expe
rtis
e.co
llabo
ratio
n.re
sults
.p
Opt
imiz
ing
Per
form
ance
of
Alp
haS
pect
rom
eter
san
dA
lpha
Spe
ctro
met
ers
and
Gas
Flo
w P
ropo
rtion
al C
ount
ers;
B
est P
ract
ices
for S
ampl
e P
repa
ratio
n
Can
berra
Use
rs G
roup
Mee
ting
Bos
ton,
MA
-Ju
ly 1
5,20
10y
Larr
y Ja
ssin
, Mik
e Fe
rn, T
erry
O’B
rien
Eic
hrom
Tech
nolo
gies
Eic
hrom
Tec
hnol
ogie
s
eich
rom
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ichr
om/N
PO
Com
pany
Ove
rvie
w(H
fiti
tth
Nl
Cit
)(H
ow w
e fit
into
the
Nuc
lear
Com
mun
ity)
•A
mbi
ent/G
ross
Sam
plin
g(S
mea
rs/A
irFi
lters
)•
Am
bien
t/Gro
ss S
ampl
ing
(Sm
ears
/ A
ir Fi
lters
)
•S
ampl
e P
repa
ratio
n R
equi
rem
ents
pp
q
•E
xtra
ctio
n C
hrom
atog
raph
y (E
XC
) Fun
dam
enta
lsS
tiT
lU
tk
CS
epar
atio
n To
ols-
Upt
ake
Cur
ves
Met
hods
–R
esul
ts
•Fi
lters
for A
lpha
Spe
ctro
scop
y
Eic
hrom
/ N
PO
••Fo
unde
d in
199
0Fo
unde
d in
199
0––
Tech
nolo
gy tr
ansf
er fr
om A
rgon
ne N
atio
nal L
abor
ator
yTe
chno
logy
tran
sfer
from
Arg
onne
Nat
iona
l Lab
orat
ory
––20
08 E
ichr
om T
echn
olog
ies
acqu
ired
Nuc
lear
Pow
er O
utfit
ters
2008
Eic
hrom
Tec
hnol
ogie
s ac
quire
d N
ucle
ar P
ower
Out
fitte
rs
––20
09 E
ichr
om m
oved
ent
ire c
ompa
ny in
to o
ne fa
cilit
y in
Lis
le, I
L 20
09 E
ichr
om m
oved
ent
ire c
ompa
ny in
to o
ne fa
cilit
y in
Lis
le, I
L ju
st ~
30 m
iles
of d
ownt
own
Chi
cago
just
~30
mile
s of
dow
ntow
n C
hica
go
eich
rom
Hea
lth P
hysi
cs S
ampl
ing
Smea
rsy
pg
Item
Des
crip
tion
Num
ber P
er B
ox
Pap
er b
acke
d S
mea
rs fo
r rec
ordi
ng50
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ears
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k pa
ckag
ed25
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rom
Res
olve
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ir M
onito
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cter
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tion
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Qua
lity
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lect
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olve
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olve
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eich
rom
S
pike
d R
esol
ve P
TFE
Filt
erP
ost A
ir S
ampl
ing
–1s
t10
min
pg
Compe
nsated
Alpha
= 526
dpm
eich
rom
Res
olve
PTF
E F
ilter
3.0
µ P
TFE
Lam
inat
e47
mm
dia
. (50
to a
pac
kage
)
•Q
ualit
y C
ontro
l Spe
cific
atio
n:–
Bac
kgro
und
< M
DA
for α
& β
–R
esol
utio
nve
rifie
d<6
0K
eVFW
HM
–R
esol
utio
n ve
rifie
d <6
0 K
eV F
WH
M–
Min
imal
cur
ling
<2.5
mm
def
lect
ion
•Th
e fil
ters
hav
e a
easy
to d
eter
min
e or
ient
atio
n:
“Grid
sid
e do
wn,
Opp
osite
Air
flow
”•
Per
form
ance
dem
onst
rate
d at
Eic
hrom
and
ext
erna
llyL
RfC
b–
Lee
Rea
gan
of C
anbe
rra,
–P
eter
Ols
en o
f Was
hing
ton
Clo
sure
Han
ford
eich
rom
S
teps
in th
e S
ampl
eP
repa
ratio
nP
athw
ayB
Sam
ple
Pre
para
tion
Pat
hway
•S
ampl
e P
repa
ratio
n C
once
pts/
M
tEi
tCh
i
Mon
u
Mea
sure
men
t Equ
ipm
ent C
hoic
e
•E
xtra
ctio
nC
hrom
atog
raph
y(E
XC
)•
Ext
ract
ion
Chr
omat
ogra
phy
(EX
C)
Fund
amen
tals
•S
epar
atio
n S
chem
es a
nd R
esul
ts
•Im
porta
nce
of F
ilter
Med
ia–
Rar
e E
arth
-Mic
ro C
o-P
reci
pita
tion
You
r goa
ls fo
r Sam
ple
Pre
para
tion
gp
p
•M
inim
ize
sam
ple
prep
time
and
was
tege
nera
tion
Min
imiz
e sa
mpl
e pr
ep ti
me
and
was
te g
ener
atio
n
•Tr
ade
offs
bet
wee
n l
id
tti
ll
lti
i–
sam
ple
size
, det
ectio
n le
vel,
sam
ple
prep
arat
ion
rigor
•D
ata
qual
ity o
bjec
tives
•D
etec
tion
inst
rum
ent s
elec
tion
•In
stru
men
t'sca
pabi
litie
sIn
stru
men
ts c
apab
ilitie
s
????
