EPA 520/3-76-011
SIGNIFICANT ACTINIDE AND DAUGHTER
ACTIVITIES FROM THE HTGR FUEL CYCLE
U.S. EN VI RON MENTAL PROTECTION AGENCY
Office of Radiation Programs
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This report was prepared as an account of work sponsored by the
Environmental Protection Agency of the United States Government under
Contract No. 68-01-3112. Neither the United States nor the United
States Environmental Protection Agency makes any warranty, express or
implied, or assumes any legal liability or responsibility for the
accuracy, completeness or usefulness of any information, apparatus,
product or process disclosed, or represents that its use would not
infringe privately owned rights.
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SIGNIFICANT ACTINIDE AND DAUGHTER ACTIVITIES
FROM THE HTGR FUEL CYCLE
by
G. L. SIMM3NS
M. L. GRITZNER
SEPTEMBER 1975
U.S. ENVIRONMENTAL PROTECTION AGENCY
Technology Assessment Division
Radiation Source Analysis Branch
Office of Radiation Programs
Washington, D.C. 20460
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FOREWORD
The Office of Radiation Programs carries out a national program
designed to evaluate the exposure of man to ionizing and nonionizing
radiation, and to promote the development of controls necessary to
protect the public health and safety and assure environmental quality.
Office of Radiation Programs technical reports allow comprehensive
and rapid publishing of the results of intramural and contract projects.
The reports are distributed to groups who have known interests in this
type of information such as the Nuclear Regulatory Commission, the
Energy Research and Development Administration, and State radiation
control agencies. These reports are also provided to the National
Technical Information Service in order that they may be readily
available to the scientific community and to the public.
Comments on this analysis as well as any new information would
be welcomed; they may be sent to the Director, Technology Assessment
Division (AW-459), Office of Radiation Programs, U.S. Environmental
Protection Agency, Washington, D.C. 20460.
W. D. Rowe, Ph.D.
Deputy Assistant Administrator
for Radiation Programs
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TABLE OF CONTENTS
Section Page
1 INTRODUCTION AND SUMMARY 1-1
1.1 Background 1-1
1.2 Summary 1-2
2 TECHNICAL DISCUSSION 2-1
2.1 Reactor Characteristics 2-1
2.2 Fuel Cycle Analysis 2-6
2.2.1 Initial HTGR Cores 2-7
2.2.2 Equilibrium Fuel Cycle 2-8
2.2.3 Plutonium Cycle in HTGRs .... 2-10
3 PRESENTATION OF RESULTS 3-1
4 ACKNOWLEDGEMENT 4-1
5 REFERENCES 5-1
APPENDIX A GRAPHS OF ACTINIDE ACTIVITY FOR
INITIAL HTGR CORES A-I
APPENDIX B GRAPHS OF ACTINIDE ACTIVITY FOR
EQUILIBRIUM CYCLE HTGR CORES. ... B-I
APPENDK C GRAPHS OF ACTINIDE ACTIVITY FOR
PARTIAL PLUTONIUM LOADING IN
HTGR CORES C-I
APPENDIX D TABULATION OF ACTINIDE ACTIVITY
FOR CASES STUDIED D-I
11
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LIST OF TABLES
Table Page
1 Characteristics of Model HTGR 2-2
2 Characteristics of Fissile, Fertile and Recycle
particles for HTGR Fuel Elements 2-3
3 Composition of HTGR Equilibrium Cycle Fuel. . . . 2-9
4 Composition of Fuel for the Plutonium Cycle
in the HTGR 2-11
5 Categories of Isotopes as Shown on Graphs 3-2
iii
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1. INTRODUCTION AND SUMMARY
1.1 BACKGROUND
The advent of a viable nuclear power industry has given rise
to a rapidly increasing volume of spent fuel and attendant fission products.
The high specific activities associated with these materials and the poten-
tial biological and ecological consequences of their disposition creates
the need for environmental guidelines and standards. Serious questions
have been raised as to the feasibility for several modes of long term or
"permanent" storage of these large volumes of radioactive wastes.
Near term maintenance and engineered storage can be evaluated on the
basis of present technology. However, long term effects of stored
waste and inadvertent releases, beyond the control of the next few
generations, is of greater concern.
When considering the radiological consequences of spent fuel
storage or reprocessing, the major near term effects can be attributed to
the short lived fission product content. However, when looking at long term
considerations even such relatively long lived fission products as Cs-137
(30 year half-life) and Sr-90 (28 year half-life) have decayed significantly
and the transuranic actinides become the predominant concern. These
actinides* possess a characteristically long half-life and much of their
resultant build-up and decay cannot be seen in short time periods of, say,
less than ten years. The decisions made with regard to spent fuel recycle,
fast breeder utilization, and reprocessing operations can play a significant
role in the long term concentrations which will result in the environment.
This role may not be immediately obvious to those in charge of such deci-
sions and environmental regulations and guidelines are being formulated to
minimize the environmental consequences of actinide buildup over the long term
_j
Throughout this report the term actinide refers to "actinidesjmd their
daughters.
