radiologicalsurvey at 1411 central avenue detroit, michigan · property at 1411 central avenue,...
TRANSCRIPT
RADIoLOGICALsURvEY AT
1411 CENTRAL AVENUE DETROIT, MICHIGAN
Prepared by
M.R. LANDIS
Environmental Survey and Site Assessment Program Energy/Environment Systems Division
Oak Ridge Associated Universities Oak Ridge, TN 37831-0117
Project Staff
J.D. Berger H.J. Laudeman C.H. Searcy T.J. Sowell
D.A. Gibson E.A. Powell S.M. Shanmugan C.F. Weaver
Prepared for
U.S. Department of Energy as part of the
Formerly Utilized Sites - Remedial Action Program
FINAL REPORT
FEBRUARY 1990
This report is based on work performed under contract number DE-AC05-760R00033 with the U.S. Department of Energy.
TABLE OF CONTENTS
ListofFigures ..........................
List of Tables. ...........................
Introduction ............................
Facility Description. ........................
Procedures .............................
Findings and Results ........................
summary . . . . .
References. . . .
Appendices:
Appendix A:
Appendix 8:
..........................
..........................
Measurement and Analytical Procedures
U.S. Department of Energy Guidelines For Residual Radioactive Material at Formerly Utilized Sites Remedial Action Program and Remote Surplus Facilities Management Program Sites
Page
ii
iv
1
2
2
4
5
26
i
LIST OF FICURRS
FIGURE 1:
FIGURE 2:
FIGURE 3:
FIGURE 4:
FIGURE 5:
FIGURE 6:
FIGURE 7:
FIGURE 8:
FIGURE 9:
FIGURE 10:
FIGURE 11:
FIGURE 12:
FIGURE 13:
FIGURlZ 14:
Map of Detroit, Michigan Indicating the Location of the Facility at 1411 Central Avenue. . . . . . . .
Plot Plan of the North Section of 1411 Central Avenue
Plot Plan of the South Section of 1411 Central Avenue
Plot Plan of the Second Floor of 1411 Central Avenue.
. . . 6
. . . 7
. . . 8
. . . 9
Plot Plan of the North Section of 1411 Central Avenue Indicating Locations of Activity Measurements on the Floor. . . . . . . . . . . . . . . . . . . . .
Plot Plan of the South Section of 1411 Central Avenue Indicating the Locations of Activity Measurements on the Floor. . . . . . . . . . . . . . . . , . . , .
Plot Plan of the North Section of 1411 Central Avenue Indicating the Locations of Activity Measurements on the Walls and Ceiling. . . . . . . . . . . . . . .
Plot Plan of the South Section of 1411 Central Avenue Indicating the Locations of Activity Measurements on the Walls and Ceiling. . . . . . . . . . . . . . .
Plot Plan of the Second Floor of 1411 Central Avenue Indicating the Locations of Activity Measurements on the Floor. . . . . . . . . . s . . . . . . . . . .
Plot Plan of the Second Floor of 1411 Central Avenue Indicating the Locations of Activity Measurements on the Walls and Ceiling. . . . . . . . . . . . . . .
. . . 10
. . . 11
. . . 12
. . . 13
* * . 14
. o . 15
Plot Plan of the North Section of 1411 Central Avenue Indicating the Locations of Exposure Rate Measurements. . . 16
Page
Plot Plan of the South Section of 1411 Central Avenue Indicating the Locations of Exposure Rate Measurements. . . 17
Plot Plan of the Second Floor of 1411 Central Avenue Indicating the Locations of Exposure Rate Measurements. D . 18
Plot Plan of the North Section of 1411 Central Avenue Indicating Paint and Residue Sampling Locations . . . . Q 0 19
ii
,-
LIST OF FIGURES (Continued)
FIGURE 15: Plot Plan of the South Section of 1411 Central Avenue Indicating Paint and Residue Sampling Locations . . . . . . 20
FIGURE 16: Plot Plan of the Second Floor of 1411 Central Avenue Indicating Paint and Residue Sampling Locations . . . . . . 21 ,-
iii
LIST OF TABLES
TABLE 1: Summary of Surface Activity Measurements . . . . . . . . . . 22
TABLE 2: Exposure Rate Measurements . . . . . . . . . . . . . . . . . 23
TABLE 3: Results of Uranium and Thorium Analyses of PaintSamples........................ 24
TABLE 4: Results of Uranium and Thorium Analyses of Residue Samples . . . . . . . . . . . . . . . . . . . . . 25
IV
RADIOLDGICAL SURVEY AT
1411 CENTRAL AVENUE DETROIT, MICHIGAN
INTRODUCTION
Between 1942 and 1952, the University of Chicago conducted research and development activities under contract to the Manhattan Engineer District (MED) and the Atomic Energy Commission (AEC) - predecessors of the Department of Energy (DOE). Wolverine Tube Division used the facility at 1411 Central Avenue in Detroit, Michigan to perform work under subcontract to the University of Chicago. From June 1943 through January 1946, Wolverine Tube Division provided the personnel, facilities, and equipment to fabricate uranium slugs, perform aluminum canning fabrication studies, and extrude beryllium rod and thorium metal. Additional work, of similar nature, was performed later under separate contract to the AEC. At the time the work was performed, Wolverine Tube Division was owned by the Calumet and Hecla Consolidated Copper Company. The facility was later sold to Star Tool, and eventually, to the present occupant, Hermes Automotive.
The DOE has reviewed available historical documentation which describes the previous MED/AEC activities conducted at this facility. Based upon this review, the DOE determined that there was not a potential for significant residual radioactive material to be present as a result of the past MED/AEC conducted at these facilities; however, there was not adequate documentation to determine whether the radiological condition at the termination of the MED/AEC activities of the site satisfied the current guidelines. As a result, DOE requested that a preliminary survey be performed in order to determine if additional investigations are required under the Formerly Utilized Sites Remedial Action Program (FUSRAP) or if the site can be eliminated from the
program.
The Environmental Survey and Site Assessment Program of Oak Ridge Associated Universities (ORAU) was requested by DOE's Decontamination and Decommissioning Division to conduct a preliminary survey of the facility and property at 1411 Central Avenue, Detroit, Michigan.
FACILITY DESCRIPTION
The facility is located at the corner of Central Avenue and Pershing Avenue in the west-southwest section of downtown Detroit (Figure 1). It is of brick veneer over concrete block construction; the building is situated on a concrete slab. The total facility floor area (ground level) is about 30,000 m* (330,000 ftQ. Major internal walls are also of concrete block construction; steel support beams separate the facility into a series of bays (Figures 2 and 3). There is a second story (Figure 4) in the southeast comer of the facility; otherwise, it is a single story structure. The building is presently used as a warehouse. There was no evidence that the western portion of this facility was used in support of MED and AEC activities; therefore, it was not included in this survey.
PROCEDURES
During the period of October 23-26, 1989 ORAU performed a preliminary survey at 1411 Central Avenue, Detroit, Michigan. The objective of this survey
was to obtain sufficient radiological data, upon which to base a decision for inclusion or exclusion from the Formerly Utilized Sites Remedial Action
Program.