eich
rom
Rad
iolo
gic
Scr
eeni
ngC
ount
ers
Rad
iolo
gic
Scr
eeni
ng C
ount
ers
Gas
Flo
Pro
porti
onal
Co
nter
s•
Gas
-Flo
w P
ropo
rtion
al C
ount
ers
Alp
ha/B
eta
Wei
ghtA
ttenu
atio
n–
Alp
ha/B
eta
Wei
ght A
ttenu
atio
n
Alp
ha/B
eta
Cro
ssTa
lkC
alib
ratio
n–
Alp
ha/B
eta
Cro
ss T
alk
Cal
ibra
tion
–A
lpha
/Bet
aIs
otop
eC
alib
ratio
nA
lpha
/Bet
a Is
otop
e C
alib
ratio
n
eich
rom
Am
eric
ium
Spe
ctru
m a
fter T
RU
Res
in S
epar
atio
np
ppr
esen
ce o
f rar
e ea
rths d
egra
des s
pect
rum
-sel
f abs
orpt
ion
issu
es
Am
-241
Am
243
Am
-243
eich
rom
Am
Spe
ctru
m a
fter T
EVA
Res
in S
epar
atio
nLa
ntha
nide
ele
men
ts re
mov
ed -
clea
ner s
pect
rum
Am
-241
Am
-243
eich
rom
Sam
ple
Pre
para
tion
Ste
ps•
Sam
ple
Mod
ifica
tion
–D
iges
tion
Pre
para
tion
Dig
estio
n–
Leac
h–
Fusi
on
•V
olum
e R
educ
tion
–P
reci
pita
tion
–E
vapo
ratio
n–
Ion
Exc
hang
e
12 S
ampl
es o
f Milk
,10
0 m
L A
li quo
ts
Flow
Cha
rt of
with
tim
e fr
ames
R
adio
stro
ntiu
m E
mer
genc
y M
etho
d A
t SR
S q
Cal
cium
Pho
spha
te
Prec
i pita
tion
+3
Hou
rs
pA
cidi
ficat
ion
and
Wet
Ash
Furn
ace
@ 5
50C
30 –
60
Min
utes
Sepa
ratio
n us
ing
Sr-R
esin
and
M
ount
ing
2.5
Hou
rs
Gas
-Flo
w
Pti
l20
60Pr
opor
tiona
l C
ount
ing
20 –
60
Min
utes
Max
wel
l III
, SL
and
Cul
ligan
, B.K
., “R
apid
Met
hod
for D
eter
min
atio
n of
Rad
iost
ront
ium
in E
mer
genc
y M
ilk S
ampl
es”,
Jou
rnal
of R
adio
anal
ytic
al a
nd N
ucle
ar C
hem
istry
, Vol
. 279
, 3 (2
009)
757
-760
eich
rom
Ext
ract
ion
Chr
omat
ogra
phy
Ext
ract
ion
Chr
omat
ogra
phy
Solv
ent E
xtra
ctio
nC
olum
n C
hrom
atog
raph
y
eich
rom
Extr
actio
n C
hrom
atog
raph
ic R
esin
Iner
t sup
port
=
MA
liM
acro
poro
usA
cryl
ic
Res
in
Exa
mpl
e St
atio
nary
Pha
ses
•Cro
wn
Eth
er(S
r)C
row
n E
ther
(Sr)
•C
MPO
(TR
U)
•DA
AP
(UT
EVA
)D
AA
P (U
TE
VA)
eich
rom
EX
CR
iE
tt
tCh
iE
XC
Res
in E
xtra
ctan
t Cho
ice
•Io
nic
Rec
ogni
tion
Ext
