROAQUINONE
5.41
0.280
118­
75­
2
TETRACHLOROBENZENE
(
1,2,4,5)
538.00
0.573
95­
94­
3
TETRACHLORODIBENZOFURAN
(
2,3,7,8)
8.50
0.271
51207­
31­
9
TETRACHLOROETHANE
(
1,1,1,2)
138.90
0.566
630­
20­
6
TETRACHLOROETHANE
(
1,1,2,2)
27.78
0.479
79­
34­
5
TETRACHLOROETHENE
793.60
0.742
127­
18­
4
TETRACHLOROPHENOL
(
2,3,4,6)
0.63
0.097
58­
90­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
TETRACHLOROPROPENE
(
1,1,2,3)
499.40
0.654
10436­
39­
2
TETRADECANE
63330.00
0.453
629­
59­
4
TETRAETHYL
LEAD*
31640.00
0.660
78­
00­
2
TETRAETHYLENE
PENTANE
1078.00
0.769
TETRAETHYLPYROPHOSPHATE
13.81
0.298
107­
49­
3
TETRAFLUOROETHENE
34720.00
0.609
116­
14­
3
TETRAFLUOROMETHANE
(
CARBONTETRAFLUORIDE)*
259800.00
0.785
75­
73­
0
TETRAHYDROBENZALDEHYDE
1.38
0.233
1321­
16­
0
TETRAHYDROFURAN
(
THF)
3.92
0.541
109­
99­
9
TETRAHYDROPYRAN
6.94
0.397
142­
68­
7
TETRAHYDROTHIOPHENE
33.94
0.530
110­
01­
0
TETRANITROMETHANE*
1.11
0.165
509­
14­
8
THIOACETAMIDE
0.72
0.269
62­
55­
5
THIOANISOLE
13.55
0.387
100­
68­
5
THIOCYANATE
(
TOTAL
AS
SCN­)
1556.00
0.677
463­
56­
9
THIOPHENE
126.30
0.653
110­
02­
1
THIRAM
11720.00
0.540
137­
26­
8
THYMINE
45060.00
0.895
65­
71­
4
TOLUENE
356.70
0.638
108­
88­
3
TOLUENE24DIAZOBISMETATOLUENEDIAMINE
HCL
2.38
0.162
TOLUENESULFONYL
CHLORIDE
0.11
0.026
98­
59­
9
TOLUIC
ALDEHYDE
14.05
0.402
122­
78­
1
TOXAPHENE
0.33
0.053
8001­
35­
2
TRANS
1,2
CYCLOHEPTANEDIOL
DINITRATE
0.62
0.094
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
TRANS
1,2
CYCLOHEXANEDIOL
DINITRATE
1.07
0.139
TRANS
1,2
DIMETHYLCYCLOHEXANE
26450.00
0.547
6876­
23­
9
TRANS
1,3
CYCLOHEXANEDIOL
DINITRATE
0.81
0.117
TRANS
1,3
DICHLOROPROPENE
99.21
0.599
10061­
02­
6
TRANS
1,4
DIMETHYLCYCLOHEXANE
50500.00
0.580
112227
TRANS
2
BUTENAL
(
CROTONALDEHYDE)
1.09
0.251
4170­
30­
3
TRANS
2
BUTENE
12630.00
0.731
624­
64­
6
TRANS
2
HEPTENE
23150.00
0.581
14686­
13­
6
TRANS
2
HEXENAL
2.78
0.310
6728­
26­
3
TRANS
2
OCTENAL
4.27
0.303
2363­
89­
5
TRANS­
TRANS
2,4
HEXADIENAL
5.56
0.369
142­
83­
6
TRIBROMOMETHYLPHOSPHATE
1.93
0.171
TRIBUTYL
PHOSPHOROTRITHIOATE
SSS
8.72
0.247
78­
48­
8
TRIBUTYL
TIN
ACETATE
60.00
0.362
56­
36­
0
TRICHLORO­
1,3,5­
TRIAZINE
2,4,6
51.22
0.503
108­
77­
0
TRICHLOROACETYLCHLORIDE
27.78
0.427
76­
02­
8
TRICHLOROANISOLE
2,3,6
6.44
0.278
50375­
10­
5
TRICHLOROBENZENE
1,2,4
106.40
0.455
120­
82­
1
TRICHLOROBUTANE
1,2,3
0.60
0.164
18338­
40­
4
TRICHLOROETHANE
1,1,1
METHYL
CHLOROFORM
925.90
0.745
71­
55­
6
TRICHLOROETHYLENE
561.80
0.722
79­
01­
6
TRICHLORONITROMETHANE*
113.90
0.595
76­
06­
2
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
TRICHLOROPHENOL
2,4,5
1.10
0.142
95­
95­
4
TRICHLOROPROPANE
1,1,1
179.00
0.605
7789­
89­
1
TRICHLOROPROPANE(
1,1,2)
1611.00
0.766
598­
77­
6
TRICHLOROPROPANE(
1,2,2)
1611.00
0.780
3175­
23­
3
TRICHLOROPROPANE(
1,2,3)
19.16
0.543
96­
18­
4
TRICHLOROPROPENE
(
1,1,2)
403.90
0.648
21400­
25­
9
TRICOSANE
N
127900.00
0.774
638­
6­
5
TRIDECANE
(
C13
LINEAR)
129200.00
0.511
629­
50­
5
TRIETHYLAMINE
8.29
0.369
121­
44­
8
TRIETHYLPHOSPHOROTHIOATE,
O,
O,
O­
400.00
0.528
126­
68­
1
TRIFLUOROACETIC
ACID
0.55
0.149
76­
05­
1
TRIFLUOROACETYLCHLORIDE
22.22
0.412
TRIFLUOROETHANE(
1,1,1)
42780.00
0.787
420­
46­
2
TRIFLUOROMETHANE
(
R23)
3968.00
0.848
75­
46­
7
TRIFLUOROMETHYL
BENZENE
896.00
0.597
TRIFLURALIN
6.10
0.234
1582­
09­
8
TRIIODOMETHANE
(
IODOFORM)
163.40
0.644
75­
11­
8
TRIISOBUTYLENE
1978.00
0.585
7756­
94­
7
TRIISOPROPYLAMINE
93.89
0.413
3424­
21­
3
TRIMELLITIC
ANHYDRIDE
0.23
0.045
552­
30­
7
TRIMETHOXYMETHANE
0.79
0.222
149­
73­
5
TRIMETHYL­
4­
NITROANILINE
2,3,5
500.00
0.567
TRIMETHYLAMINE
13.58
0.576
75­
50­
3
TRIMETHYLBENZENE
(
1,3,5)
326.80
0.580
108­
67­
8
TRIMETHYLPENTANE
2,2,4
185400.00
0.661
540­
84­
1
TABLE
4
OF
APPENDIX
J­­
Continued
Compound
Y/
X
fet
CAS
STAFF
DRAFT
­
09/
30/
2005
TRIMETHYLSILANOL
16.67
0.449
1066­
40­
6
TRINITROBENZENE,
SYM­
0.14
0.031
99­
35­
4
TRINITROTOLUENE(
2,4,6)
0.76
0.131
118­
96­
7
TRIPHENYL
PHOSPHINE
7.28
0.263
603­
35­
0
TRIPHENYLMETHANE
15.17
0.274
519­
73­
3
TRIPHENYLPHOSPHINE
NICKEL
CARBONYL
209.40
0.421
TRIS
(
1­
AZIRIDINYL)
PHOSPHINE
SULFIDE
10740.00
0.492
52­
24­
4
TRIS
(
2,3­
DIBROMOPROPYL)
PHOSPHATE
588900.00
1.002
126­
72­
7
TRISODIUM
NITRILOTRIACETATE
10740.00
0.496
5064­
31­
3
UNDECANE
(
C11
LINEAR)
1010000.00
0.741
1120­
21­
4
URACIL
503.90
0.910
66­
22­
8
URACIL
MUSTARD
611.10
0.605
66­
75­
1
VINYL
ACETATE
27.08
0.550
108­
05­
4
VINYL
ACETYLENE
1462.00
0.793
689­
97­
4
VINYL
DIHYDROPYRAN
24.33
0.502
VINYL
METHYL
ETHER
555.00
0.806
107­
25­
5
VINYLCYCLOHEXENE
4
102200.00
0.634
100­
40­
3
XYLENE
389.70
0.661
1330­
20­
7
XYLENE(­
M)
413.00
0.637
108­
38­
3
XYLENE(­
O)
269.30
0.647
95­
47­
6
XYLENE(­
P)
413.30
0.649
106­
42­
3
XYLYL
CHLORIDE
M
78.33
0.536
620­
19­
9
XYLYL
CHLORIDE
O
78.33
0.536
552­
45­
4
TABLE
4
OF
APPENDIX
J­­
Concluded
STAFF
DRAFT
­
09/
30/
2005
*
Molecular
structure
only
approximate.
STAFF
DRAFT
­
09/
30/
2005
TABLE
5
OF
APPENDIX
J­­
FE
VALUES
FOR
EMISSIONS
FROM
BIOLOGICAL
TREATMENT
SYSTEMS
(
Fet
Values)
(
use
with
Section
2.5.3)