Procedures
1. Access consent was obtained from the site owner prior to performing the survey.
2, Surface scans were performed on accessible areas of the floors, lower walls, roof and the outside area, immediately surrounding the facility, to identify areas of elevated direct radiation. Gm scans were performed
on interior and exterior surfaces using NaI(T1) gamma scintillation
2
detectors coupled to countrate meters with audible indicators. Alpha and beta-gamma scans were performed on interior surfaces, using ZnS scintillators, thin window GM detectors, and large area alpha/beta gas proportional detectors coupled to countrate meters with audible indicators. Beta-gamma scans were performed on the roof and exterior surfaces using thin window GM detectors coupled to countrate meters with audible indicators.
Measurements of total and removable alpha and beta-gamma activity were made at randomly selected locations. Measurement locations were referenced to prominent features of the property and building.
Exposure rates were measured at 1 meter (3.3 ft) above the surface at representative locations.
Paint samples were collected from 100 cm* areas on the walls at ten representative locations throughout the facility.
Samples of dust and residue were collected from ten representative locations on the floor and overhead structures.
Samples and direct measurement data were returned to Oak Ridge, Tennessee, for analysis and interpretation. Smears were analyzed for gross alpha and beta. Residue and paint samples were analyzed by alpha spectroscopy for either isotopic uranium or isotopic thorium; results were converted to units of surface activity (dpm/lOO cm*) or volume activity (pCi/g) for comparison with appropriate guidelines.
Additional information concerning major instrumentation, sampling equipment, and analytical procedures is provided in Appendix A. Results of the survey were compared with WE's Guidelines for Residual Radioactivity at Formerly Utilized Sites, Remedial Action Program and Remote Surplus Facilities Management Program Sites, which is included as Appendix B.
FINDINGS AND RESULTS
Scans for alpha, beta and gamma activity of the facility perimeter, building interior, and roof did not identify any areas of elevated contact radiation. TWO hundred and fifty-four measurements for total and removable activity were performed and the results are summarized in Table 1. Total activity levels ranged from <19 to 50 dpm/lOO cm* for alpha and ~320 to 1100 dpm/lOO cm* for beta-gamma. Removable activity levels ranged from <3 to 7 dpm/lOO cm* for alpha and <6 to 12 dpm/lOO cm* for beta. For comparison, the WE surface contamination guideline levels for uranium are;
5,000 dpm/lOO cm*, averaged over 1 m* 15,000 dpm/lOO cm*, maximum in 100 cm* 1,000 dpm/lOO cm*, removable
and for thorium are:
1,000 dpm/lOO cm*, averaged over 1 m* 3,000 dpm/lOO cm*, maximum in 100 cm* 200 dpm/lOO cm*, removable
I Total activity levels at several locations ranged to,100 dpm/lOO cm* for
beta-gamma radiation; this is slightly above the more"restrictive thorium contamination average guideline level of 1000 dpm/lOO cm*, but well within the maximum thorium guideline level of 3000 dpm/lOO cm* and the uranium guideline levels of 5000 dpm/lOO cm*, average, and 15000 dpm/lOO cm*, maximum. Surface scans of these measurement locations indicated that there were no areas on immediately adjacent surfaces, having elevated activity levels. It is therefore concluded that the activity levels averaged over 1 m* are less than 1000 dpm/lOO cm* and that all measurements are therefore within the DOE surface activity guidelines values.
4
,-
-
I-
Exposure rates measured at 27 locations throughout and immediately outside the facility ranged from 7 to 13 pR/h (Table 2). Such levels are typical in buildings of masonry construction; measurement locations 1 and 2 were in a portion of the building with similar construction but having no history of radioactive materials use, thus establishing approximately 10 pR/h as an average background level. All exposure rates were within the DOE external gamma radiation guideline for habitable structures of 20 pR/h above background.
Results of analyses of paint samples are presented in Table 3. Surface activity levels for total uranium ranged from 5 to 22 dpm/lOO cm* and 11 to 71 dpm/lOO cm* for total thorium. All values are well within the DOE surface contamination guidelines,given above.
Radionuclide concentrations in residue samples are presented in Table 4. Total uranium ranged from 1.0 to 1.9 pCi/g; total thorium (Th-228 plus Th-232) ranged from 1.4 to 2.6 pCi/g. These levels are in the range of typical background concentrations of natural uranium and thorium in soil and masonry construction materials. Guidelines being used at DOE F'USRAP sites are 10 pCi/g for total thorium (5 pCi/g Th-232) and 35 to 90 pCi/g for total uranium. Concentrations in these residues are well below such levels. Separate analyses for Th-230 indicates concentrations from 0.4 to 3.7 pCi/g. The DOE guideline is 5 pCi/g above background; all samples were within this guideline and most were typical background levels.
SUMMARY
During the period of October 23-26, 1989, ORAU performed a preliminary survey of the facility and property at 1411 Central Avenue, Detroit, Michigan. Survey activities included scans for alpha, beta, and gamma activity; measurements of total and removable surface activity and exposure rates; and determination of radionuclide concentrations in residue samples. No areas of residual activity in excess of the guideline levels were identified.
Based upon the results of this survey, the radiological conditions of this facility satisfy the current DOE guidelines. It is, therefore, recommended that this faiclity be eliminated from further consideration under FUSRAP.
5
WTDl
-
\
MILES 0 4
b - 6 KILOMETERS
FIGURE 1 : Map of Detroit, Michigan Indicating the Location of the Facility at 141 1 Central Avenue
6
r-----1 l------j I
J r-----
I t
----- 1
L-----4 I ------
J ‘r----j c------j f-----j t------l t-Tl--rTl ii--LiJ
I- ----
i-l-I-L-l_1
rT7-1-r7-l-T11 l-tt-l-tt-I-ttl L 1 i _I_ i i -I-
i 2 i -m
-r-f-i-r7-rr7 .
r--m-r-i
r l--l---i-t-l
C-l-~+C-l-t+-k-t~
l----- \
c---- \
l \
----- I l----- c----
iB$
L-l-i-l-J LJ-LLi-I-L-L-L-L,
r-n--r-i ri-rr7-1-r777-i
t--t-l-i--i bi-l-++---I-t-t-t-t+
L-l-I-LJ L_1-LL1_I-LI-LLJ
r-r-r-r7 ri-r-r7-i-r-r-rr7
7
FF 2
s $
Q>
58 3,
g”’ -1
8 8
a
d> -Jo
a
E$ g$
ii z--r=
> --
L z
-r ‘i=J
E m
<.I
<IL L
oti1 J
dl
z
kig 3 zb
g 01
0
k CENTRAL
AVENUE
I
- c-4 E 2 i W
z ? 6 ‘7 zz
rTl-1-r
rTl-rTTl-- I--tl-l-?-l-1-
iLIi-l-L_Ll-
r-r-r-r-r-ri-r-T7 l-t-l-t-+t-l-~+--l- L i
_I_ L J- 1 -I-
L -! -I- --
r7 I
r-i-+I-I-++-I- k-t-I-t+t---I-t-t---I-t L1-I-L-l-LI_I-LI_I
l--T-I-l--i--r-r-i-r
8
0 c-4 *
ii
m
24-+--+ : 2
0 0
9
/-
l 0
0 00
0 0
r-+----1 r----1
L---~~~e~LJ .
00
I 0
l I@
l
-----1 r0
3 i-a
---
r-! I l-
-i l
. .