1-1
3 tin ides and t:
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In order to assist the Office of Radiation Programs (ORP) In its
standards setting activities related to the consequences of actinide
buildup in the environment, a data base of actinide concentrations
produced by nuclear reactors as a function of decay time was judged to
be useful. The first ORP data base which satisfied this requirement
was published^ in October 1974 and concerned the actinides produced
by the light water reactor (LWR) fuel cycle and the liquid metal fast
breeder (LMFBR) fuel cycle. The second ORP data base, the subject
of this report, concerns the High Temperature Gas Cooled Reactor
(HTGR) fuel cycle. Most notably, the LWR and LMFBR concepts are
based on a uranium/plutonium fuel, whereas, the HTGR, as currently
envisioned, is based on a uranium/thorium fuel cycle.
1.2 SUMMARY
The Office of Radiation Protection of the Environmental
Protection Agency has commissioned SAI Services, a Division of
Science Applications, Inc. to undertake a study of the significant actinides
which are expected to be produced by a High Temperature Gas Cooled
Reactor. Because the HTGR industry is in its infancy, it is realized
that this study will require updating as the industry matures. In order
to estimate the quantity of actinides produced in the HTGR the most likely
fuel cycle schemes are considered. These schemes are:
• Initial cores for the HTGR consisting of 93. 5 w/o
Uranium 235 and natural thorium;
• "Equilibrium" cores for the HTGR consisting of fuel
elements made from 93.5 w/o Uranium-235, recycle
Uranium-235 recovered during reprocessing,
Uranium-233 produced in the thorium seed, and
natural thorium;
1-2
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• "Advanced fuel cycles" which utilize plutonium produced
in a light water reactor as a replacement for the highly
enriched Uranium fuel elements in the "equilibrium"
fuel cycle.
The use of plutonium in the HTGR is not a new concept, but the inclusion
of this mechanism for utilization of plutonium serves as a useful
data base for comparison with the LWR and LMFBR fuel cycles.
The principle output of this study consists of a series of graphs
and tables which depict the actinide concentrations in various streams
of the HTGR fuel cycle. These data are presented graphically for five
time periods of interest. All data are relative to the cooling period of
180 days after removal from the reactor. These time periods are:
1) 1 to 100 years
2) 1 to 1000 years
3) 1 to 10, 000 years
4) 1 to 100,000 years
o
5) 1 to 10 years.
The sources of actinides considered are the spent fuel, high level wastes,
and recovered uranium. The combination of fuel cycles, time periods,
and sources results in a total of 45 graphs and 9 tables.
The following sections of this report present the basic assump-
tions for the study and the mechanism used for calculating the data that
is presented.
1-3
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Table 1. Characteristics of Model HTGR
Reactor Output
Electrical Output (net)
Overall Station Efficiency
Core Diameter
Active Core Height
Number of Fuel Elements
Fuel Column Pitch
3000 MW(t)
1160 MW(e)
38.6%
8.41 m
6.30 m
3944
361 mm
Total Quantity of Thorium
Total Quantity of Uranium
Uranium Enrichment
Fuel Burnup
Fuel Element Life Time
Load Factor
37, 500 kg (initial core)
1, 725 kg (initial core)
93.5%
94, 200 MWD/Ton*
4 years
Core Inlet Temperature
Core Outlet Temperature
Maximum Fuel Temperature
316°C
741°C
1410°C
(U & Th)
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refabrication of recycle fuel. Except for the case of plutonium utiliza-
tion in the HTGR, three fuel particles require fabrication: 1) fissile
particles; 2) fertile particles; and 3) recycle particles. The character-
istics of each particle are given in Table 2.
Table 2.
Characteristics of Fissile, Fertile and Recycle Particles
for HTGR Fuel Elements
Fissile Fertile Recycle
Particle Particle Particle
Composition 235uC2 Th°2 (Th, 233U)O2
Th to U Ratio -- -- 4.25
Kernel Diam, Mm 200 500 400
Coating Thickness, *tm
Buffer 85 85 90
Inner Dense Coating 25
Silicon Carbide 25
Outer Dense Coating 35 75 80
Total Particle Diameter, »m 540 820 740
noc
In the fissile particle preparation, uranium oxide (93. 5 w/o U)
granules are high fired converting the UO2 to UC«. The UC2 particles
are spheroidized in high temperature vacuum furnaces in preparation
for coating. The UCg microspheres are loaded into a fluid-bed reactor
and the temperature is then raised to the required level. The micro-
spheres are suspended by passing a diluent and hydrocarbon gas
(acetylene, propane, and propylene are used) up through the bed. The
hydrocarbon gas dissociates, producing free carbon and the free carbon
then deposits on the suspended particles. Temperature and the
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hydrocarbon gas are selected to deposit a coating with the desired
properties. The buffer, seal, and low temperature isotropic coatings
are similarly applied. Silicon carbide is applied over the low temperature
isotropic carbon coating by passing methyltrichorosilane through the
bed as in the case of the hydrocarbon gas. The final low temperature
carbon coating is applied over the silicon carbide coating in a similar
manner. The preparation of the fertile thorium oxide particle is quite
similar to the process required for preparation of fissile particles.