Henry's
Law
Constant
Fet
Value
0.002
0.001
0.004
0.002
0.006
0.003
0.01
0.005
0.014
0.007
0.02
0.010
0.03
0.015
0.04
0.020
0.05
0.25
0.06
0.030
0.07
0.035
0.08
0.040
0.09
0.045
0.1
0.050
0.158
0.060
0.22
0.070
0.27
0.080
0.28
0.090
0.285
0.10
0.288
0.11
0.354
0.12
0.45
0.13
0.5
0.14
0.55
0.15
0.628
0.16
0.71
0.17
0.85
0.18
1.01
0.19
1.10
0.20
1.2
0.21
1.3
0.22
1.75
0.23
TABLE
5­­
Continued
Henry's
Law
Constant
Fet
Value
STAFF
DRAFT
­
09/
30/
2005
1.93
0.24
2.03
0.25
2.3
0.26
2.6
0.27
2.8
0.28
2.9
0.29
3
0.30
3.3
0.31
4.17
0.33
4.6
0.35
8
0.37
9.6
0.39
11
0.40
13
0.41
15
0.43
16
0.44
17
0.45
75
0.47
144
0.50
206
0.52
411
0.54
500
0.56
615
0.58
716
0.60
811
0.62
1000
0.64
4000
0.66
8000
0.68
9000
0.70
11000
0.72
12000
0.74
20000
0.76
TABLE
5­­
Concluded
Henry's
Law
Constant
Fet
Value
STAFF
DRAFT
­
09/
30/
2005
30000
0.78
50000
0.80
210000
0.82
STAFF
DRAFT
­
09/
30/
2005
FORM
1
OF
APPENDIX
J­­
CALCULATION
OF
THE
HENRY'S
LAW
CONSTANT
AT
25