---- l t!!-Pl
n-p-l m
c-m
-- I L
c--+ 1 -ii- ----
--Y;G
---r-m-
---. I 10
*I 1
------ l-e
1 re l
l l
r_ ----
I- -?-+
k---- iI
p l
I
~17Le-~eL./!!+ .
l -4
I -L
H
2 Y
‘e
+A 1 =-I-
W
J l
-TTsl I- -----
&! ~Tl-I-T~-I-
l-~i-T,Tl FtJ-
'il-Lt?LJ I-t-t~l-tile
ii-1 _I-
1 _I -1-L i
- l
eeee@e.
---,--w ?.---
- - -/- v--r-CT-’ I
IeI I
I IeI
I I
I*1 I
I I
l-i-l- -I
I I
/ f
H-$+4-l-+4-P;+ 1
I I
I I
I ,e,
I I
1 *I--L-1-l-i
L-l-LL-L-I-L1-LLi
l e0ee0ee
17-l-l-1 m
r,l-rTl&i-rT-~Tle -t-t+-ti-1
H--~+-t-I-c-t-~tie k13L
J L+L~-lyL1-LLeJ
a l
0 0 z
L -1
z w G
E =i
0 0
F .- + 0 V .- -0 c - aJ 3 c ?
6 -5’s -252 CL
&I
3 L= 70
v, +cr O
C al
s .- -? s m
::
52 I 2 ?$ .-
u -
\ Lb +6
+- 00
$? co
.- %
-5; E3
ti W
5 a z
10
g z
l- kc
Ak LL -i
FJ z
0 0
al r
:lL 15
24 -ir
0, r
.- +- s 0 .-
CENTRAL AVENUE
Q
3 .- -Y ki3
c^: 5%
3
; .$ .-
a.!- s-2
r7Gi-ri-ttl--I-++-k- L 1 -I-
L
11
I- .-
E.!
al;5 !2
3 =>
wm
da
z ag a
$i -
50 zz
3 <s
55 g8 E
kg
go g”o 4
<CL w
--J I2
25 4m
t-Tl-rT1 i-t-t-I-t-t-I-?-t-l
L-L-I-Lli LIl-I-11-I-11_!
&H
-l-l+ t--I-i-+
l-i-I-+-+-l-t+-l-t~ 1~I-LJ
L-l-I-L-l-I-LA-iLJ
4 t-t-1-t-i l--I-I-t--t---I-i-+-t-i-+
1-l-l-L-l L-l-l-L-l_I-LA-LLJ
s:
-I z
L i-2 W
It L 2
0 0
a2 Jz 4 F .- -6 0
.- -
7 .E
-- .- $ E
w
2: 0 -+ 0, a2 ?a .- a, -L := v,g
z .; .-
FJ
12
I I I I I f I I I t I I I I
WTDSo
MAICIi i INf
c
__._ -_-.--... ~-I-----.-- ;:
LL_r L--L-l L-l
I t I i i
- ARFAS EXCLUDED N t WM SUHVEY
MEASUREMENT LOCATIONS
A UPPER WALLS OR CEILING
n LOWER WALLS
###t>-_t= RAILROAD
0 FEET 100
0 30 METER5
FIGURE 8: Plot Plan of the South Section of 14 1 1 Central Avenue Indicclting the Locations of Activity Measurements on the Walls and Ceiling
WTD4b
TAIRS
0 II I I I I u I I 0
.
E !
0
/-
MEASUREMENT LOCATIONS
l FLOOR
N
J L ?I=
I
Oa 0 METERS
FIGURE 9: Plot Plan of the Second Floor of 141 1 Central Avenue Indicating the Locations of Activity Measurements on the Floor
t f i
WTD4a
FIGURE
II, 11 I I I I u
a A
lllIIIllIIJ
TAIRS ___ .-
I--
A
rl a
-I
Ill
A
L
/-
MEASUREMENT LOCATIONS
A UPPER WALLS OR CEILING
n LOWER WALLS
N
0: Plot Plan of the Second Floor of 141 1 Central Avenue Indicating the 10~ (ltic.)fl7 of A( tivity Meclsktrerncnts on thr Walls and Ceiling
I -j
I----A r?
r----- -e
t _---- 1
l--- --+-b--l
!- ---- I ----- l
! I
4 64
m
-I
) L------( 81 __----
-.I I-----j b-----+
r _--- l- ----
/----
l----- -1
rT7-1-~7-1-T11 t-Tl--rTl
t-t-t-t-r-t-I-t-t1
I- 1 -I- r 1
l-t-4-t-t L -l -I-
L i
r 7 -I- r 7
l--t--I-t+ LA-I
LJ 5
r-r-m--i
l-4-l-i-C LA-i-ii
LA-L&I__LI-ILJ
ri--rr7-.-r7-rri k-i-l-+-t
--i-t-t-t-t+ L-l-I-LA-I-L&LLJ
rl-r-r-r--7-f-r-r-7 I--I-I-CC---i-t+-l-t-l L-l-iLii-L--iLJ
ri-i-7 I
I I
ri-r7-c--r7-rri I
I I
I I
I I
I I
I I
LA-i-LLt”-“i
16
W
z i I 0 k 2
8 z
L -1
2 ‘Ll kf
L I 0
c
CT c
.- & 0 0 .- 73 c
- al 3 ‘coz
cm
$6 .U +c z z- i- . w
rY
z -
-- -_--
I 1 1 D I D 1 1 I 1 i f D 1
WTD3d
MATCH LINF (FIGURE 2)
I 1 1 1 I
AREAS EXCLUDED FROM SURVEY
. # MEASUREMENT LOCATIONS
###Z$+t+t RAILROAD
0 FEET
100
6 ’ 36 METERS
FIGURE 12: Plot Plan of the South Section of 141 1 Central Avenue Indicating the I ocations of FxposLlre Rate Measurements
I i 1 t f t I I i I I t I I I I I I I
WTD4d
l l7
TAIRS
cl l tg
l l8
, # MEASUREMENT LOCATIONS
N
b s METERS
6
FIGURE 13: Plot Plan of the Second Floor of 141 1 Central Avenue Indicating the I rlc:(Itions of f XI‘IOSII~-(’ Rate Measurements
,-
W
2 z 3 s i ii, CY
&
LfJ “r
l------ 1r
----1
L _---- -I
I I I----’
_---- ;+---;
----- I
: r ----
_ L _----
-I !-----
I ’
- ---
--- J
s-e --
I I
r------i /
m
r---- c-----i
t---- 3
r
0 8 r)
AL 2-
t& 7ir
-
I- -5 ii2 !
