Table 229. Cumulative rems to organs from 239, 2405,,, via inhalation pathway, liver.
S YRS
EXPOSED
16 VFS
38 YRS
SO ‘YRS
70 YRS
8.85
8.8080
8.68nn
9.8802
8,665
8.6002
B.12
A.6o00
9.8008
H.90a84
OM, o811
8.0578
2.88
8 .BAD |
a.o005
H.a65
A.4iee
0,034
4.78
68,6002
H.80t1
H.68155
B.O437
W.aras
7.38
8.8082
8.8010
3.9241
A. Hers
A.1241
ir. 68
8.aaar
A. a4
.856 1
G.1581
A, 2596
15.480
6.8006
A. O0f6
8.9495
AL,tSas
a, 2550
77.80
8.8021
A.aLes
AL2541
A,r lel
1.3880
¢. 38
A, aaa
HAWS
O.A24}
H.o67Ts
Wl,
17.60
A,69a7
A. Anse
4.0591
“165°
0. OKs
9.50
9.804
O.8n23
,O.0312
B Meo3
B.isis
14.70
8.866
QO, 8035
ALO4S5
AB LSer
4 2aas
PCI‘S
TM SOIL
LIVING PATTERN
IT. MODIFIED
UNMODIFIED
Il. MODIFIED
UNMODIFIED
Ifl. MODIFIED
UNMODIFIED
I¥. MODIFIED
UNMODIFIED
V. MODIFIED
UNMIDIFIED
V1. MODIFIED
UNMODIFIED
|
I = food intake, g/day,
case represents the current conditions;
"village graveled'' shows the effect of
f
placing a 5-cm gravel layer in the village
area; and "
man
= fraction of nuclide ingested
reaching the organ of
plowed! indicates
reference,
OQ
it
the effect of thoroughly mixing the top
fish, shellfish, coconut, land
.
.
marine food chain
erab, etc.),
S
Doses via the marine and terrestrial
food chains were estimated using the
and
the intake and retention by man:
x
|
man
Cc
~man
mass of the organ of reference, (g),
following differential equation to describe
. dC nan - I fman Cc
dt
M
concentration of nuclide in
food product, pCi/g, (i.e.,
30 cm of soil in the specified area.
D
ptdi
(3)
man
= effective elimination rate of
:
nuclide from man, (day }),
(Aman . \piological * r -adioactive’
where
Cc
man
The concentration C in the food preducts
= concentration of nuclide in
man, pCi/g
is calculated assuming that the nuclide
Il-41