ract
ant b
ased
resi
n–
Ana
lyte
rete
ntio
n re
late
d to
cha
rge
and
ioni
c ra
dii
Nt
ld
Ai
iE
tt
tbd
i•
Neu
tral a
nd A
nion
ic E
xtra
ctan
t bas
ed re
sin
–A
naly
tes
are
dire
ctly
hyd
roge
n io
n de
pend
ant,
alth
ough
anio
nic
extra
ctan
tbas
edre
sins
tend
tosh
owal
thou
gh a
nion
ic e
xtra
ctan
t bas
ed re
sins
tend
to s
how
re
duce
d an
alyt
e up
take
as
the
acid
com
pete
s
•A
cidi
c E
xtra
ctan
t bas
ed re
sin
–A
naly
te re
tent
ion
is in
vers
e hy
drog
en io
n de
pend
ant
eich
rom
SrR
esin
/Ion
icR
ecog
nitio
nSr
Res
in/ I
onic
Rec
ogni
tion
di-t-
buty
lcyc
lohe
xano
18-c
row
n-6
Sr+2
, Pb
+2
Ioni
c R
ecog
nitio
n,
id
hsi
ze a
nd c
harg
e
eich
rom
D
iges
t Sam
ple
With
SrC
arrie
rW
ith S
rCar
rier
Sam
ple
Take
nto
Dry
ness
:S
ampl
e Ta
ken
to D
ryne
ss:
Dis
solv
ed in
8M
HN
O3
8M H
NO
3Lo
aded
on
SrR
esin
Sre
lute
d fro
m S
rRes
in w
ith 0
.05M
HN
O3
Eva
pora
te e
luat
e on
pl
anch
et
Wei
gh fo
r SrC
arrie
rC
ount
for S
r89/
90
Sepa
ratio
nof
Nia
ndFe
bySe
para
tion
of N
i and
Fe
by
anio
n ex
chan
ge c
hrom
atog
raph
y•
Ni c
an b
e co
mpl
etel
y se
para
ted
ElC
%fro
m F
e, C
o, C
u, Z
n, U
, Pu,
etc
.•
Fe c
an b
e se
para
ted
from
Ni,
Cr,
Mn,
Th,
etc
.
Elem
ent
Con
tent
, %
Ni f
ract
ion
Fe fr
actio
n
F3+
000
198
5•
Ni c
anno
t be
effic
ient
ly se
para
ted
from
C
r, Eu
, Sm
, Mn,
V, S
c, T
i, Zr
, Ba,
Th,
Am
. O
f the
m, t
he ra
dioi
soto
pes o
f Eu,
Sm
, Ba,
Zr
, Mn,
Cr a
nd m
atrix
ele
men
ts o
f Cr,
Mn
Fe3+
<0.0
01>9
8.5
Ni2+
>99.
5<0
.001
Co2+
<001
<01
,,C
ad
ae
ee
soC
,V
in m
etal
and
allo
y se
rious
ly in
terf
er th
e de
term
inat
ion
of N
i-63.
•Fe
cann
ot b
e co
mpl
etel
y se
para
ted
from
Z
CC
PN
ill
h
Co
<0.0
1<0
.1
Ba2+
<7.5
<0.0
01
Eu3+
>99.
8<0
.001
Zn, C
o, C
u, P
u, N
p, e
spec
ially
whe
n a
larg
e am
ount
of F
e (>
10 m
g) is
load
ed o
n th
e co
lum
n.
Thus
: a fu
rther
pur
ifica
tion
for b
oth
Ni a
nd
Cs+
>99.
5<0
.001
Sr2+
>99.