L I
0 0
i 6 p----j L---LLJ>LIJ
t--------i I-Tl-I-T-l-I'Tll
W
t-Tl-f-T-i t-t-t--I-t-t-I-t-t1
Z i LiJ-.LlJ
Li_IA.-i.A-i-iii
r-r-r77 rl-rT7-i-r7-rrl
t-t--I-t+ Ci-I--++-l-t-t-~t+
; LA-1-L-l L-J-il.-i-I-ii-L-L1
r-r-m7
ri-rr7-i-r7-rr7 t-t-1-t-l
l-•l-I-+-t---I-t-t-t-t+ (LA-I-LJ
LJ-LL_I-I-LI_LLJ -- t--r-r-r7
ri-r-7-r I
7--f-7-7-7
19
-zD c 2 lg
rE YU O
W
I I I i I I I t I 1 1 I 1 I I i I I I
WTD3
FIGURE 15: Plot Plan of the South Section of 141 1 Central Avenue Indicating Paint and Residue Sampling Locations
tzl AREAS EXCLUDED FROM SURVEY
SAMPLE LOCATIONS
.# PAINT
A# tit. SlDlJF
kt tl I t I 1 t t t t KAILROAD
N
c FET !) 100
METERS
m
wz $2 59 *0 J
0
a L1 Y
I- L 2
1 0
m
c 3 0 0 .- -0 c (L, 2 F Q
-F + c : 7 -Cl? *c -0 .- +
: L-l 0 O
cr G
C .-
-0 a
s gLz Lc
al u<
-c .-
-v,
$z 5; K- u-
-S c ‘0
aa
G 7 W
Q(
7
21
1 ! f%
3%:
.rg:> .3 $j E” g .a=
- Y al -0 5 a=
o- > au-4 02
f B
=;:g 1d
g:> CQ
CL at-0 E
-
> .: > .C L : -ii i 2
5 z z 67
A355 cr E g:g :q ;;(oE Q
2,” P L”
,“a a
YC ,:5 50 z
$2
Q
(0-Y F9
g 5JI?J
IL -
;; kE
$2
:$
E .C
ii !
c- c-
4-J 0
V VI
5
8 8
.-a 4
z 5
I 2 A
A m
%
2
V v
”
=: P- Q
1
:: I
:: V
2 ”
”
z 2
s-4
D 0
g a
3
ii f5
u. 2 G
b 2
L .r L
z
* F .- .- s a v)
5 k B 3
07
A i In (4 v 2 F / R
(7 ” 2 * 0
b 0 0
- L
LL
7 8
- ::
L
3
3 ” m
VI
8 z 2 m
” R ” ct
w VI
Lo A V 8 =: I :: c-3 ” m
m
1 2 ” ‘27
3 F .F
.r s * * P k 8 2
n r-
,z Eta 5
5 m
ik2lrn .F .C .C .C & ii
L u.
0 0
0 0
c *
4 Y
k fii k fi2 -w++ 0 0) al Q
XB
cF#
22
TABLE 2
EXPPOSURE RATE MEASUREMENTS 1411 CENTRAL AVENCE
DETROIT, MICHIGAS
Location= Exposure Rate
(M/h)
Inside 1 2 3 4 5 6 7 8 9
10 11 12 13 14 15 16 17 18 19 20
10 10
8 7
i0 13 8 8 8 8 7
11 9 9 9 8 7 7 9
10
Outside 21 9 22 10 23 10 24 11 25 9 26 10 27 11
aRefer to Figures 11-13.
23
TABLE 3
RESULTS OF URANIUM AND THORIUM ANALYSES OF PAINT SAMPLES
1411 CENTRAL AVENUE I)ETROIT. MICHIGAN
Sample Total Activity (dpm/lOO cm21 Locationa Uranium Thorium
1
2
3
4
5
6
7
8
9
10
ii
--- 11
5 ---
--- 71
14 ---
20 ---
--- 17
22 ---
--- 25
--- 55
=Refer to Figures 14-16. bash indicates analyses not performed.
24
i 1 i f i I i i i I i I I i I I 1 f i
TABLE 4
RESULTS OF URANIUM AND THORIUM ANALYSES OF RESIDUE SAMPLES
1411 CENTRAL AVENUE DETROIT. M ICHIGAN
Sample Location=
Radionuclide Concentrations (pCi/g ) Total Uranium Total Thor ium
(U-234 & U-235 81 U-238) (Th-228 & Th-232) Th-230
1 1.9 f 0.3b --- c ---
2 1 .o k 0.3 ---
3 --- 1.7 2 0.3 1.8 t 1.0
4 1.3 + 0.3 --- ---
5 1.6 f 0.3 ---
6 1.5 2 0.3 --- ---
7 --- 1.4 2 0.3 1.5 f 1.1
8 1.9 2 0.3 --- ---
9 --_. 1.6 f 0.4 3.7 f 1.3
10 --- 2.6 2 0.4 0.4 * 1.3
aRefer to F igures 14. 16. bUncertainties represent the 95% confidence levels, based only on counting statistics; additional
laboratory uncertainties of +6 to 10% have not been propagated into these data. CI1ash indicates ana I ysos not performed.
APPENDIXA
MEASUREKENT AND ANALYTICAL PROCEDURES
APPENDIX A
MBASUREMEXT AND ANALYTICAL PROCEDURES
Surface Scans
Surface scans were performed by passing the probes slowly over the surface. The distance between the probe and the surface was maintained at a minimum - nominally about 1 cm (0.4 in). Identification of elevated levels was based on increases in the audible signal from the recording or indicating instrument. Combinations of detectors and instruments used for the scans are given in Table A-l.
Alpha and Beta-Gamma Surface Activity Measurements
Measurements of total alpha surface activity levels were performed using the detectors and instruments identified in Table A-l. Count rates (cpm) were converted to disintegration rates (dpm/lOO cm*) by dividing the net rate by the 4r efficiency and correcting for the active area of the detector. Effective window areas were 59 cm* for the ZnS detectors and 15 cm* for the GM detectors. The background count rate for ZnS alpha probes averaged approximately 2 cpm; the average background count rate was approximately 40 cpm for the GN detectors.
Removable Activity Measurements
Smears for determination of removable activity were performed by wiping approximately 100 cm* of the surface area, using prenumbered 47 mm diameter filter paper disks. The filter papers were returned to the Oak Ridge laboratory, where they were counted on a low-background alpha-beta gas proportional instrument.
A-l
Exposure Rate Measurements
Measurements of gamma exposure rates were performed using a Reuter Stokes Model RSS-111 pressurized ionization chamber.
Residue and Paint Sample Analysis (Alpha Spectrometry)
Aliquots of residue and paint were acidified and evaporated to dryness. The residues were then dissolved by pyrosulfate fusion and precipitated with barium sulfate. The barium sulfate precipitates were redissolved and uranium and thorium were separated by liquid - liquid extraction, precipitated with a cerium fluoride carrier, and counted using surface barrier detectors (ORTEC), alpha spectrometers (Tennelec), and an ND-66 Multichannel analyzer (Nuclear Data).
Uncertainties and Detection Limits
Uncertainties associated with the analytical data presented in the tables of this report, represent the 95% confidence levels for that data. These uncertainties were calculated based on both the gross sample count levels and the associated background count levels. When the net sample count was less than the 95% statistical deviation of the background count, the sample concentration was reported as less than the detection limit of the procedure. Because of variation in background levels, sample weights or volumes, and Compton contr i
differ from uncertainties have not been
butions from other radionuclides in samples, the detection limits sample to sample and instrument to instrument. Additional of + 6 to lo%, associated with sampling and laboratory procedures propagated into the data presented in this report.
Calibration and Quality Assurance
Laboratory and field survey procedures are documented in manuals developed specifically for the Oak Ridge Associated Universities' Environmental Survey and Site Assessment Program.
A-2
Instruments were calibrated with NIST-traceable standards. Qualitr control procedures on all instruments included daily background and check-source measurements to confirm equipment operation within acceptable statistical fluctuations. The ORAU laboratory participates in the EPA and DOE/EKL Quality Assurance Programs.