C
FOR
A
COMPOUND
IN
A
SEALED
BATCH
TEST
(
i.
e.,
Two
Phase
Closed
System)
(
use
with
Sections
2.1.3.1
and
2.4.3.1.1)

NAME
OF
THE
FACILITY
___________________________
WASTE
STREAM
IDENTIFICATION
___________________________
COMPOUND
___________________________
REACTOR
HEADSPACE
VOLUME
(
L)
1
______________
REACTOR
LIQUID
VOLUME
(
L)
2
______________
TEMPERATURE
OF
LIQUID
IN
UNIT
(
deg.
C)
3
______________

A
Data
Set
B
Time
(
hr)
C
Liquid
Conc.
(
mg/
L)
D
Gas
Conc.
(
mg/
L)
E
Keq
D/
C
1
2
3
4
5
Temperature
in
degrees
Kelvin.
Add
273.16
to
the
number
on
line
3.
4
________

Molar
ratio.
Multiply
the
number
on
line
4
by
4.555.
5
________

Henry's
law
value
(
mg/
L
gas
per
mg/
L
liquid).
The
average
value
in
column
E.
6
________

Henry's
law
value
(
mole
fract.
gas
per
mole
fract.
liquid).
Multiply
line
6
by
line
5.
7
________
STAFF
DRAFT
­
09/
30/
2005
FORM
1a
OF
APPENDIX
J
 
EXAMPLE
CALCULATION
OF
THE
HENRY'S
LAW
CONSTANT
AT
25

C
FOR
A
COMPOUND
IN
A
SEALED
BATCH
TEST
(
i.
e.,
Two
Phase
Closed
System)
(
use
with
Sections
2.1.3.1
and
2.4.3.1.1)

NAME
OF
THE
FACILITY
Plant
A
WASTE
STREAM
IDENTIFICATION
Waste
A
COMPOUND
Dichlorophenol
REACTOR
HEADSPACE
VOLUME
(
L)
1
1
REACTOR
LIQUID
VOLUME
(
L)
2
10
TEMPERATURE
OF
LIQUID
IN
UNIT
(
deg.
C)
3
25
A
Data
Set
B
Time
(
hr)
C
Liquid
Conc.
(
mg/
L)
D
Gas
Conc.
(
mg/
L)
E
Keq
D/
C
1
1
100
0.1184
0.001184
2
2
90
0.1056
0.001173
3
3
80
0.0917
0.001146
4
4
70
0.0829
0.001184
5
Temperature
in
degrees
Kelvin.
Add
273.16
to
the
number
on
line
3.
4
298.6
Molar
ratio.
Multiply
the
number
on
line
4
by
4.555.
5
1358.12
Henry's
law
value
(
mg/
L
gas
per
mg/
L
liquid).
The
average
value
in
column
E.
6
0.001172
Henry's
law
value
(
mole
fract.
gas
per
mole
fract.
liquid).
Multiply
line
6
by
line
5.
7
1.592
STAFF
DRAFT
­
09/
30/
2005
FORM
2
OF
APPENDIX
J­­
DATA
FORM
FOR
THE
CALCULATION
OF
THE
HENRY'S
LAW
CONSTANT
AT
25

C
FROM
THE
STRIPPING
IN
AN
AERATED
BATCH
TEST
(
i.
e.,
Open
System)
(
use
with
Sections
2.1.3.2
and
2.4.3.1.2)

NAME
OF
THE
FACILITY
________________
WASTE
STREAM
IDENTIFICATION
________________
COMPOUND
________________
CONCENTRATION
BASIS
(
LIQUID
OR
GAS)
________________
TEMPERATURE
of
the
liquid
in
the
unit
(
deg.
C)
1_______________
GAS
FLOW
RATE
(
L/
hr)
2_______________
LIQUID
VOLUME
(
L)
3_______________
Co,
CONCENTRATION
MEASUREMENT
AT
t
=
0(
mg/
L)
4_______________

A
Data
Point
B
Time
(
hr)
C
Concentration
,
C
(
mg/
L)
D
C/
Co
E
­
ln(
C/
Co)

1
2
3
4
5
CALCULATIONS.
Use
additional
lines
as
needed
in
an
expansion
of
the
above
table.
Plot
the
values
in
column
E
(
y
axis)
vs
the
data
in
column
B
(
x
axis).
Reject
outliers.
Curve
fit
with
a
straight
line.
Calculate
the
slope
and
enter
the
slope
on
line
7.
Temperature
in
degrees
Kelvin.
Add
273.16
to
the
number
on
line
1.
5___________