5<0
.001
pFe
is n
eede
d.
eich
rom
Phy
sica
l Cha
ract
eris
tics
of E
ichr
om’s
Nic
kel
Res
in
•11
%(w
/w)D
MG
load
ing
•11
% (w
/w) D
MG
load
ing
•R
esin
Den
sity
~ 0
.25
g/m
L
•W
orki
ng c
apac
ity ~
3m
g N
i
eich
rom
Dec
onta
min
atio
n Fa
ctor
s -R
WC
U R
esin
S
ampl
ep
Cr-
51>3
7,00
0
Mn-
5427
0,00
0
Co-
5811
0,00
0
Co-
6011
3,00
0
Nb-
9513
,700
Cs-
134
>9,0
00
Cs-
137
58,0
00,
eich
rom
Cob
alt I
ssue
s
•If
DF
for C
o is
not
ade
quat
e–
Trea
t sam
ple
thro
ugh
1X-8
Ani
on E
xcha
nge
Res
in
ldi
f10
MH
Cl
ThC
flo
adin
g fro
m 1
0 M
HC
l. T
he C
o fo
rms
a ch
loro
com
plex
and
is re
tain
ed o
n th
e co
lum
n w
hile
th
e N
i pas
ses
thro
ugh
in th
e lo
ad a
nd ri
nse
–O
R a
dd 5
mg
of C
o to
sam
ple
this
isot
opic
ally
dilu
tes
the
radi
oact
ive
Co
eich
rom
Triti
umC
olum
nTr
itium
Col
umn
Rec
over
ies
and
Dec
onta
min
atio
n
Spi
ke R
ecov
ery
Res
ults
usi
ng T
ritiu
m C
olum
nS
ampl
e Ty
peVo
lum
e3H
Spi
ke%
Rec
over
y C
arol
ina
Pow
er &
Lig
ht S
ampl
esIs
otop
eP
WR
Sam
ple
BW
R S
ampl
eC
r51
290
01
900
Dis
tille
d w
ater
15 m
L97
.2 B
q96
.4%
(n=4
)
Dis
tille
d t
25 m
L20
.2 B
q87
.6%
(n=4
)
Cr-
512,
900
1,90
0M
n-54
518
5,59
0C
o-58
4,74
04,
960
Fe-5
910
9--
-w
ater
q%
()
Dis
tille
d w
ater
25 m
L19
.5 B
q94
.9%
(n=7
)
Gro
und
Co-
6039
25,
990
Sn-
113
230
---
Nb-
954,
220
116
Zr95
221
0G
roun
d w
ater
25 m
L17
.1 B
q91
.2%
(n=5
)
Sea
wat
er25
mL
4.0
Bq
90.0
% (n
=6)
Zr-9
52,
210
---
I-131
14,2
00--
-C
s-13
41,
1200
---
Cs-
137
1,32
0--
-
Urin
e25
mL
85.1
Bq
91.1
% (n
=4)
La-1
40--
-1,
550
Ce-
144
---
203
D. C
ahill
, Car
olin
a P
ower
& L
ight
, New
Hill
NC
eich
rom
TRU
Res
in, N
eutra
l Ext
ract
ant
Oct
yl(p
heny
l)-N
,N-d
iisob
utyl
carb
amoy
lmet
hylp
hosp
hine
oxi
de(C
MPO
)
Dilu
ent:
tri-n
-but
yl p
hosp
hate
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rom
TR
U R
esin
: Neu
tral E
xtra
ctan
t
DG
A R
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tral e
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t/ io
nic
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gniti
on
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817
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(C
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33
3
X =
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or N
O3-
DG
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Nor
mal
TRU
Res
inA
ctin
ides
on
TRU
vs.
DG
A o
ut o
f HN
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105
10 6
DG
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esin
, Nor
mal
TRU
Res
in
Pu
10 4
10
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Pu
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k'
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10-2
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100
101
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10-2
10-1
100
101
[HN
O 3][H
NO 3]
eich
rom
Act
inid
es a
nd S
r-90
in U
rine
-NR
IP 2
008
Cal
cium
ph
osph
ate
prec
ipita
tion
1) R
edis
solv
ein
8 m
L6M
HN
O3
and
8 m
L2M
Al(N
03 )
32)
Add
0.5
mL
1.5M
Sul
fam
icA
cid
+ 1.
25 m
L1.
5M A
scor
bic
Aci
d
Bea
ker r
inse
: 3m
L 3M
HN
035m
L3M
HN
03to
stac
ked
cart
ridge
s
Vacu
um b
ox p
roce
dure
3) A
dd 2
mL
3.5
M S
odiu
m N
itrite
5mL
3M H
N03
to s
tack
ed c
artr
idge
s
Sepa
rate
car
trid
ges:
TEVA
Res
in a
lone
: 10
mL
3M H
N03
Th E
lutio
n20
-25
mL
9MH
CI
Pu(a
nd/o
r Np)
Elu
tion
20L
20m
L0.