A-3
I
TABLE A- 1
INSTRUMENTATION FOR MEASUREMENTS
Type Measurement Detector Recording Instrument
SURFACE SCANS
Alpha Eberline ZnS Scintilldtor - Model AC-3-7 Eberline Scaler/Ratemeter Model HIS-1
Beta-Gamma
2; Jb Gamma
SURFACE ACTIVITY
Alpha Eberline ZnS Scintillator Model AC-3-7
Beta-Gamma (Total) Eberline Pancake GM - Model HP-260
Beta Smears (Removable) Th In Window Proport land I Chamber
EXPOSURE RATE
ALPHA SPkCTROSCOPY
Ludlum Proportional floor Monitor - Model 239-l
Eberline Pancake GM - Model HP-260 or
V icr oreen t’,rncake tiM Mode I 4B9- 110
Ludlum Proportional floor Monitor - Model 239-l
Victoreen Nal Scintill,ltor - Model 489-55
Reuter Stokes PressurlLed Ionization Chamber - Model RSS 111
tGhG ORTEC Surface Barr,ler Detector - Model CR--25-450-100 used in conjunction with:
Tennelec Count ing Chamber
Model TC-‘256
Ludlum Scaler/Ratemeter - Model 2220
Eberline Scaler/Ratemeter - Model PRS-1 or
Eberline Ratemeter - Model PHM-6
Ludlum Scaler/Ratemeter - Model 2220
Eberline Ratemeter - Model PRM-6
Eberline Scaler/Ratemeter - Model PRS-1
Eberline Scaler/Ratemeter - Model PRS-1
lennelec Low Background Alplla Beta Counter - Model LB5110
Same as Detector
Nuclear Data Multichannel Arlalyxer - Model ND-66
~.-__I_-- -.-- -.~- ______ _. -_..- -._--___--- _-. .-
APPENDIXB
U.S. DEPARTMENT OF ENERGY GUIDELINES FOR RESIDUAL RADIOACTIVE MATERIAL AT FORMERLY UTILIZED SITES
REMEDIAL ACTION PROGRAM AND REMOTE SURPLUS FACILITIES MANAGEKENT PROGRAM SITES
(REVISION 2, MARCH 1987)
--_. _-~ - --.
U.S. DEPARTMENT OF ENERGY GUIDELINES FOR dESIDUAL RADIOACTIVE MATERIAL AT
FORMERLY UTILIZED SITES REMEDIAL AClION PROGRAM AND
REMOTE SURPLUS FACILITIES MANAGEMENT PROGRAM SITES
(Revision 2, March 1987
A. INTRODUCTION
This document presents U.S. Department of Energy (DOE)
radiological protection guidelines for cleanup of residual radioactive
materials and management.of the resulting wastes and residues. It is
applicable to sites identified by the Formerly Utilized Sites Remedial Action Program (FUSRAP) and remote sites identified by the Surplus Facilities Management Program (SFMP).* The topics covered are basic dose limits, guidelines and authorized limits for allowable levels of residual radioactive material, and requirements for control of the
radioactive wastes and residues.
Protocols for identification, characterization, and designation of
FUSRAP sites for remedial action; for implementation of the renledial
action; and for certification of a FUSRAP site for release for unrestricted use are given in a separate document (U.S. Department of
Energy 1986) and subsequent guidance. More detailed information on applications of the guidelines presented herein, including procedures
.
* A remote SFp1P site is one that is excess to DOE programmatic needs and is located outside a major operating DOE research and development or production area.
.
B -1
. for deriving site-specific guidelines for allowable levels of residual
radioactive material from basic dose limits, is contained in 'A Manual for Implementing Residual Radioactive Material Guidelines" (~I.S.
Department of Energy 1987) referred to herein as the "supplement".
"Residual radioactive material* is used in these guidelines to describe radioactive materials derived from operations or sites over which the Department of Energy has authority. Guidelines or guidance
to limit the levels of radioactive material to protect the public and environment are provided for: (1) residual concentrations of radionuclides in soil material, (2) concentrations of airborne radon decay products, (3) external gamma radiation level, (4) surface contamination levels, and (5) radionuclide concentrations in air or
water resulting'.from or associated with any of the above.
A 'basic dose limit" is a prescribed standard from which limits fOt quantities that can be monitored and controlled are derived; it is
specified in terms of the effective dose equivalent as defined by the International Comission on Radiological Protection (ICRP 1977,
1978). The basic dose limits are used for deriving guidelines for
residual concentrations of radionuclides in soil material. Guidelines for residual concentrations of thorium and radium in soil, concentrations of airborne radon decay products, allowable indoor external gamma radiation levels, and residual surface contamination concentrations are based on existing radiological protection standaras or guidelines (U.S. Environmental Protection Agency 1983; U.S. Nuclear Regulatory Commission 1982; and Departmental Orders). Deriveo guidelines or limits based on the basic dose lbJfts for those quantities are only used when the guiaelines providea in the existing
standards cited above are shown to be inappropriate.
A "guideline" for residual radioactive material is a level of radioactivfty or of the radioaitivC material that is acceptable if the use of the site is to be unrestricted. Guidelines for residual radioactive material presented herein are of two kinds: (1) generic,
B- 2
site-independent guidelines taken from existing radirtion protection
standards, and (2) site-specific guidelines derived from basic dose limits
using site-specific models and data. Generic guideline values are presentea
in this document. Procedures and data for deriving sfte-specific guideline
values are given in the supplement. The basis for the guidelines is
generally a presumed worst case plausible scenario for a site.
An 'Authorized Limit" is a level of residual radioactive material or
radioactivity that must not be exceeded if the remedial action is to be
considered completed and the site is to be released for unrestricted use.' The Authorized Limit for a site will include limits for each radionuclide or group of radionuclides, as appropriate, associated with the residual radioactive material in the soil or in surface contamination of structures
and equipment, and in the air or water, and, where appropriate, a limit on
external gamma radiation resulting from the residual material. Under normal circumstances, expected to occur at most sites, Authorized Limits for residual radioactive materSa or radioactivity are set equal to guideline values. Exceptional conditions for which Authorized Limits might differ
from guideline values are specified in Sections D and F. A site may be released for unrestricted use only if the conditions do not exceed the Authorized Limits or approved supplemental limits as defined in Section F.l at the time remedial action is completed. Restrictions and controls on use
of the site must be established and enforced if the site conditions exceed the approved limits, or if there is potential to exceed the dose limit if
the site use was not restricted (Section F.2). The applicable controls and restrictions are specified in Section E.
DOE policy requires that all exposures to radiation be limited to levels that are as low as reasonably achievable (ALARA). For sites to be released
for unrestricted use, the intent is to reduce residual radioactive material to levels that are as far below Authorized Limits as reasonable considering
technical, economic, and social factors. At sites where the residual material is not reduced to levels that permit release for unrestricted use,
AIARA policy is implemented by establishing controls to reduce exposure to levels that are as low as reasonably achievable. Proceoures for ,
implementing ALARA policy are discussed in the supplement. ALARA policies,
B-3
s procedures, and actions shall be documented and filed as a permanent recoro
upon completion of remedial action at a sit?.