MOLAR
RATIO.
Multiply
the
number
on
line
5
by
4.555.
6___________

Slope
of
the
plot
of
­
ln(
C/
Co)
vs
time
(
per
hour)
7___________

Calculated
Keq
value
(
mg/
L
gas
per
mg/
L
liquid).
Divide
the
number
on
line
7
by
the
number
on
line
2
and
multiply
the
results
by
the
number
on
line
3.
Enter
the
results
on
line
8.
8___________

Henry's
law
value
(
mole
fract.
gas
per
mole
fract.
liquid).
Multiply
the
number
on
line
8
by
the
number
on
line
6.
9___________
STAFF
DRAFT
­
09/
30/
2005
FORM
2a
OF
APPENDIX
J
 
EXAMPLE
DATA
FORM
FOR
THE
CALCULATION
OF
THE
HENRY'S
LAW
CONSTANT
AT
25

C
FROM
THE
STRIPPING
IN
AN
AERATED
BATCH
TEST
(
i.
e.,
Open
System)
(
use
with
Sections
2.1.3.2
and
2.4.3.1.2)

NAME
OF
THE
FACILITY
Plant
A
WASTE
STREAM
IDENTIFICATION
Waste
A
COMPOUND
Dichlorophenol
CONCENTRATION
BASIS
(
LIQUID
OR
GAS)
gas
TEMPERATURE
of
the
liquid
in
the
unit
(
deg.
C)
1
25
GAS
FLOW
RATE
(
L/
hr)
2
1
LIQUID
VOLUME
(
L)
3
10
Co,
CONCENTRATION
MEASUREMENT
AT
t
=
0(
mg/
L)
4
2
A
Data
Point
B
Time
(
hr)
C
Concentration
,
C
(
mg/
L)
D
C/
Co
E
­
ln(
C/
Co)

1
1
1.999765367
0.99988268
0.000117324
2
2
1.999530761
0.99976538
0.000234647
3
3
1.999296183
0.99964809
0.000351971
4
4
1.999061632
0.99953082
0.000469294
5
5
1.998827109
0.99941356
0.000586618
CALCULATIONS.
Use
additional
lines
as
needed
in
an
expansion
of
the
above
table.
Plot
the
values
in
column
E
(
y
axis)
vs
the
data
in
column
B
(
x
axis).
Reject
outliers.
Curve
fit
with
a
straight
line.
Calculate
the
slope
and
enter
the
slope
on
line
7.
Temperature
in
degrees
Kelvin.
Add
273.16
to
the
number
on
line
1.
5
298.16
MOLAR
RATIO.
Multiply
the
number
on
line
5
by
4.555.
6
1358.12
Slope
of
the
plot
of
­
ln(
C/
Co)
vs
time
(
per
hour)
7
0.000117324
Calculated
Keq
value
(
mg/
L
gas
per
mg/
L
liquid).
Divide
the
number
on
line
7
by
the
number
on
line
2
and
multiply
the
results
by
the
number
on
line
3.
Enter
the
results
on
line
8.
8
0.001173235
Henry's
law
value
(
mole
fract.
gas
per
mole
fract.
liquid).
Multiply
the
number
on
line
8
by
the
number
on
line
6.
9
1.592
STAFF
DRAFT
­
09/
30/
2005
FORM
3
OF
APPENDIX
J­­
HOW
TO
SUBTRACT
A
CHEMICAL
FROM
A
METHOD
25D
CONCENTRATION
(
use
with
Section
2.3)

NAME
OF
THE
FACILITY
______________________________________
STREAM
IDENTIFICATION______________________________________

1.
Report
the
average
value
of
the
Method
25D
samples.
You
must
take
at
least
the
minimum
number
of
samples
required
by
the
referencing
subpart.
Report
the
results
for
each
sample
taken
(
ppmw).
If
you
include
any
samples,
you
must
explain
why
the
samples
should
not
be
included
in
the
average.
Measurements
of
volatile
content
with
EPA
Method
25D.
Enter
each
result
on
lines
1­
5
(
ppmw)
1____________
2____________
3____________
4____________
5____________

2.
Report
average
value
of
Method
25D
results.

Average
value
of
Method
25D
results
(
ppmw)
1.

3.
Subtract
from
average
value
of
Method
25D
samples.

No.
Chemical
(
A)
Concentrati
on
(
ppmw)
(
B)
FM
M25D
(
C)
Fm
Adjusted
Concentration
(
ppmw)
(
D)
=
(
B)*(
C)

1
2
3
4
5
6
7
8
9
STAFF
DRAFT
­
09/
30/
2005
10
11
12
13
14
15
16
17
18
19
Sum
of
adjusted
concentrations.
2.