10M
HC
l-0.
05M
HF
-0.0
3M T
iCl3
2 m
LTE
VA R
esin
(50-
100
um)
Al
ht
t
Cer
ium
flu
orid
e
Add
0.5
mL
30 w
t% H
2O2
2 m
LTR
U-R
esin
(5
0-10
0 um
)
Alp
ha s
pect
rom
etry
2L
SR
iSr
Res
in a
lone
: 15
L8M
HN
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U R
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alo
ne:
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A/C
ith15
l4M
HC
L/dd
Cer
ium
flu
orid
e
2 m
LSr
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in
(50-
100
um)
15 m
L8M
HN
03
10 m
L0.
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str
ip S
rEl
ute
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/Cm
with
15
ml 4
M H
CL/
add
15 m
l H20
+ 5
0 ug
Ce+
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l HF
Rin
se 1
2 m
l 4M
HC
l-0.2
MH
FEl
ute
U w
ith 1
5 m
l 0.1
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C2O
4Ev
apor
ate/
bet
a co
untin
g
eich
rom
Pu
in 1
00 m
l Urin
e (a
lpha
)
Pu-236
Pu-239
Pu-239
% Diff
Pu-238
Pu-238
% Diff
%pCi
added
pCipCi
added
pCi%
pCi ad
dedpCi
pCi ad
dedpCi
1111
22.5
19.6
-12.89
0.98
0.97
-1.02
2104
22522
4-04
4098
093
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2104
22.522.
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0.93
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22.2
-1.33
0.98
0.964
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4107
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-222
09810
240
84
10722.5
22-2.2
20.98
1.02
4.08
Avg107
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5021.
55-4.2
20.9
80.9
7-0.9
2
eich
rom
Am
/ Cm
in 1
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l Urin
e (a
lpha
)
Am-24
3Am
-241
Am-24
1%
Diff
Cm-24
4 Cm
-244
% Dif
f%
pCi ad
ded
pCi
pCi ad
ded
pCi
196
710
010
55
093
090
291
96.7
1.00
1.05
50.9
30.9
0-2.
92
100.1
1.00
0.89
-10.7
0.93
0.79
-15.1
398
.71.0
00.9
0-10
0.93
0.91
-2.2
495
.62.0
01.8
1-9.
51.8
61.7
0-8.
65
98.3
2.00
1.81
-9.5
1.86
1.61
-13.4
Avg
979
6984
Avg.
97.9
-6.9
-8.4
Rar
e E
arth
Co-
Pre
cipi
tatio
n fo
r A
ctin
ide
Sam
ple
Alp
haS
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ide
Sam
ple
Alp
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ourc
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tarti
ng S
ampl
e
Add
Rar
e E
arth
C
arrie
r (La
, Ce,
or N
d)
Add
Con
c. H
F ac
id
Wai
t ~30
min
utes
Filte
r thr
ough
0.
1µ R
esol
ve F
ilter
Mou
nt a
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ount
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Co-
Pre
cipi
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Co
Pre
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ilter
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ple
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ntat
ion
FWH
M (k
eV)
243A
m
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over
y 24
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R
ecov
ery
1N
Gl
d28
984%
984%
1N
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loss
y do
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28
98.4
%
98.4
%
2N
oG
loss
y do
wn
2595
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95.5
%
3N
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loss
yup
2210
19%
976%
3N
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loss
y up
2210
1.9%
97.6
%
4N
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loss
y up
2610
0.2%
99.3
%
5Ye
sG
loss
ydo
wn
2510
05%
961%
5Ye
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loss
y do
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2510
0.5%
96.1
%
6Ye
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loss
y do
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2398
.6%
97.0
%
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yup
2595
1%94
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Yes
Glo
ssy
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95.1
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8Ye
sG
loss
y up
2697
.6%
95.0
%
eich
rom
Your
sepa
ratio
nre
sin
tool
box!
Your
sepa
ratio
n re
sin
tool
box
!