8. BASIC DOSE LIMITS
The basic dose limit for the annual radiation dose received by an
individual member of the general public is 100 mrenr/year. The internal
committed effective dose equivalent, as'defined in ICRP Publication 26 (ICRP
1977) and calculated by dosimetry models described in ICRP Publication 30 (ICRP 19781, plus dose from penetrating radiation sources external to the
body shall be used for determining the dose. This dose shall be described as the "Effective Dose Equivalent". Every effort shall be made to ensure
that actual doses to the public are as far below the dose limit as is . reasonably achievable.
Under unusual circumstances it will be permissible to allow potential
doses to exceed 100 mrem/year where such exposures are based upon scenarios which do not persist for long periods and where the annual life time exposure to an individual from the subject residual radioactive material would be expected to be less than 100 mremlyear. Examples of such situations include conditions that might exist at a site scheduled for remediation in the near future or a possible, but improbable, one-time scenario that might occur following remedial action. These levels should
represent doses that are as low as reasonably achievable for the site. Further, no annual exposure should exceed 500 mrem.
c.
c.1
GUIDELINES FOR RESIDUAL RADIOACTIVE MA7ERIAL
Residual Radionuclides in Soil .
Residual concentrations of radionuclides in soil shall be specified as
above-background concentrations averaged over an area of 100 sq meters. Generic guidelines for thorium and radium are specified below. Guidelines for residual concentrations of other radionuclides shall be derived from the basic dose limits by means of an environmental pathway analysis using
73-4
.__ -_. _~.~~
.
site-specific data where available. Procedures for these derivations are
given in the supplement.
If the average concentration in any surface or below surface area less than or equal to 25 sq meters exceeds the Authorized Limit or guideline by a factor of (lOO/A)1'2 , where A is the area of the elevated region in square
meters, limits for "Hot Spots" shall also be applicable. These Hot Spot Limits depend on the extent of the elevated local concentrations and are given in the supplement. In addition, every reasonable effort shall be made to remove any source of radionuclide that exceeds 30 times the appropriate soil limit irrespective of the average concentration in the soil.
TWO types of guidelines are provided, generic and derived. The generic
guidelines for residual concentrations of the Ra-226, Ra-228, Th-230, and Th-232 are:
- 5 pCf/g, averaged over the first 15 cm of soil below the surface - 15 pCi/g, averaged over 150cm-thick layers of soil more than 15
cm below the surface
These guidelines take into account ingrowth of Ra-226 from Th-230 and of Ra-228 from Th-232, and assume secular equilibrium. If either Th-230 and Ra-226 or Th-232 and Ra-228 are both presents not in secular equilibrium, the appropriate guideline is applied as a limit to the radionuclide with the higher concentration. If other mixtures of radionuclides occur, the
concentrations of individual radionuclides shall be reduced so that 1) the dose for the mixtures will not exceed the basic dose limit, or 2) the sum of the ratios of the soil concentration of each radionuclide to the allowable limit for that radionuclide will not exceed 1 ("unity*). Explicit foryulas for calculating residual concentration guidelines for mixtures are given in the supplement.
C.2 Airborne Radon Decay Products
Generic guidelines for concentrations of airborne radon decay products
shall apply to existing occupied or habitable structures on private property
B-5
that.are intended for unrestricted use; structures that will be demolished
or buried are excluded. The applicable generic guideline (40 CFR 192) is: In any occupied or habitable building, the objective of remedial action
shall be, and a reasonable effort shall be made to achieve, an annual average (or equivalent) radon decay product concentration (including
background) not to exceed 0.02 WL.* In any case, the radon decay product concentration (including background) shall not exceed 0.03 WL. Remedial actions by DOE are not required in orde; to comply with this guideline when there is reasonable assurance that residual radioactive materials are not
the cause.
C.3 External Gamma Radiation
The average level of garrana radiation inside a building or habitable structure on a site to be released for unrestricted use shall not exceed the background level by more than 20 uR/h and shall comply with the basic dose
limit when an appropriate use scenario is considered. This requirement shall not necessarily apply to structures scheduled for demolition or to buried foundations. External gamma radiation levels on open lands shall
also comply with the basic dose limit considering an appropriate use scenario for the area.
C.4 Surface Contamination
The generic guidelines provided in the Table 1, Surface Contamination
Guidelines are applicable to existing structures and equipment. These guidelines are adapted from standards of the U.S. Nuclear Regulatory
. ,
* A working level (WL) is any combination of short-lived radon decay products in one liter of air that will result in the ultimate emission of 1.3 x lo5 MeV of potential alpha energy.
B- 6
.._-_ -__. . -.--
.
TABLE 1 SURFACE CONTAMINATION GUIDELINES
Allowable Total Residual Surface Contamination (dpm/lOO cm21 '
Radionuclides 2 Ayerage 3, 4 Naximum 4, 5 Removable 4, 6
Transuranics, Ra-226, Ra-228, Th-230 Th-228, Pa-231, AC-227, I-125, I-129 100 300 2ci
Th-Natural, Th-232, Sr-90, Ra-223, Ra-224, U-232, I-126, f-131, 1-133 1,000 3,000 200
U-Natural, U-235, U-238, and associated decay products 5,000 a . 15,000 a 1,000 a
' Beta-gamma emitters (radionuclides with decay modes other than alpha emission or spontaneous fission) except Sr-90 and others noted above 5,000 6-Y 15,000 6-Y 1,000 e-y
1 As used in this table, dpm (disintegrations per minute) means the rate of emission by radioactive material as determined by correcting the counts per minute measured by an appropriate detector for background, efficiency, and geometric factors associated with the instrumentation.
2 Where surface contamination by both alpha- and beta-gamma-emitting radionuclides exists, the limits established for alpha- and beta-gamma-emitting radionuclides should apply independently.
3 Measurements of average 3
ontamination should not be averaged over an area of more than 1 For objects of less surface area, the average should be derived-for each such object.
4 The average and maximum dose rates associated with surface contamination resulting from beta-gamma emitters should not exceed 0.2 mrad/h and 1.0 mraa/h, respectively, at 1 cm.
5 The na~imum contamination level applies to an area of not more than 100 cm .
6 The amount of removable radioactive material per 100 cm2 of ' surface area should be determined by wiping that area with dry filter or soft absorbent paper, applying moderate pressure, and measuring the amount of radioactive material on the wipe with an appropriate instrument of known efficiency. When removable. contamination on objects of surface area less than 100 cm is determined, the activity per unit area should be based on the actual area and the entire surface should be wiped. The numbers in this column are maximum amounts.
B-7
.
Commission (1982)* and will be applied in a manner that provides a level of
protection consistent with the Comnission's guidance. These limits apply to both interior and exterior surfaces. They are not directly intended for use on structures to be demolished or buried, but, should be applied to equipment or building components that are potentially salvageable or recoverable scrap. If a building is demolished, the guidelines in Section c-1
c.5
are applicable to the resulting contamination in the ground. .
Residual Radionuclides in Air and Water
Residual concentrations of radionuciides in air and water shall be
controlled to levels required by DOE Environmental Protection Guidance and Orders, specifically DOE Order 5480.1A and subsequent guidance. Other
Federal and/or state standards shall apply when they are determined to be appropriate.
