Post on 07-Feb-2022
1.12-9
1
0.00625mSv/h
1
0.01mSv/h
0.15mSv/h
0.15mSv/h
1 1.3mSv/3
2
1.3mSv/3
0.01mSv/h
0.15mSv/h
0.15mSv/h
1.12-8 1.12-12
1.12-53
b.
a
(a)
(a)
D (x, y, 0) (x , y , 0) Gy/h)
K 1 (m3 Gy/MeV Bq h)
E (MeV)
en (m- 1)
r (x , y, z)
(x , y , 0) m
222 0zyyxxr
(m- 1)
B r)
B r)=1+ B r)+ B r )2+ B r )3
B B B
(x , y, z (x, y, z )
(Bq/m 3)
(x, y, z) (b)
(b)
dzdydxz,y,xrBr4
eEK0,y,xD
0 02
r
en1
2
2
2
2
2
2
z2
)hz(
z2
)hz(y2
y
eeeUzy2
Qz,y,x
1.12-54
Q (Bq/s)
U (m/s)
h (m)
y (m)
z z (m)
b
(c)
H =H in+H cont (c)
H Sv/y)
H in
Sv/y)
H cont
Sv/y)
(d)
1.12-55
(d)
H ins s
Sv/y)
H’ ins H” ins
s
Sv/y)
s 6 A B C D E F
H ins H’ ins H” ins (e) (f) (g)
(e)
(f )
(g)
K Sv/ Gy)
f h
f 0
sD 1Bq/s 0.5MeV 1m/s
s
Gy/h)
F
Asinsinsinsin HHHH
LS
t
LSs
LT
Tinin0hins
LS
t
LSs
LT
Tinin0hins
LS
t
LSs
LT
Tinin0hins
SN
ND
fN5.0600,3
EQffKH
SN
ND
fN5.0600,3
EQffKH
SN
ND
fN5.0600,3
EQffKH
1.12-56
ss D,D 1Bq/s 0.5MeV
1m/s
s
Gy/h)
sss D,D,D (a)
Q in
(Bq/y)
E in
(MeV)
N
(y-1)
nT 2
67
3 (y-1)
f LT 2
N t (y-1)
N L S
(y-1)
N’LS, N”LS
(y-1)
LSS s
(s/m)
LSLS S,S
1.12-57
s
(s/m)
L 16
(h)
(h)
H conts s
Sv/y)
H’ conts H” conts
s
Sv/y)
H conts H’ conts H” conts (i) (j) (k)
(i)
(j)
(k)
F
Ascontscontscontscont HHHH
LSt
scontcont
0hconts
LSt
scontcont
0hconts
LSt
scontcont
0hconts
SN
1D
5.0600,3
EQffKH
SN
1D
5.0600,3
EQffKH
SN
1D
5.0600,3
EQffKH
1.12-58
Q cont
(Bq/y)
E cont
(MeV)
S LS s
(s/m)
S’ LS , S” LS
s (s/m)
c .
(a)
K 1 4.46×10-4 (m 3 Gy/MeV Bq h)
en 3.84×10-3 (m-1)
1.05×10-2 (m-1)
B 1.000
B 0.4492
B 0.0038
(b)
h 1.12-17
(e) (f) (g)
K 0.8 ( Sv/ Gy)
f h 1
f 0 1
1.12-59
Q in 5.8×1014 (Bq/y)
2.8×1013 (Bq/y)
E in 3.2×10-2 (MeV)
4.3×10-2 (MeV)
N 20 (y-1)
4 (y-1)
n T 1.12-18
f LT 1.12-19
N t 8,760 (y-1)
N LS , N’ LS , N” LS 1.12-19
LSLSLS S,S,S 1.12-20
(i) (j) (k)
Qcont 9.8×1012 (Bq/y)
2.1×1014 (Bq/y)
E cont 4.4×10-2 (MeV)
8.3×10-2 (MeV)
S LS S’ LS S” LS 1.12-20
d.
9
1 2
1.12-21
1.12-19 9
2
680m Sv
1.12-60
9 1
2 1.12-22
1.12-19 9
2
680m Sv
2
a.
1.12.4.1
3
b.
(l)
(l)i
wiwiwi AK365H
kikmkTkikwiwi ffW)CF(CA
1.12-61
H w Sv/y)
365 (d/y)
K w i i Sv/Bq)
A w i i (Bq/d)
C w i i (Bq/cm3)
(CF) ik i k ((Bq/g)/(Bq/cm3))
W T k k (g/d)
f m k k
f i k k i
TirT i (d)
t k k (d)
c.