How
s
Vers
atili
tyVe
sat
ty
Res
ults
Inst
alla
tion
time/
cost
::d
ose
redu
ctio
n ::
lifec
ycle
cos
t
•S
hiel
ding
Mat
eria
ls o
f Con
stru
ctio
n–
Lead
–Tu
ngst
en–
Ste
el–
Wat
er–
Com
posi
tes/
Lam
inat
esH
ih
Tt
–H
igh
Tem
pera
ture
Rel
ativ
e Th
ickn
ess
(app
rox.
) of G
amm
a Sh
ield
ing
Mat
eria
ls (c
entim
eter
)“R
ule-
of-T
hum
b”
% G
amm
a Tr
ansm
issi
on
Impa
ctfro
mg
()
Impa
ct fr
om
shie
ldin
g/ty
pica
l av
e. s
hut d
own
Gam
ma
E
nerg
y of
09
MeV
Wat
erSt
eel
Tung
sten
(s
olid
)N
PO’s
“T-
Flex
”Le
ad
(sol
id)
Lead
B
lank
et
Laye
rs(1
5#)
of 0
.9 M
eV(
)(
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yers
(15#
)
8 cm
1.3
cm0.
5 cm
1.0
cm0.
6 cm
1 (0
.73k
g/10
0cm
² )55
% to
60%
10 c
m1.
6 cm
0.6
cm1.
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0.9
cm1
-1/2
45%
to 5
0%
142
08
16
11
235
%t
40%
14 c
m2
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8 cm
1.6
cm1.
1 cm
235
% to
40%
18 c
m2.
7 cm
1.1
cm2.
2 cm
1.5
cm2
-1/2
25%
to 3
0%
30 c
m4.
5 cm
1.8
cm3.
5 cm
2.5
cm4
10%
to 1
5%
35 c
m5.
1 cm
2.1
cm4.
2 cm
3 cm
5<
10%
Mea
sure
dV
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alcu
late
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Mea
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s. C
alcu
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cpm
mea
sure
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nM
easu
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ttenu
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n
% C
alcu
late
dat
133
2 K
eV
Atte
nuat
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cula
ted
at 1
173
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Shi
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ng67
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%
Shi
eldi
ng C
onsi
dera
tions
•S
hiel
ding
Pla
cem
ent i
n lin
e w
ith m
axim
um s
ourc
e g
term
(mol
ded
to fi
t spe
cific
com
pone
nts)
•In
stal
latio
n an
d re
mov
al ti
me
criti
cal
Wi
htfi
diid
lhi
ldi
dt
td
•W
eigh
t of i
ndiv
idua
l shi
elds
siz
ed to
not
exc
eed
wor
ker l
iftin
g ca
paci
ty (i
nteg
ral h
ooks
, cin
ch s
traps
)•
Use
ofra
cksy
stem
sde
sign
edfo
rshi
eldi
ngU
se o
f rac
k sy
stem
s de
sign
ed fo
r shi
eldi
ng•
Use
of L
attic
e S
wiv
el H
ook
Sys
tem
s fo
r mul
ti-tie
red
lead
bla
nket
s•
Wat
er ti
ght s
tora
ge c
onta
iner
s fo
r pla
cem
ent i
nsid
e co
ntai
nmen
t•
Trac
ksy
stem
sde
velo
ped
fore
asy
trans
port
of•
Trac
k sy
stem
s de
velo
ped
for e
asy
trans
port
of
shie
ldin
g w
hen
and
whe
re n
eede
d
ALA
RA
Initi
ativ
esS
avin
gE
xpos
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ALA
RA
Initi
ativ
es S
avin
g E
xpos
ure
•M
olda
ble
low
er c
ost
silic
oniz
edtu
ngst
en
iron
blen
diro
n bl
end
•35
min
ute
inst
alla
tion
time
on le
tdow
n pi
ping
(14
feet
tall)
•N
o ne
ed to
rem
ove
il
tiin
sula
tion
•D
ose
redu
ced
from
90
0m
Rto
135
mR
900
mR
to 1
35 m
R
One
2 M
eter
Lon
g B
lank
et =
Tw
o 1
Met
er B
lank
ets
l
Unless you are carrying
them
!
Integral
Hoo
k system
for en
d‐to‐end
conn
ectio
n of lead
blankets.