(4)
Two types of recycle fissile particles are expected to be produced.
233
The U obtained from irradiated fertile particles will be made into a
poo 9*1^
mixed oxide particle, (Th, U)O9. The U recovered from
233
irradiated fissile particles will be made into UO2 particles. The U
must be fabricated in the shielded facilities of the recycle plant because
232
the contained U gives rise to gamma-emitting decay products.
235
Although remote fabrication of recycled U may not be necessary, the
presence of high-specific-activity alpha emitters may require it.
233
Microspheres containing a mixture of thorium and U oxide are
expected to be prepared by what is technically known as a sol-gel
(5) 233
processv . In the first step of this sol-gel process, the U oxide
feed material is dissolved in nitric acid and mixed with Th(NO,)/i to form
U ^
a nitrate feed solution with the required proportions of thorium and
uranium. For this study, a ratio of 4.25 parts thorium to one part
uranium was assumed. The nitrate will then be extracted from the
nitrate solution with an amine solution to form a (Th, U)O« sol. Spherical
gel particles of ThOg-UOo will be formed by injecting droplets of the
sol into a water-removing organic solvent contained in a vertical column.
After water removal, the microspheres will be reduced to (Th, U)O2
and sintered to greater than 95% of theoretical density in an electric
furnace.
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233
The (Th, UX>2 microspheres will be coated with two layers
of pyroltyic carbon. The first layer, which is the low-density (•»!. 0
o
g/cm ) buffer coating, is applied by passing a mixture of acetylene and
inert gas (helium or argon) through a fluidized bed of particles at about
1450°C. The hydrocarbon gas decomposes, depositing a layer of
on the microspheres. The second layer, which is a high-density
(-1.9 g/cm3)
of propylene.
1450°C. The hydrocarbon gas decomposes, depositing a layer of carbon
ro;
q
(-1.9 g/cm ) impermeable coating, is deposited by the decomposition
235
Microspheres of UO0 will be prepared by another sol-gel
(6)
process^ . The preparation of these microspheres is very similar to
233
the preparation of the (Th, U)O« microspheres just described. The
235 ^
recycle UO9 microspheres will be coated in the same manner as the
233
(Th, U)(X> microspheres described above except that a SiC layer will
be sandwiched between two layers of the high-density pyrolytic carbon.
SiC is deposited by passing a mixture of methyltrichlorosilane and
hydrogen through a fluidized bed of particles at about 1650°C.
A fuel stick is then fabricated (molded) by mixing appropriate
quantities of the uranium bearing microspheres with fertile thorium
microspheres and embedded into a carbon matrix approximately 5/8
inches in diameter and 3 inches in length. These fuel blocks are then
loaded into hexagonal blocks of nuclear grade graphite. These large blocks
are the fuel elements which are stacked to form the reactor core. Ideally,
each fuel block contains only one type of uranium bearing fuel and the
stacking of blocks allows for flexibility in shaping the axial power
distribution by using the different fissile content in each fuel block.
A typical fuel element contains approximately 9.95 kg of heavy metal
(U + Th).
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2. 2 FUEL CYCLE ANALYSIS
The goal of this study is to obtain graphical representations of
the actinide activity associated with three HTGR fuel cycles. In order
to accomplished this goal, several calculations were performed using
(7)
the ORIGENv computer code. Briefly, ORIGEN is a versatile point deple-
tion code which solves the equations of radioactive growth and decay for large
numbers of isotopes with arbitrary coupling. The code uses the matrix
exponential method to solve a large system of coupled, linear, first-
order ordinary differential equations with constant coefficients. The
general nature of the matrix exponential method permits the treatment
of complex decay and transmutation schemes. An extensive library
of nuclear data has been compiled, including half-lives and decay
schemes, neutron absorption cross sections, fission yields, disintegra-
tion energies, and multigroup photon release data. ORIGEN has been
used to compute the compositions and radioactivity of fission products,
cladding materials, and fuel materials in LWRs, LMFBRs, MSBRs,
and HTGRs. Many of the studies involving the use of ORIGEN have
been directed toward studying the HTGR fuel cycle^ ~ . The data
base used in ORIGEN has been verified against results obtained for a
/Q\
1000 MW HTGRV '. We should point out, however, that during the
233 (14)
course of this study, an error in the U fission resonance integral
discovered by ORNL was observed. The uncorrected value given in the
ORIGEN data base is a factor of 10 to large. The corrected resonance
integral was used in this study.
The three HTGR fuel cycles studied each have unique features
which will now be discussed. Also information necessary to develop
the input data for ORIGEN will be given.
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2.2.1 Initial HTGR Cores
The initial cores in HTGR plants will consist of highly
OOC
enriched uranium (93.5 % U) and natural thorium. The basis used
in these calculations is one metric ton of heavy metal charged to the
reactor. On this basis, 855 kilograms of thorium and 115 kilograms
of uranium are charged to the reactor. The fuel is burned over a
four-year period at a power density sufficient to produce a burnup of
94,200 MWD/MT(U + Th) and with a flux spectrum given in Reference 3.