Total
Method
25D
concentration
adjusted
to
subtract
chemicals.
Subtract
Item
2
from
Item
1
(
do
not
enter
less
than
zero).
3.
STAFF
DRAFT
­
09/
30/
2005
FORM
4
OF
APPENDIX
J­­
EXAMPLE
OF
HOW
TO
SUBTRACT
A
CHEMICAL
FROM
A
METHOD
25D
CONCENTRATION
(
use
with
Section
2.3)

NAME
OF
THE
FACILITY
Plant
A
STREAM
IDENTIFICATION
Waste
3A
1.
Report
the
average
value
of
the
Method
25D
samples.
You
must
take
at
least
the
minimum
number
of
samples
required
by
the
referencing
subpart.
Report
the
results
for
each
sample
taken
(
ppmw).
If
you
include
any
samples,
you
must
explain
why
the
samples
should
not
be
included
in
the
average.
Measurements
of
volatile
content
with
EPA
Method
25D.
Enter
each
result
on
lines
1­
5
(
ppmw).

1
100
2
57
3
88
4
110
5
2.
Report
average
value
of
Method
25D
results.

Average
value
of
Method
25D
­
results
(
ppmw)
1.
88.75
3.
Subtract
from
average
value
of
Method
25D
samples.

No.
Chemical
(
A)
Concentratio
n
(
ppmw)
(
B)
Fm
M25D
(
C)
Fm
Adjusted
Concentration
(
ppmw)
(
D)
=
(
B)*(
C)

1
Phenol
150
0.036
5.4
2
Acetic
Acid
200
0.101
20.2
Sum
of
adjusted
concentrations.
2.
25.6
Total
Method
25D
concentration
adjusted
to
subtract
chemicals.
Subtract
Item
2
from
Item
1
(
do
not
enter
less
than
zero).
3.
63.15
STAFF
DRAFT
­
09/
30/
2005
FORM
5
OF
APPENDIX
J­­
HOW
TO
CALCULATE
A
HENRY'S
LAW
CONSTANT
FROM
A
HENRY'S
LAW
CONSTANT
AT
A
DIFFERENT
TEMPERATURE
FOR
THE
SAME
CHEMICAL
(
use
with
Section
2.6)

NAME
OF
THE
FACILITY
CHEMICAL
FOR
EVALUATION
MEASURED
HENRY'S
LAW
CONSTANT
(
atm/
mol
fraction)
1
MEASUREMENT
TEMPERATURE
(
deg.
C)
2
ADJUSTMENT
TEMPERATURE
FOR
HENRY'S
LAW
CONSTANT
(
deg.
C)
3
WATER9
PREDICTED
HENRY'S
LAW
CONSTANT
AT
THE
MEASUREMENT
TEMPERATURE
4
WATER9
PREDICTED
HENRY'S
LAW
CONSTANT
AT
THE
ADJUSTMENT
TEMPERATURE
5
RATIO
OF
HENRY'S
LAW
CONSTANTS.
DIVIDE
THE
NUMBER
ON
LINE
5
BY
THE
NUMBER
ON
LINE
4.
6
ADJUSTED
HENRY'S
LAW
CONSTANT.
MULTIPLY
THE
NUMBER
ON
LINE
6
BY
THE
NUMBER
ON
LINE
1.
7
Discuss
the
assumptions
and
data
inputs
used
for
WATER9.
STAFF
DRAFT
­
09/
30/
2005
FORM
6
OF
APPENDIX
J­­
GENERAL
SYSTEM
SPECIFICATIONS
(
use
with
Section
2.5.2)

You
must
use
site­
specific
values
for
parameters
5,
6,
and
10.

5
Relative
humidity
of
inlet
air
(%)
_____________

6
Temperature
of
air
(

C)
_____________

10
Wind
speed
(
cm/
s
at
10
m)
_____________

For
the
rest
of
the
items,
you
may
use
the
default
values
in
WATER9
or
site­
specific
values.
You
should
document
the
methods
used.
You
only
have
to
report
site­
specific
data
on
this
form;
you
do
not
have
to
report
the
WATER9
default
values.

1
Total
water
added
at
the
unit
(
l/
s)
______________

2
Area
of
openings
at
unit
(
cm2)
______________

3
Radius
of
drop
pipe
(
cm)
______________

4
Drop
length
to
conduit
(
cm)
______________

7
Drain
air
velocity
(
ft/
min)
______________

8
Manhole
air
velocity
(
ft/
min)
______________

9
Conduit
air
velocity
(
ft/
min)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

13
Friction
factor
liquid
______________

14
Friction
factor
gas
______________

15
Radius
of
underflow
conduit
(
cm)
______________

16
Underflow
temperature
(

C)
______________

17
Oscillation
cycle
time
(
min)
______________

18
Design
collection
velocities
(
ft/
s)
______________

19
Design
branch
line
fraction
full
______________
STAFF
DRAFT
­
09/
30/
2005
20
Fraction
of
wind
speed
on
open
drains
______________

21
Number
of
iterations
for
calculations
______________

22
Specified
line
vent
rates,
=
1
______________

23
Iterations
in
vent
convergence
pass
______________

24
Number
of
passes
in
vent
conv.
______________

25
Allowable
vent
error
______________

26
Acceleration
factor
for
vent
convergence
______________

27
Change
in
pressure
______________

28
Oil
molecular
weight
______________

29
Oil
density
(
g/
cc)
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
7
OF
APPENDIX
J­­
DESCRIPTION
OF
GENERAL
COLLECTION
ELEMENTS
(
use
with
Section
2.5.2)

Applicable
units
include
closed
trenches,
open
hub
drains,
covered
drains,
openings
in
a
conduit,
and
manhole
covers.
Waste
may
be
added
either
at
the
unit
or
through
a
drop
pipe.
Each
unit
has
a
potential
vent
or
waste
addition,
followed
by
an
enclosed
conduit
that
ends
at
the
next
downstream
unit.