LIN
KA
BL
E M
OB
ILE
RA
CK
S, IN
CL
UD
ING
Flexible Designs :: Optim
um Shielding
Placement
,T
EL
ESC
OPI
NG
SIN
GLE
AN
D D
OU
BLE
TIE
RED
, LEN
GTH
S 3’
, 4’
AN
D 6
’A
LL C
ON
STR
UC
TED
FO
R T
HR
EE L
AYER
S O
F B
LAN
KET
SPE
RSI
DE
BLA
NK
ETS
PER
SID
ED
IFFE
RIN
G L
EG H
EIG
HTS
PER
MIT
S “L
” SH
APE
D
SHIE
LD W
ALL
SA
LL L
EGS
INC
LUD
E PR
OV
ISIO
NS
FOR
O
UTR
IGG
ERS
(OPT
ION
AL)
TEL
ESC
OPI
NG
SIN
GLE
AN
D M
ULT
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ERED
M
OB
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RA
CK
S A
RE
AVA
ILA
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No
Floo
r::N
oP
robl
emN
o Fl
oor :
: No
Pro
blem
LatticeSw
ivelHoo
kSystem
sLattice Sw
ivel Hoo
k System
sCreate m
ulti‐tie
red lead
blanket sup
port.
Will be self supp
ortin
g on
vertical piping (bare pipe
8”
andlarger
8 and
larger
CO
NTA
INE
RS
OF
ALL
TY
PE
SS
PE
CIF
ICA
LLY
DE
SIG
NE
D F
OR
TH
E A
PP
LIC
ATI
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ATE
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RO
M E
POX
Y C
OAT
ED
ST
EE
L O
R A
LL
STA
INL
ESS
ST
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L.A
S SH
OW
NA
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VE
TY
PIC
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CA
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F
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AN
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SHO
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TY
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AL
CA
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S O
F 7,
000+
PO
UN
DS
AN
D S
TAC
KA
BL
E T
O
TH
RE
E H
IGH
. D
ESI
GN
PE
RM
ITS
SEC
UR
ING
OF
CO
NTA
INE
R T
O E
XIS
TIN
G
STR
UC
TU
RE
FO
R IN
CO
N-T
AIN
ME
NT
APP
LIC
ATIO
NS.
OPT
ION
AL
LIG
HT
KE
Y H
OL
E S
LO
TS.
•AL
L E
ND
S A
ND
CO
VE
R A
RE
R
EM
OV
AB
LE
•FA
STE
NE
RS
AR
E C
APT
UR
ED
.
WE
IGH
T A
LU
MIN
UM
CO
VE
R (A
BO
VE
).
Util
izin
gou
rlea
dbl
anke
tsbe
tter!
Util
izin
g ou
r lea
d bl
anke
ts b
ette
r!
NPO
’sM
obile
Fris
ker/L
owD
ose
NPO
s Mob
ile F
riske
r/Low
Dos
e W
aitin
g/R
est A
rea
Boo
th S
yste
m
Spe
cial
ized
Shi
eldi
ngS
yste
ms
Spe
cial
ized
Shi
eldi
ng S
yste
ms
Fris
ker B
ooth
s, PC
M B
ooth
s and
Han
d ,
and
Foot
Mon
itor B
ooth
s
NP
O’s
low
pro
file
and
flexi
ble
track
App
licationof
syst
emApp
lication of
Track System
s for
Redu
ced
installatio
n tim
e and do
se.
Perm
anent
Storage of
conventio
nal
shieldingmaterials
shielding materials
in con
tainment.
NPO’
s low
profi
le an
d flex
ible t
rack
syste
m R
egen
HX
Appli
catio
nNP
Os l
ow pr
ofile
and f
lexibl
e tra
ck sy
stem,
Reg
en. H
X Ap
plica
tion
Spe
cial
ized
Shi
eldi
ngS
yste
ms
Spe
cial
ized
Shi
eldi
ng S
yste
ms
NPO
’s Reactor Head Shield System fo
r PW
Rs
Sum
mar
y
•R
ecog
nize
d W
orld
wid
e, E
ichr
om a
nd N
PO
de
liver
sol
utio
ns ta
ilore
d to
you
r spe
cific
li
tiap
plic
atio
ns•
Sol
utio
ns b
uilt
from
a c
ombi
ned
50 y
ears
of
nucl
eare
xper
ienc
ein
colla
bora
tion
with
you
nucl
ear e
xper
ienc
e in
col
labo
ratio
n w
ith y
ou•
We
invi
te y
ou to
par
ticip
ate
in th
e ne
xt e
ra o
f su
cces
sful
ALA
RA
solu
tions
succ
essf
ul A
LAR
A s
olut
ions