The fuel is then allowed to decay for a total of 180 days before it
enters the next stage in the analysis.
After the cooling period, the fuel is followed through three
paths -- spent fuel, high level wastes, and recovered uranium.
Spent Fuel
The spent fuel as discharged from the reactor is allowed to
p
decay for 10 years. The tabulation of actinide activities at various
times during this period are given in Appendix D.
High Level Wastes
After the fuel has cooled for 180 days, it is shipped to the
reprocessing plant and the thorium and uranium is recovered. At the
reprocessing plant, the fuel elements are crushed and burned to expose
the fissile and fertile microspheres. The microspheres are separated
according to size by a screening process. Ideally, the fissile and
fertile microspheres would be completely separated. In practice,
some of the microspheres will be crushed and will "crossover" into the
different streams. We have assumed a separation factor of 99% for
the thorium and uranium, with the remainder of these elements and
other actinides then forming the "high level waste". The quantity of high
level waste is normalized to one kilogram of actinides and allowed to
Q
decay for 10 years.
2-7
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Recovered Uranium
The uranium recovered at the reprocessing plant will be used to
ooo
recycle back into the reactor. Ideally, the U would be obtained from
235
the fertile microspheres and the remaining U would be recovered
from the fissile microspheres. The fissile stream contains large
oog
amounts of U (~ 55%) which acts as a neutron poison and 1t Is there-
fore desirable to minimize the amount of crossover between the two
process streams. For this reason, the decision of whether to recycle the
235
U is largely a question of fuel cycle economics and the method by
which the utility chooses to utilize this fuel.
For the case of uranium recovered at the reprocessing plant, we
have conveniently normalized the quantity of recovered uranium to one kilo-
gram and then allowed this amount to decay for 108 years. The tabulation
of the actim'de activity during this time period is given in Appendix D.
2.2.2 Equilibrium Fuel Cycle
The most likely fuel utilization scheme in the HTGR^10^ is based
on charging three types of fuel into the reactor, once an "equilibrium
cycle has been reached. These fuels are initial core fuel, recycle U-233
fuel, and recycle U-235 fuel. For this study, we have assumed the feed
compositions in Ref. 10, normalized to one metric ton. These
compositions are given in Table 3. The fuel was irradiated for four years
to a burnup of 94,200 MWD/MT(U + Th). A cooling period of 180 days
was allowed before reprocessing. For the remainder of the fuel cycle,
the assumptions given in Section 2.2.1 were used. The tabulation of
Q
the actinide inventory from 1 to 10 years for spent fuel, high level
wastes, and recovered uranium are given in Appendix D.
2-8
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Table 3. Composition of HTGR Equilibrium Cycle Fuel
Fuel Composition %
Initial Recycle Recycle
Nuclide Fuel U-233 U-235
232y 0.03 3xlO"6
233U 55.4
234U 23.3 0.03
235U 93.5 9.5 21.9
236U 11.5 55.8
238U 6.5 0.3 22.3
Total
Kilograms (U) 43.49 41.47 9.77
2^2
Total Kilograms of Thorium ( Th ) 905.28
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2.2.3 Plutonium Cycle in HTGRs
The use of plutonium in the HTGR is a development that would
be somewhat preferable to the normal HTGR fuel cycle. Two types of
(12)
fuel cycles utilizing plutonium appear to be most attractive . These
235
are partial replacement of some or all of the U makeup fuel with
plutonium and making up the remainder of the fuel from the available
233
U recycle fuel. One quarter of the core is replaced at each reloading
so that there is a peaking factor due to fuel age and enrichment differ-
ence. Adding plutonium to the feed stream brings additional peaking
factors due to composition differences among fuel elements of the same
age. The product of these peaking factors must be held comparable
to peaking in the normal fuel cycle for HTGRs, in order to maintain the
core thermal rating.
The second type of cycle that has been offered is the so-called
Pheonic fuel cycle. This Pheonic fuel concept is realized in an all-Pu
HTGR and is characterized by having only Pu as fissile feed and using
a small amount of thorium compared to the normal HTGR. This system
can be operated in a single-region loading scheme with a refueling
interval of more than 2 1/2 years. Since all the fuel is of the same
age, no power peaks between fuel elements will be observed. This
first allows an increase in the power density by about 40% above the
level of normal HTGRs, and second, eliminates the necessity of having
variable flow orifices. The increased power density reduces the number
of fuel elements, therefore decreasing the fuel costs.
The case which we have considered to be of interest is the
partial Pu loading of the HTGR. The fuel composition suggested by
(13)
Dahlbergv was used and these data are given in Table 4. The fuel was
burned to an exposure of 94,200 MWD/MT (U + Th + Pu) over a period
of 4 years and then allowed to decay for 180 days before reprocessing.
The remainder of the assumptions for the fuel cycle are identical to
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those in Section 2.2.1, with the exception that a 99% recovery factor
for plutonium in reprocessing was assumed. Tabulations of the signifi-
Q
cant actinide activity for decay times from 1 to 10 years for spent
fuel, high level waste, and recovered uranium are given in Appendix D.