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

The
following
three
specifications
refer
to
the
potential
vent
or
waste
drop
pipe.

4
Area
of
openings
at
unit
(
cm2)
______________

5
Radius
of
drop
pipe
(
cm)
______________

6
Drop
length
to
conduit
(
cm)
______________

The
term
open
surface
refers
to
the
surface
near
the
vent
or
waste
addition.

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
subsurface
exit
=
1
______________

The
following
three
specifications
refer
to
the
enclosed
conduit
downstream
of
the
unit.

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

The
specified
air
velocity
is
only
used
if
Form
6
general
system
specification
22
equals
1.

16
Speed
of
air
at
opening
(
ft/
min)
______________
STAFF
DRAFT
­
09/
30/
2005
17
Municipal
waste
in
conduit
=
1
______________

18
Assume
equilibrium
in
unit,
=
1
______________

If
waste
is
added
at
the
unit,
specify
the
waste
number.
The
waste
composition
is
described
elsewhere.

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
8
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
OPEN
TRENCHES
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Width
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
9
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
AN
OPEN
SUMP
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

4
Area
of
openings
at
unit
(
cm2)
______________

5
Radius
of
drop
pipe
(
cm)
______________

6
Drop
length
to
conduit
(
cm)
______________

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

13
Area
of
surface
(
cm2)
______________

14
Flow
entrance
depth
under
surface
(
cm)
______________

15
Depth
of
liquid
in
sump
(
cm)
______________

16
Speed
of
air
at
opening
(
ft/
min)
______________

17
Municipal
waste
in
conduit
=
1
______________

18
Assume
equilibrium
in
unit,
=
1
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
10
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
AN
OPEN
J
DRAIN
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

4
Distance
to
trap
liquid
surface
(
cm)
______________

5
Radius
of
drop
pipe
(
cm)
______________

6
Drop
length
to
conduit
(
cm)
______________

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

13
Depth
of
water
level
(
cm)
______________

14
Displacement
in
oscillation
(
cm)
______________

17
Municipal
waste
in
conduit
=
1
______________

18
Assume
equilibrium
in
unit,
=
1
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
11
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
SEALED
COLLECTION
ELEMENTS
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

4
Area
of
openings
at
unit
(
cm2)
______________

5
Radius
of
drop
pipe
(
cm)
______________

6
Drop
length
to
conduit
(
cm)
______________

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

17
Municipal
waste
in
conduit
=
1
______________

18
Assume
equilibrium
in
unit,
=
1
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
12
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
WEIRS
AND
WATERFALLS
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

4
Waterfall
width
at
surface
(
m)
______________

5
Waterfall
drop
height
(
cm)
______________

6
Tailwater
depth
(
m)
______________

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
­
09/
30/
2005
FORM
13
OF
APPENDIX
J­­
THE
DESCRIPTION
OF
LIFT
STATIONS
(
use
with
Section
2.5.2)

1
Description
of
unit
______________

2
Underflow
temperature
(

C)
______________

3
Total
water
added
at
the
unit
(
l/
s)
______________

4
Area
of
openings
at
unit
(
cm2)
______________

5
Radius
of
drop
pipe
(
cm)
______________

6
Drop
length
to
conduit
(
cm)
______________

7
Open
surface
=
1
______________

8
Subsurface
entrance
=
1
______________

9
Subsurface
exit
=
1
______________

10
Radius
of
underflow
conduit
(
cm)
______________

11
Distance
to
next
unit
(
cm)
______________

12
Slope
of
underflow
conduit
______________

13
Fractional
approach
to
equilibrium
______________

14
If
covered,
then
enter
1
______________

19
Waste
1
added
to
system
at
unit
number
______________

20
Waste
2
added
to
system
at
unit
number
______________

21
Waste
3
added
to
system
at
unit
number
______________
STAFF
DRAFT
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09/
30/
2005
DEFINITIONS
OF
TERMS
(
Used
in
Froms
6­
13)

area
of
openings
at
unit
(
cm2)
The
area
that
can
vent
headspace
gas
or
permit
outside
air
to
enter
the
collection
system.
This
area
is
generally
less
than
or
equal
to
the
area
of
the
drop
pipe
opening.

area
of
surface
(
cm2)(
sump)
The
area
of
the
surface
exposed
to
the
wind
or
to
the
headspace
in
a
sump.
This
area
generally
corresponds
to
the
physical
area
of
the
sump
exposed
surface
horizontal
cross­
section.

assume
equilibrium
in
unit,
=
1
If
conditions
are
present
in
the
unit
such
that
equilibrium
is
expected
(
agitated
surface,

sealed
waterfall,
splash
loading,
low
gas
and
liquid
flow,
or
other
factors),
enter
1
as
a
computer
flag.

cover
An
enclosure
that
prevents
the
exchange
of
ambient
air
and
the
headspace
air.
If
there
are
openings
in
the
cover,
then
air
may
be
exchanged
with
the
headspace
air.
The
openings
in
the
cover
are
specified
as
area
of
openings
at
unit.

covered,
then
enter
1.
This
input
value
is
a
computer
program
flag
that
specifies
that
the
unit
is
sealed
and
outside
wind
will
not
blow
across
the
surface
of
the
liquid
in
the
unit.