D. AUTHORIZED LIMITS FOR RESIDUAL RADIOACTIVE hATERIAL
The Authorized Limits shall be established to: 1) ensure that, as a
minimum, the Dose Limits specified in Section B will not be exceeded under the worst case plausible use scenario consistent with the procedures and guidance provided, or 2) where applicable generic guidelines are provided, be consistent with such guidelines. The Authorized Limits for each site ana
vicinity properties shall be set equal to the generic or derived guidelines except where it can be clearly established on the basis of site specific data, including health, safety and socioeconomic considerations, that the guidelines are not appropriate for use at the specific site. Consideration
* These guidelines are functionally equivalent to Section 4 - Decontamination for Release for Unrestricted Use of NRC Regulatory Guide 1.86, but are applicable to Non-Reactor facilities.
. -
shou ld a lso b e g i ven to e n s u r e th a t th e lim its comp ly wi th o r p rov iae a n equ iva len t leve l o f pro tect ion as o the r approp r ia te lim its a n d gu ide l i nes (i.e., sta te , or o the r Federa l ) . D o c u m e n ta tio n s u p p o r tin g such a drc is ion
shou ld b e s imi lar to th a t requ i red fo r s u p p l e m e n ta l lim its a n d e x c e p tio n s (Sec t ion F), b u t shou ld b e genera l l y m o r e d e ta i led b e c a u s e it covers a n
e n tire site .
R e m e d i a l act ions sha l l n o t b e cons ide red c o m p l e te un less th e res idua l
rad ioact ive m a ter ia l leve ls comp ly wi th th e A u tho r i zed Limits. T h e on ly e x c e p tio n to th is r e q u i r e m e n t wi l l b e fo r th o s e spec ia l s i tuat ions w h e r e th e
s u p p l e m e n ta l lim its o r e x c e p tio n s a re app l i cab le a n d a p p r o v e d as spec i f ied in S e c tio n F. H o w e v e r , th e u s e o f s u p p l e m e n ta l lim its a n d e x c e p tio n s shou ld on ly b e cons ide red if it is c lear ly d e m o n s trated th a t it is n o t r e a s o n a b l e to d e c o n ta m i n a te th e a r e a to th e A u tho r i zed L imi t o r gu ide l i ne va lue. T h e
A u tho r i zed L imi ts a re d e v e l o p e d th r o u g h th e pro ject o ff ices in th e fie l d
( O a k R i d g e Techn ica l Serv ices Div is ion fo r F U S R A P ) a n d a p p r o v e d by th e
h e a d q u a r te rs p i o g r a m o ffice ( the Div is ion o f Faci l i ty a n d S ite Decommiss ion ing P rojects).
E . C O N T R O L O F R E S I D U A L R A D IO A C T IV E M A T E R IA L A T F U S R A P A N D R E M O T E S F M P S ITES
Res idua l rad ioact ive m a ter ia l a b o v e th e gu ide l i nes a t F U S R A P a n d reblot r S F M P si tes m u s t b e m a n a g e d in acco rdance wi th app l i cab le D O E O rders. T h e D O E O rde r 5 4 8 0 .1 A a n d s u b s e q u e n t g u i d a n c e o r supe rced ing o rde rs r equ i re
comp l i ance with app l i cab le Federa l , a n d state e n v i r o n m e n ta l pro tect ion sta n d a r d s .
T h e o p e r a tio n a l a n d c o n trol r e q u i r e m e n ts speci f ies fn th e fo l l ow ing D U E
O rders sha l l app l y to in ter im s torage, in ter im m a n a g e m e n t, a n d long- tern] .
m a n a g e m e n t.
a . 5 4 4 O .lC, Im p l e m e n ta tio n o f th e e N a tio n a l E n V i r O M i e n t a 1 Pol icy Ac t
b . 5 4 8 0 .1 A , E n v i r o n m e n ta l P rotect ion, S a fe ty, a n d Hea l th P rotect ion : P r o g r a m fo r D O E O p e r a tio n s as rev ised by D O E 5 4 8 0 .1 c h a n g e o rde rs
a n d th e 5 A u g u s t 1 9 8 5 m e m o r a n d u m f rom V a u g h a n to Dist r ibut ion C. 5 4 8 0 .2 , H a z a r d o u s a n d R a d i o a c t ive M ixed W a s te M a n a g e m e n t
B -g
I. ..-... .- .
. d. 5480.4, Environmental Protection, Safety, and Health Protection
Standards
e. 5482.1A. Environmental Safety, and Health Appraisal Program
f. 5483.1A, Occupational Safety and Health Program for Government-Owned Contractor-Operated Facilities
90 5484.1, Environmental Protection, Safety, and Health Protection Information Reporting Requirements
h. 5000.3, Unusual Occurrence Reporting System
i. 5820.2, Radioactive Waste Management
E.l Interim Storage
a. Control and stabilization features shall be designed to ensure, to the extent reasonably achievable, an effective life of 50 years and, in any case, at least 25 years.
b. Above-background Rn-222 concentrations in the atmosphere above facility surfaces or openings shall not exceed: (1) 100 pCi]L at any given point, (2) an annual average concentration of 30 pCi/L over the facility site, and (3) an annual average concentration of
3 pCi/L at or above any location outside the facility site (DOE Order 5480.1A, Attachment X1-1).
C. Concentrations of radionuclides in the groundwater or quantities of
residual radioactive materials shall not exceed existing Federal,
or state standards.
d. Access to a site shall be controlled and misuse of onsite material
contaminated by residual radioactive material shall be prevented through appropriate administrative controls and physical barriers--active and passive controls as described by the U.S, Environmental Protection Agency (1983--p. 595). These control
features should be designed to ensure, to the extent reasonable, an
effective life of at least 25 years. The Federal government shall
have title to.the property or shall have a long-term lease for exclusive use.
B-10
E.2 Interim Manaqement
a. A site may be released under interim management when the residual
radioactive material exceeds guideline values if the residual radioactive material is in inaccessible locations and would be
unreasonably costly to remove, provided that administrative Controls are established to ensure that no meclber cf the public shall receive a radiation dose exceeding the basic dose linlit.
*-
.-
. I
b. The administrative controls, as approved by DOE, shall include but not be limited to periodic monitoring as appropriate, appropriate shielding, physical barriers to prevent access, and appropriate
radiological safety measures during maintenance, renovation, demolition, or other activities.that might disturb the residual
radioactivity or cause it to migrate.
c. The owner of the site or appropriate Federal, state, or local
authorities shall be responsible for enforcing the administrative controls.
E.3 Long-Term Manaqenrent
Uranium, Thorium, and Their Decay Products
a. Control and stabilization features shall be designed to ensure, to
the extent reasonably achievable, an effective life of 1,000 years and, in any case, at least 200 years.
b. Control and stabilization features shall be designed to ensure that Rn-222 emanation to the atmosphere from the waste shall not: '(1) exceed an annual average release rate of 20 pCi/m'/s, and (21 increase the annual average Rn-222 concentration at or above any location outside the boundary of the contaminated area by more than 0.5 pCi/L. Field verification of emanation rates is not required.
-8
-/
B-11
. C. Prfor to placement of any potentially biodegradable contaminated
wastes in a long-term management facility, such wastes shall be properly conditioned to ensure that (1) the generation and escape of biogenic gases will not cause the requirement in paragraph b. of this section (E.3) to be exceeded, and (2) biodegradation within
the facility will not result in premature structural failure in violation of the requirements in paragraph a. of this section (E.3).
d. Groundwater shall be protected in accordance with Appropriate Departmental orders and Federal and state standaras, as applicable to FUSRAP and remote SFMP sites.
a-
.-
e. Access to a site should be controlled and misuse of onsite material
contaminated by residual radioactive material should be prevented through appropriate administrative controls and physical
barriers--active and passive controls as described by the U.S. Environmental Protection Agency (19830-p. 595). These controls should be designed to be effective to the extent reasonable for at least 200 years. The Federal government shall have title to the
property.