Table 4. Composition of Fuel for the Plutonium Cycle
Recycle U-233
Isotope %
232
233
234
235
236
'U 0.03
U 55.39
U 22.23
U 9.53
U 11.51
Total (kg) 32.39
Total (kg)
of Thorium (232 )
in the HTGR
Recycle U-235
Isotope %
232,
U
233
234
235
236
U
U
U
U
238.
U
6x 10
-6
Ix 10
0.05
21.78
54.87
23.3
3.79
890.31
Plutonium
Isotope
238,
Pu
-5 239
Pu
240
Pu
241
Pu
242
Pu
1.74
55.8
24.5
13.1
4.8
73.61
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3. PRESENTATION OF RESULTS
The results of this study are a series of tables and graphs
which present the significant actinide activity for each component of the
fuel cycles studied. These data are organized into four Appendices.
Appendices A, B, and C contain graphs of the significant actinide
activity for the fuel cycles - initial HTGR cores, equilibrium HTGR
cores, and plutonium HTGR cores - respectively. Each of these
appendices are divided into three sections of five graphs each. Each
section presents data for the spent fuel, high level wastes, and
recovered uranium. The five graphs within each section show the
actinide activity for the time periods from 1 to 100, 1,000, 10,000,
o
100,000, and 10 years, respectively.
For this study, isotopes which contribute significantly to the
total actinide activity are defined to be those isotopes which at any
time contribute at least 1% of the total activity at that time. Only these
isotopes are shown in the plots. However, all actinide activities
considered are listed in the tables in Appendix D.
In presenting the data on the graphs, we have included those
isotopes which are in secular equilibrium in categories which are
labelled A thru E. Those isotopes in each category are given in
Table 5. The data plotted is for a single isotope, not the total.
Appendix D is organized in a manner similar to Appendices
A, B, and C. The actinide activities for each component of the fuel
0
cycles studied are given at 20 time periods from 1 to 10 years. All
time periods are relative to the time of fuel shipment to the reprocessing
plant, i.e., after a 180-day cooling period.
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Table 5. Categories of Isotopes as Shown on Graphs
2!0
po
B
218
po
214Pb
214Bi
214
PO
229
Th
221
Fr
217At
213Bi
213
PO
209
pb
227
Ac
223
^
219
Rn
215
PO
211Pb
211Bi
E
228
224
Th
^
220
^
216
Po
212
Pb
212
Bi
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4. ACKNOWLEDGEMENTS
The authors would like to thank the project officers at the
Environmental Protection Agency's Office of Radiation Programs,
T. W. Fowler and W. Hansen, for many profitable discussions during
the course of this study. We also wish to thank Ms Deborah Osment
who typed and edited this manuscript.
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5. REFERENCES
1. Heeb, C. M., and Merrill, E. T., "Significant Actinide
Activites in the LWR and LMFBR Nuclear Fuel Cycles",
Battelle Northwest, EPA-520/3-75-006 (October 1974).
2. Dahlberg, R. C., and Brooks, L. H., "Fulton Station Core
Design Characteristics and Fuel Cycle", Nucl. Eng. Intal.,
19, 646 (August 1974).
3. Preliminary Safety Analysis Report, Fulton Station,
Philadelphia Electric Company, Docket 50463.
4. "Draft Environmental Statement HTGR Fuel Refabrication
Pilot Plant at the Oak Ridge National Laboratory",
WASH-1533, January 1974.
5. Haws, C. C., Finney, B. C., Bond, W. D., "Engineering
Scale Demonstration of the Sol-Gel Process: Preparation
of 100 Kg of ThO2-UO2 Microspheres at the Rate of 10
Kg/Day", ORNL-4544, May 1971.
6. McBridge, J. P., Finney, B. C., Pattison, W. L., and
McCorkle, K.H.; "Process Control in Uranic Preparation
by the Sol-Gel Process", Symposium on Sol-Gel Processes
and Reactor Fuel Cycles, CONF-700502, pp. 113-122,
May 4, 1970.
7. Bell, M. J., "ORIGEN - The ORNL Isotope Generation and
Depletion Code", ORNL-4628, May 1973.
8. Blomeke, J. A., McKee, W. C., Nichols, J. P., "Projections
of Radioactive Wastes to be Generated by the U.S. Nuclear
Power Industry", ORNL-TM-3965.
9. "High Level Radioactive Waste Management Alternatives",
K. J. Schneider and A. M. Platt, Editors; BNWL-1900,
May 1974.
10. Pigford, T. H. et al, "Fuel Cycle for 1000 Mw HTGR",
EPA Contract 68-01-0561, Teknekron EEED (March 1975).
11. Ang., K. P., "Qualities of Actinides in Nuclear Reactor Fuel
Cycles, " Doctoral Dissertation, University of California
Berkeley (April 1975).
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12. Brogli, R., Dahlberg, R. C., and George, C. H.,
"Plutonium Utilization in the HTGR", Trans. Am. Nucl. Soc.,
17, 298 (November 1973).
13. Dahlberg, R. C., "Comparison of HTGR Fuel Cycles for
Large Reactors",, Proceedings of Gas Cooled Reactor
Information Meeting, CONF-700402, pp. 694-722 (April
1970).