If
the
unit
is
covered,
this
does
not
indicate
that
the
surface
of
the
liquid
is
not
exposed
to
headspace
gas.
STAFF
DRAFT
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09/
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2005
depth
of
liquid
in
sump
(
cm).
The
depth
in
centimeters
from
the
top
of
the
liquid
surface
in
the
sump
to
the
base
of
the
sump.
The
depth
is
always
positive.

depth
of
water
level
(
cm)
(
J
trap).
The
depth
in
centimeters
from
the
top
of
the
liquid
surface
in
the
water
seal
to
the
base
of
the
water
seal.
This
depth
is
always
positive
and
would
correspond
to
the
wet
distance
on
a
dip­
stick.
This
variable
may
be
used
for
periodically
active
hubs.

description
of
unit.
This
is
a
general
description
that
identifies
the
unit
that
is
being
specified.
Examples
can
include
"
Tank
A45",
"
Drain
E­
17",
"
Sewer
WW4",
or
other
description.
This
description
will
appear
on
some
of
the
reports.

displacement
in
oscillation
(
cm)
(
J
trap).
Distance
of
surface
level
fluctuation
in
the
J
trap.
The
value
of
the
displacement
is
used
in
an
air
emission
model
to
estimate
air
exchange.

distance
to
next
unit
(
cm).
The
distance
of
the
run
of
the
underflow
conduit
that
connects
the
unit
to
the
next
unit
downstream.

distance
to
trap
liquid
surface
(
cm)
(
J
trap).
The
depth
in
centimeters
from
the
top
of
the
open
hub
top
to
the
liquid
surface
within
the
J
trap.
The
depth
is
always
positive
and
would
correspond
to
the
dry
distance
on
a
dip­
stick.
STAFF
DRAFT
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09/
30/
2005
drop
length
to
conduit
(
cm).
The
length
in
centimeters
from
the
top
of
the
hub
in
the
drop
pipe
to
the
typical
liquid
surface
in
the
underflow
conduit.
The
length
is
always
positive.

drop
length
to
conduit
(
cm)(
J
trap).
The
length
in
centimeters
from
the
water
seal
in
the
J
trap
to
the
typical
liquid
surface
in
the
underflow
conduit.
The
length
is
always
positive.

flow
entrance
depth
under
surface
(
cm).
The
length
between
the
surface
of
the
liquid
in
the
sump
and
the
base
of
the
inlet
conduit.
This
length
is
always
positive
and
represents
the
effective
depth
of
flow
for
the
mass
transfer
model.

fractional
approach
to
equilibrium.
The
fraction
of
equilibrium
between
the
liquid
and
the
headspace
in
the
lift
station
unit.
The
lift
station
model
uses
this
value
as
an
input
parameter
because
analysis
of
laboratory
data
indicated
that
the
vent
gas
in
an
enclosed
unit
with
a
waterfall
was
approximately
50
percent
of
the
equilibrium
value.
For
water
falling
in
a
more
open
unit,
consider
using
the
waterfall
unit
instead
of
the
lift
station
model.

headspace.
The
headspace
is
the
air
over
the
wastewater
in
the
enclosed
underflow
conduit.

municipal
waste
in
conduit
=
1.
This
input
value
is
a
computer
program
flag
that
identifies
which
mass
transfer
model
is
used
for
the
calculations.
A
value
of
zero
is
the
default
STAFF
DRAFT
­
09/
30/
2005
value
and
the
mass
transfer
is
calculated
using
the
trench
model
correlation
derived
from
Owens.
A
value
of
1
would
calculate
mass
transfer
through
the
Parkhurst­
Pomeroy
correlation
for
municipal
sewers.
Additional
options
for
mass
transfer
options
may
be
added
in
the
future.

open
surface
=
1.
This
input
value
is
a
computer
program
flag
which
indicates
that
the
surface
of
the
unit
receiving
the
waste
is
open
to
the
atmosphere.
Zero
is
the
default
value
(
closed
unit).
Many
of
the
collection
system
units
have
this
option
for
flexibility.
This
flag
does
not
refer
to
the
underflow
conduit,
only
to
the
units.
The
flow
of
headspace
in
the
drop
pipe
will
be
of
less
importance
if
the
drop
pipe
connects
to
a
unit
that
is
open.

open
surface
=
1
(
J
trap).
This
input
value
is
a
computer
program
flag
which
indicates
that
the
surface
of
the
unit
receiving
the
waste
is
open
to
the
atmosphere.
Zero
is
the
default
value,
and
it
is
considered
very
unusual
to
use
an
open
J
trap
for
discharge
into
a
unit
with
an
exposed
surface.