Other Radionuclides .
f. Long-term management of other radionuclides shall be in accorcance with Chapters 2, 3, and 5 of DOE Order 5820.2, as applicable.
F. SUPPLEMENTAL LIMITS AND EXCEPTIONS
If special site specific circumstances indicate that the guidelines or Authorized Limits established for a given site are not appropriate for'a portion of that site or a vicinity property, then the field office may
request that supplemental limits or an exception be applied. In either
case, the field must justify that the subject guidelines or Authorized Limits are not appropriate and that the alternative action will provide adequate protection gfving due consideration to health and safety,
B-12
environment and costs. The field office shall obtain approval for specific supplemental limits or exceptions from headquarters as specified in Section D of these guidelines and shall provide to headquarters those materials
required for the justification as specified in this section and in the FUSRAP and SFMP protocols and subsequent guidance documents. The field
office shall also be responsible for coordination with the state or local government of the limits or exceptions and associated restrictions as . appropriate. In the case of exceptions, the field office shall also work
with the state and/or local governulents to insure that restrictions or conditions of release are adequate and mechanisms are in place for their enforcement.
Fl. Supplemental Limits
The supplemental limits must achieve the basic dose limits set forth in this guideline document for both current and potential unrestricted uses of the site and/or vicinity property. Supplemental limits may be applied to a
property or portion of a property or site if, on the basis of a site specific analysis, it is determined that certain aspects of the property or
portion of the site were not considered in the development of the established Authorized Limits and associated guiae'lines for the site, and as a result of these unique characteristics, the established limits or guidelines either do not provide adequate protection or are unnecessarily restrictive and costly.
F2. Exceptions
Exceptions to the Authorized Limits defined for unrestricted use of the
site may be applied to a portion of a site or a vicinity property when,it is established that the Authorized Limits cannot be achieved and restrictions
on use of the site or vicinity property are necessary to provide adequate protection of the public and environment. The field office must clearly demonstrate that the exception is necessary, and the restrictions will provide the necessary degree of protection and that they comply with the requirements for control of residual radioactive material as set forth in Part E of these guidelines.
-, B-13
__ .---.
F3. Justification for Supplemental Limits and Exceptions *
Supplemental limits and exceptions must be justified by the field office
on a case by case basis using site specific data. Every effort should be made to minimize the use of the supplemental limits and exceptions.
Examples of specific situations that warrant the use of supplemental
standards and exceptions are:
.I
a. Where remedial actions would pose a clear and present risk of injury to workers or members of the general public, notwithstanding reasonable measures to avoid or reduce risk.
b. Where remedial actions--even after all reasonable mitigative measures have been taken--would produce environmental harm that is clearly excessive compared to the health benefits to persons living on or near affected sites, now or in the future. A clear excess of
environmental harm is harm that is long-term, manifest, and grossly disproportionate to health benefits that can reasonably be anticipated.
C. Where it is clear that the scenarios or assumptions used to
establish-the Authorized Limits do not under plausible current or
future conditions, apply to the property or portion of the site
identified and where more appropriate scenarios or assunlptions
indicate that other limits are applicable or necessary for
protection of the public and the environment-
d. Where the cost of remedial actions for contaminated soil is unreasonably high relative to long-term benefits and where the
. residual radioactive materials do not pose a clear present or- future risk after taking necessary control measures. The likelihood that buildings will be erected or that people will spend
long periods of time at such a site should be considered in evaluating this risk. Remeaial actions will generally not be necessary where only minor quantities of residual radioactive
B-14
.
materials are involved or where residual radioactive materials
occur in an inaccessible location at which site-specific factors limit their hazard and from which they are costly or difficult to remove. Examples are residual radioactive rllaterials under hard-surface public roads and sidewalks, around public sewer lines,
or in fence-post foundations. A site-specific analysis must be provided to establish that it would not cause an individual to receive a radiation dose in excess of the basic dose limits statea in Section B, and a statement specifying the residual radioactive material must be included in the appropriate state and local records.
e. Where there is no feasible remedial action.
G. SOURCES
Limit or Guideline
Basic Dose Limits
Dosimetry Model and Dose Limits
Source
Interr4tlonal Commission on Radfolsg Ical Protection (7977, 1978)
Generic Guidelines for Residual Radioactfvftj
Residual Concentrations of Radium 40 CFR 192 and Thorium in
f oil Materfal
Airborne Radon Decay Products 40 CFR '192
External Ganma Radiation 40 CFR IYZ
Surface Contamination Adapted from U.S. Commission (1982)
Nuclear Regulatory
Control of Radioactive Wastes and Residues
Interim Storage DOE Order 548U.lA and subsequent guidance
- Long-Term Management DOE Order 5480. IA and subsequent guidance; 40 CFR 192; DOE oraer 5820.2
. I
H. REFERENCES
International Commission on Radiolcgical Protection, 1977. Reconrnendations of the International Commission on Radiological Protection (Adopted January 17, 1977). ICRP Publication 26. Pergacion Press, Oxford. [As modified by "Statement from the 1978 Stockholm Meeting of the ICRP." Annals of the ICRP, Vol. 2, No. 1, 1978.1
International Commission on Radiological Protection, 1978. Limits for Intakes of Radionuclides by Workers. A Report of Committee 2 of the International Commission on Radiological Protection. Adopted by the Commission in July 1978. ICRP Publication 30. Part 1 (and Supplement), Part 2 (and Supplement), Part 3 (and Supplements A and B), and Index. Pergamon Press, Oxford.
U.S. Evironmental Protection Agency, 1983. Standards for Remedial Actions at Inactive Uranium Processing Sites; Final Rule (40 CFR 192). Federal Register 48(3):590-604 (January 5, 1983).
U.S. Department of Energy, 1984. Formerly Utilized Sites Remedial Action Program. Summary Protocol: Identification - Characterization - Designation - Remedial Action - Certification. Office of Nuclear Energy, Office of Terminal Waste Disposal and Remedial Action, Division of Remedial Action Projects. April 1984.
U.S. Department of Energy, 1987. Supplement to U.S. Department of Energy- Guidelines for Residual Radioactivity at Formerly Utilized Sites Remedial Action Program and Remote Surplus Facilities Management Prograr; Sites. A Manual for Implementing Residual Radioactivity Guidelines. Prepared by Argonne National Laboratory, Los Alamos National Laboratory, Oak Ridge National Laboratory, and Pacific Northwest Laboratory for the U.S. Department of Energy.
U.S. Nuclear Regulatory Commission, 1982. Guidelines for Decontamination of Facilities and Equipment Prior to Release for Unrestricted Use or Termination of Licenses for Byproduct, Source, or Special Nuclear Material. Division of Fuel Cycle and Material Safety, Washington, D.C. July 1982.
U.S. Atomic Energy Conwnission, 1974. Regulatory Guide 1.86, Termination of Operating Licenses for Nuclear Reactors, June 1974
B-17