14. RSIC Newsletter No. 110, Radiation Shielding Information
Center, Oak Ridge National Laboratory.
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APPENDIX A
GRAPHS OF ACTINIDE ACTIVITY FOR INITIAL HTGR CORES
A-I
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LIST OF FIGURES
Figure Page
A-l Significant Actinide Activity in HTGR Initial
Core Spent Fuel for the Period from 1 to
108 Years A-l
A-2 Significant Actinide Activity in HTGR Initial
Core Spent Fuel for the Period from 1 to
100 Years A-2
A-3 Significant Actinide Activity in HTGR Initial
Core Spent Fuel for the Period from 1 to
1000 Years A-3
A-4 Significant Actinide Activity in HTGR Initial
Core Spent Fuel for the Period from 1 to
10, 000 Years A-4
A-5 Significant Actinide Activity in HTGR Initial
Core Spent Fuel for the Period from 1 to
105 Years A-5
A-6 Significant Actinide Activity in HTGR Initial
Core High Level Waste for the Period from
1 to 108 Years A-6
A-7 Significant Actinide Activity in HTGR Initial
Core High Level Waste for the Period from
1 to 100 Years A-7
A-8 Significant Actinide Activity in HTGR Initial
Core High Level Waste for the Period from
1 to 1000 Years A-8
A-9 Significant Actinide Activity in HTGR Initial
Core High Level Waste for the Period from
1 to 10, 000 Years A-9
A-10 Significant Actinide Activity in HTGR Initial
Core High Level Waste for the Period from
1 to 10 years A-10
A-ll Significant Actinide Activity in HTGR Initial
Core Recovered Uranium for the Period from
1 to 108 Years A-ll
A-12 Significant Actinide Activity in HTGR Initial
Core Recovered Uranium for the Period from
1 to 100 Years A-12
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LIST OF FIGURES (CONTINUED)
Figures Page
A-13 Significant Actinide Activity in HTGR Initial
Core Recovered Uranium for the Period from
1 to 1000 Years A-13
A-14 Significant Actinide Activity in HTGR Initial
Core Recovered Uranium for the Period from
1 to 10,000 Years A-14
A-15 Significant Actinide Activity in HTGR Initial
Core Recovered Uranium for the Period from
1 to 105 Years A-15
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-------�
A-l
Figure A-1. Significant ActiBfcte ActiTlty In HTGR Initial COM
Spent Fuel Fw We Period From 1 to 10 Years
10
i Iliiil ' i i I i nil i—I l\l 11
-------�
A-2
10
.+5
10
2
£
£
*
I
Hi
*s
e
o
b
-------�
A-3
Figure A -3. Significant Acttnld* Activity in HTGR Initial Core
Spent Fuel For The Period From 1 to 1,000 Years
YEARS
-------�
A-4
Figure A-4. Significant Actlnlde Activity In HTGR Initial Core
Spent Fuel For The Period From 1 to 10,000 Years
-------�
A-5
Figure A-5. Significant Actlnide Activity In HTGR Initial Core
Spent Fuel For The Period From 1 to 10 Years
10
JS
i
o
I
DO
f
U
10
10
10°
YEARS
-------�
A-6
Figure A-6. Significant Actlnide Activity In HTOR Initial Core
High Level Waste R»r The Period Frsm 1 to 108 Years
10
10"
-------�
A-7
Figure A-7. Significant Aetinide Activity In HTGR Initial Core
High Level Waste For The Period From 1 to 100 Years
-------�
Figure A-8. Significant Actinlde Activity In HTGR Initial Core
High Level Waste For The Period From 1 to 1,000 Tears
YEARS
-------�
A-9
Figure A-9. Significant Actinlde Activity In HTGR Initial Core High
Level Waste For The Period From 1 to 10,000 Years
10 & -
10"
-------�
A-10
Figure A»10o Significant Actlnide Activity In HTQR Initial Core High
5
Level Waste For The Period From 1 to 10 Years
n
a
<*
15
1
10°
10
10"
YEARS
-------�
A-ll
Figure A-ll. Significant Actinide Activity In HTGR Initial Care Recovered
p
Uranium For The Period From 1 to 10 Years
I
1 KT4 ,
' ' ' I ' IT'| ' ' rl""| ' ' 'I ""I
-------�
A-12
Figure A-12. Significant Actlnide Activity In HTGR Initial Core Recovered
Uranium For The Period From 1 to 100 Years
-------�
A-13
Flfm?e A-13. Significant Aetinidc Activity In HTGR Initial Core Recovered
Uranium For Th® Period From 1 to 1,000 Years
10°
YEARS
-------�
A-14
Figure A-14. Significant Actinida Activity In HTGR Initial Core Recovered
Uranium For The Period From 1 to 10,000 Years
10
-------�
A-15
Figure A-15. Significant Actinide Activity In HTGR Initial Core Recovered
Uranium For The Period From 1 to 10 Years
10
.-5
10°
-------�
APPENDIX B
GRAPHS OF ACTINIDE ACTIVITY FOR EQUILIBRIUM CYCLE
HTGR CORES
B-I