open
surface
=
1
(
sump).
This
input
value
is
a
computer
program
flag
which
indicates
that
the
surface
of
the
unit
receiving
the
waste
is
open
to
the
atmosphere.
Zero
is
the
default
value,
and
a
value
of
1
indicates
that
there
are
potential
air
emissions
from
wind
blowing
across
the
surface.
STAFF
DRAFT
­
09/
30/
2005
Grates
and
perforated
covers
are
considered
characteristic
of
an
open
surface.

oscillation
cycle
time
(
min).
The
cycle
time
or
period
of
the
water
level
rise
and
drop
in
an
open
water
trap.
Variations
in
the
internal
headspace
pressure
will
cause
water
level
oscillations.

radius
of
drop
pipe
(
cm).
The
radius
in
centimeters
of
the
drop
pipe
that
connects
the
hub
to
the
unit.
There
is
no
water
seal
on
the
drop
pipe
(
see
J
trap).

radius
of
drop
pipe
(
cm)
(
J
trap).
The
radius
in
centimeters
of
the
drop
pipe
forming
a
water
seal
in
the
J
trap.

The
drop
pipe
connects
the
hub
to
the
water
seal
in
the
J
trap.

radius
of
underflow
conduit
(
cm).
One
half
the
diameter
of
a
circular
exiting
pipe
that
connects
the
unit
to
the
next
unit
downstream.
This
pipe
is
considered
closed
and
not
exposed
to
leaks
and
air
exchange
with
the
environment
during
the
run
of
the
pipe.
If
the
conduit
is
not
closed,
consider
the
trench
model.

rise.
The
difference
in
elevation
in
an
underflow
conduit
that
connects
collection
system
units.

run.
The
path
in
an
underflow
conduit
that
connects
collection
system
units.

slope
of
underflow
conduit.
The
ratio
of
the
rise
to
the
run
in
the
underflow
conduit.
The
slope
is
always
positive
and
is
measured
from
downstream
to
upstream
in
each
run.
STAFF
DRAFT
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09/
30/
2005
speed
of
air
at
opening
(
ft/
min).
The
speed
of
flow
into
the
unit
at
the
specified
unit
openings
(
see
area
of
openings
at
unit).
This
value
is
only
used
if
a
special
flag
is
set.
(
See
Form
6
general
specifications
22.
specified
line
vent
rates,
=
1)

subsurface
entrance
=
1.
This
input
value
is
a
computer
program
flag
which
indicates
that
the
headspace
is
blocked
from
flowing
into
or
out
of
the
upstream
underflow
conduits.
A
value
of
zero
indicates
that
there
is
no
headspace
blockage.

subsurface
exit
=
1.
This
input
value
is
a
computer
program
flag
which
indicates
that
the
headspace
is
blocked
from
flowing
into
or
out
of
the
underflow
conduit
downstream.
A
value
of
zero
indicates
that
there
is
no
headspace
blockage.

total
water
added
at
the
unit
(
l/
s).
This
is
an
optional
specification
of
the
total
amount
of
water
added
to
the
collection
system
at
the
unit.
This
specification
is
only
used
if
water
is
added
to
the
specified
wastewater
streams
at
the
unit.
This
optional
specification
could
be
used
if
the
total
wastewater
flow
at
the
unit
differed
from
the
sum
of
the
flows
of
the
wastes
upstream
of
the
unit.

underflow
conduit.
The
exiting
pipe
or
trench
that
connects
the
unit
to
the
next
unit
downstream.
This
conduit
may
be
(
1)

closed
and
not
exposed
to
leaks
and
air
exchange
with
the
environment
during
the
run
of
the
pipe,
or
(
2)
exposed
to
leaks
and
air
exchange
with
the
environment.
STAFF
DRAFT
­
09/
30/
2005
underflow
temperature
(
C).
The
entrance
temperature
of
the
liquid
into
the
unit.
The
temperature
of
the
waste
stream
is
specified
separately.

waste
added
to
system
at
unit
number.
The
input
information
of
waste
streams
into
the
collection
system
units
is
accomplished
by
specifying
the
waste
number.
The
waste
number
refers
to
a
data
base
element
that
includes
the
drop
distance
into
the
hub,

the
flow
rate,
the
temperature,
concentrations,
the
oil
content,

and
other
information.

waterfall
drop
height
(
cm).
The
distance
from
the
top
of
the
waterfall
to
the
tailwater
surface
level
(
unit
liquid
underflow
level).
This
value
is
always
positive.

waterfall:
open
surface
=
1.
The
input
value
is
a
computer
program
flag
which
indicates
that
the
waterfall
is
open
to
the
atmosphere.
Zero
is
the
default
value
(
waterfall
is
enclosed).

waterfall:
tailwater
depth
(
m).
The
depth
of
flow
in
the
underflow
conduit
under
the
waterfall.

waterfall
width
at
surface
(
m).
The
width
of
the
waterfall
across
the
surface
at
the
upper
liquid
level.
The
flow
rate
is
used
with
the
width
to
estimate
the
thickness
of
the
falling
water
film.