(l)
Kwi 1.12-23
Cwi 1.12-24
(CF)ik 1.12-25
WTk 200 (g/d)
20 (g/d)
kri
tT
693.0
ik ef
12
9365
T
693.0r
ikriTi e1
365693.0
T
12
3f
1.12-64
(n)
(n)
Ii n s s
(Bq/cm3)
’ Ii n s ” Ii n s
s
(Bq/cm3)
s 1Bq/h 1m/s
s
(Bq/cm3)
ss , 1Bq/h 1m/s
s
F
As
IinsIinsIinsIin
LS
t
LSs
LT
TIinsIins
LS
t
LSs
LT
TIinsIins
LS
t
LSs
LT
TIinsIins
SN
N
fN760,8
nQ
SN
N
fN760,8
nQ
SN
N
fN760,8
nQ
1.12-65
(Bq/cm3)
(o)
(o)
Ic o n t s s
(Bq/cm3)
’ Ic o n t s ” Ic o n t s
s
(Bq/cm3)
F
As
IcontsIcontsIcontsIcont
LSt
sIcontsIconts
LSt
sIcontsIconts
LSt
sIcontsIconts
SN
1
760,8
Q
SN
1
760,8
Q
SN
1
760,8
Q
1.12-66
Q Ic o n t
(Bq/y)
(p)
Hth = HI + HV + HM (p)
Hth Sv/y)
HI Sv/y)
HV Sv/y)
HM Sv/y)
HI HV HM (q) (r) (s)
(q)
IiIIi MA
K Ii i Sv/Bq)
A Ii i (Bq/d)
M I (cm3/d)
Ii i (Bq/cm3)
(r)
iIiIiI AK365H
iViTiV AK365H
1.12-67
vi
tT
693.0
vidvtvmvvi
vrieFfffMA
K Ti i Sv/Bq)
A v i i (Bq/d)
M v (g/d)
f vm
f v t
f d
F v i i ((Bq/g)/ (Bq/cm 3))
vi i (Bq/cm 3)
T r i i (d )
t v (d)
(s)
Mi
tT
693.0
MifMtMmMMi
MrieFfffMA
A M i i (Bq/d)
M M (ml/d)
f M m
f M t
f f
F M i i ((Bq/ml)/(Bq/cm3))
iMiTiM AK365H
1.12-68
Mi i (Bq/cm3)
t M (d)
c
(q)
K Ii I-131 1.5×10-2 Sv/Bq)
I-133 2.9×10-3 Sv/Bq)
I-131 6.9×10-2 Sv/Bq)
I-133 1.6×10-2 Sv/Bq)
I-131 1.3×10-1 Sv/Bq)
I-133 3.5×10-2 Sv/Bq)
M I 2.22×107 (cm3/d)
8.72×106 (cm3/d)
2.86×106 (cm3/d)
Ii 1 2
I-131 1.17×10-9 (Bq/cm3)
I-133 7.73×10-10 (Bq/cm3)
1 2 670m
(r)
K Ti I-131 1.6×10-2 ( Sv/Bq)
I-133 3.1×10-3 Sv/Bq)
I-131 7.5×10-2 Sv/Bq)
I-133 1.7×10-2 Sv/Bq)
1.12-69
I-131 1.4×10-1 Sv/Bq)
I-133 3.8×10-2 Sv/Bq)
M v 100 (g/d)
50 (g/d)
20 (g/d)
f v m 1
f v t 0.5
f d 0.5
F v i I-131 2.6 ×106 ((Bq/g)/(Bq/cm3))
I-133 4.3 ×105 ((Bq/g)/(Bq/cm3))
vi 1 2
I-131 1.17×10-9 (Bq/cm3)
I-133 7.73×10-10 (Bq/cm3)
1 2 670m
t v 0 (d)
T r i
3 27
13 3 29
(s)
M M 200 (ml/d)
500 (ml/d)
600 (ml/d)
1.12-70
f M m 1
1
0.5
f M t 0.5
f f 1
F M i I-131 6.2 ×105 ((Bq/ml)/(Bq/cm3))
I-133 4.6 ×104 ((Bq/ml)/(Bq/cm3))
Mi 1 2
I-131 4.67×10-11 (Bq/cm3)
I-133 3.08×10-11 (Bq/cm3)
1 2 7,700m
t M 0 (d)
0 (d)
3 (d)
d
1 2
1.12-26
9
0.7 Sv/y)
1.6 Sv/y)
1.12-71
1.2 Sv/y)
Sv
b.
a
1.12.4.1 2
b
(t) (u)
( t)
kkikwss
kikmkkikwiwthi
W)CF(CA
ffW)CF(CA
H wt h Sv/y)
isiis
s
wthi3wth f)SEE(q
A
AKH
1.12-72
K 3 (g Sv/MeV Bq y)
A wt h i i (Bq/d)
A s (g/d)
q s (g)
f s i i
(SEE) i i (MeV/g)
W k k (g/d)
C ws (g/cm3)
(u)
kikmkkkwiFi ffW)CF(CA
H F Sv/y)
A Fi i (Bq/d)
c
(t) (u)
K 3 2.52×102 (g Sv/MeV Bq y)
q s 1.2 ×10-2 (g)
1/5.8 (g)
1/16 (g)
(SEE) i I-131 0.010 (MeV/g)
iFiTiF AK365H
1.12-73
I-133 0.022 (MeV/g)
I-131 0.058 (MeV/g)
I-133 0.12 (MeV/g)
I-131 0.15 (MeV/g)
I-133 0.33 (MeV/g)
f s i I-131 0.1
I-133 0.01
I-131 0.3
I-133 0.04
I-131 0.4
I-133 0.07
W k
200 (g/d)
100 (g/d)
40 (g/d)
20 (g/d)
10 (g/d)
4 (g/d)
3 9
40 (g/d)
20 (g/d)
8 (g/d)
C ws 5×10-8 (g/cm3)
1.12-75
b
(v) (w)
(v)
H c
Sv/y)
A i i
(Bq/d)
Ai = 0.90×AIi+Avi+Ami+Awthi
(w)
HTF
Sv/y)
c
(v) (w) 1.12.4.1
1 1.12.4.1
2
isiis
s
i3c f)SEE(q
A
AKH
iFiMiviTiIiIiTF AAAKAK365H
1.12-76
d
1 2
1 2
0.2 Sv/y)
0.4 Sv/y)
0.4 Sv/y)
1 2
0.7 Sv/y)
1.8 Sv/y)
1.3 Sv/y)
Sv
1.12.4.2
1 2
Sv Sv Sv
Sv
Sv
1.12-92
9
a.
1.12-22 1.12-38 1.12-39 2
a. b
b. a.
10
1.12-40
11
a.
10 1
b. 1.12.5.2
1 1.13.3.3
1 6
1.12.5.2