-------�
LIST OF FIGURES
Figure Page
B-l Significant Actinide Activity in HTGR Equilibrium
Core Spent Fuel for the Period from 1 to
108 Years B-l
B-2 Significant Actinide Activity in HTGR Equilibrium
Core Spent Fuel for the Period from 1 to 100
Years B-2
B-3 Significant Actinide Activity in HTGR Equilibrium
Core Spent Fuel for the Period from 1 to 1000
Years B-3
B-4 Significant Actinide Activity in HTGR Equilibrium
Core Spent Fuel for the Period from 1 to 10, 000
Years B-4
B-5 Significant Actinide Activity in HTGR Eauilibrium
Core Spent Fuel for the Period from 1 to
105 Years B-5
B-6 Significant Actinide Activity in HTGR Equilibrium
Core High Level Waste for the Period from
1 to 108 Years B-6
B-7 Significant Actinide Activity in HTGR Equilibrium
Core High Level Waste for the Period from
1 to 100 Years B-7
B-8 Significant Actinide Activity in HTGR Equilibrium
Core High Level Waste for the Period from
1 to 1000 Years B-8
B-9 Significant Actinide Activity in HTGR Equilibrium
Core High Level Waste for the Period from
1 to 10, 000 Years B-9
B-10 Significant Actinide Activity in HTGR Equilibrium
Core High Level Waste for the Period from
1 to 105 Years B-10
B-ll Significant Actinide Activity in HTGR Equilibrium
Core Recovered Uranium for the Period from
1 to 108 Years B-ll
B-12 Significant Actinide Activity in HTGR Equilibrium
Core Recovered Uranium for the Period from
1 to 100 Years B-12
-------�
LIST OF FIGURES (CONTINUED)
Figure Page
B-13 Significant Actinide Activity in HTGR Equilibrium
Core Recovered Uranium for the Period from
1 to 1000 Years B-13
B-14 Significant Actinide Activity in HTGR Equilibrium
Core Recovered Uranium for the Period from
1 to 10,000 Years B-14
B-15 Significant Actinide Activity in HTGR Equilibrium
Core Recovered Uranium for the Period from
1 to 105 Years B-15
-------�
Figure B-l. Significant Actinlde Activity In HTGR Equilibrium Core
o
Spent Fuel For The Period From 1 to 10 Years
10
10*
10 -
fio"
o>
OS
I
10+1
10°
I lo-1 P
u
S
I 10"
S
u
io-s I,
Kf4 ,
10"
10
10
-------�
B-2
Figure B-2. Significant Actinide Activity In HTGR Equilibrium Core
Spent Fuel For The Period From 1 to 100 Years
-------�
B-3
Figure B-3. Significant Actinide Activity In HTGR Equilibrium Core
Spent Fuel For The Period From 1 to 1,000 Years
10"
YEARS
-------�
B-4
Figure B-4. Significant Actinide Activity In HTGR Equilibrium Core
Spent Fuel For The Period From 1 to 10,000 Years
10
10"
-------�
B-5
Figure B-5. Significant Actiaide Activity In HTGR Equilibrium Core
Spent Fuel For The Period From 1 to 105 Years
K
3
fr 10 r
I
u
£
10°
-------�
B-6
Figure B-6. Significant Acttnide Activity In HTGR Equilibrium Core
o
High Level Waste For The Period From 1 to 10 Years
i ill un\\_; i i ill in i ill
10
-------�
B-7
Figure B-7. Significant Actinlde Activity In HTGR Equilibrium Core
High Level Waste For The Period From 1 to 100 Years
10'
-------�
B-8
Figure B-8. Significant Acttnide Activity In HTGR Equilibrium Core
High Level Waste For The Period From 1 to 1,000 Years
YEARS
-------�
B-9
Figure B-9. Significant Actinide Activity In HTGR Equilibrium Core
High Level Waste For The Period From 1 to 10,000 Years
-------�
B-10
Figure B-10. Significant Actlnlde Activity In HTGR Equilibrium Core
High Level Waste For The Period From 1 to 105 Years
10"
YEARS
-------�
B-ll
Figure B-ll. Significant Actinide Activity In HTGR Equilibrium Core
Q
Recovered Uranium For The Period From 1 to 10 Years
10
10
10
-------�
B-I;
Figure B-12. Significant Actinlde Activity In HTGR Equilibrium Core
Recovered Uranium For The Period From 1 to 100 Years
10
-------�
B-I3
Figure B-13. Significant Actinide Activity In HTGR Equilibrium Core
Recovered Uranium For The Period From 1 to 1,000 Years
10
YEARS
-------�
B-14 '
Id*
Figure B-14. Significant Actinide Activity In HTGR Equilibrium Core
Recovered Uranium For The Period From 1 to 10,000 Years
10°
ID'1 I-
3
"8
u
10'* -
1C'4 -
10
.-5
10
-------�
Figure B-15. Significant Actlnide Activity In HTGR Equilibrium Core
Recovered Uranium For The Period From 1 to 10 Years
a
"8
e
8
1GT3
YEARS
-------�
APPENDIX C
GRAPHS OF ACTINIDE ACTIVITY FOR PARTIAL PLUTONIUM
LOADING IN HTGR CORES
C-I
-------�
LIST OF FIGURES
Figure Page
C-l Significant Actinide Activity In HTGR Plutonium
Cycle Spent Fuel for the Period from 1 to
108 Years C-l
C-2 Significant Actinide Activity in HTGR Plutonium
Cycle Spent Fuel for the Period from 1 to
100 Years C-2
C-3 Significant Actinide Activity in HTGR Plutonium
Cycle Spent Fuel for the Period from 1 to
1000 Years C-3
C-4 Significant Actinide Activity in HTGR Plutonium
Cycle Spent Fuel for the Period from 1 to
10, 000 Years C-4
C-5 Significant Actinide Activity in HTGR Plutonium
Cycle Spent Fuel for the Period from 1 to
105 Years C-5
C-6 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste for the Period from
1 to 108 Years C-6
C-7 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste for the Period from
1 to 100 Years C-7
C-8 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste for the Period from
1 to 1000 Years C-8
C-9 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste for the Period from
1 to 10, 000 Years C-9
C-10 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste for the Period from
5
1 to 10 Years C-10
C-ll Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium for the Period from
1 to 10 Years C-ll
C-12 Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium for the Period from
1 to 100 Years C-12
JJ/
-------�
LIST OF FIGURES (CONTINUED)
Figure Page
C-13 Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium for the Period from
1 to 1000 Years C-13
C-14 Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium for the Period from
1 to 10,000 Years C-14
C-15 Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium for the Period from
1 to 105 Years C-15
JJ/
-------�
C-l
Figure C-l. Significant Acttnide Activity In HTGR Plutonium Cycle
Q
Spent Fuel For The Period From 1 to 10 Years
10
-------�
C-2
Figure C-2. Significant Actinide Activity In HTGR Plutonium Cycle
Spent Fuel For The Period From 1 to 100 Years
10'
-------�
C-3
Figure C-3. Significant Actinide Activity In HTGR Plutonium Cycle
Spent Fuel For The Period From 1 to 1,000 Years
YEARS
-------�
C-4
Figure C-4. Significant Actinlde Activity In HTGR Plutonium Cycle
Spent Fuel For The Period From 1 to 10,000 Years
-------�
C-5
Figure C-5. Significant Actinlde Activity In HTGR Plutonium Cycle
Spent Fuel For The Period From 1 to 10 Years
o
B
£
13
4)
s
-------�
C-6
Figure C-6. Significant Acttnid« Activity In HTGR Plutonium Cycle
8
High Level Waste For The Period From 1 to 10 Years
10"
-------�
C-7
Figure C-7. Significant Actinide Activity In HTGR Plutonium Cycle
High Level Waste For The Period From 1 to 100 Years
-------�
C-8
Figure C-8. Significant Actinide Activity In HTGR Plutonium Cycle
High Level Waste For The Period From 1 to 1,000 Years
YEARS
-------�
C-9
Figure C-9. Significant Actinide Activity In HTGR Plutonium Cycle
High Level Waste For The Period From 1 to 10,000 Years
10"
-------�
C-10
Figure C-10. Significant Actinide Activity In HTGR Plutonium Cycle
High Level Waste For The Period From 1 to 105 Years
10
rl
id
-------�
C-ll
Figure C-ll. Signincant Actlnide Activity In HTGR Plutonium Cycle
,8
Recovered Uranium For The Period From 1 to 10 Years
: • • • i "" .- • • • I"" '
10
10
-------�
10"
C-12
Hgure C-12. Significant Actinlde Activity In HTGR Plutonium Cycle
Recovered Uranium For The Period From 1 to 100 Years
10
,,232
D
1
ID
U
& Hf*
,,236
0)
•
\
h230
KT4
10
.-5
_L i
10
YEARS
-------�
Figure C-13. Significant Actinlde Activity In HTGR Plutonium Cycle
Recovered Uranium For The Period From 1 to 1,000 Years
10
YEARS
-------�
C-14
a
I
a
£
•g
fe
s
00
a
Figure C-14. Significant Actinide Activity In HTGR Plutonium Cycle
Recovered Uranium For The Period From 1 to 10,000 Years
-i—i—i i t i
10'* _
to-4 _
1
-------�
C-15
Figure C-15. Significant Actinide Activity In HTGR Plutonium Cycle
Recovered Uranium For The Period From 1 to 10 Years
10-
10
10
YEARS
-------�
APPENDIX D
TABULATION OF ACTINIDE ACTIVITY FOR CASES STUDIED
-------�
LIST OF TABLES
Table Page
D-l Significant Actinide Activity in HTGR Initial
Core Spent Fuel D-l
D-2 Significant Actinide Activity in HTGR Initial
Core High Level Waste D-5
D-3 Significant Actinide Activity in HTGR Initial
Core Processed Uranium D-9
D-4 Significant Actinide Activity in HTGR Equilibrium
Cycle Spent Fuel D-12
D-5 Significant Actinide Activity in HTGR Equilibrium
Cycle High Level Waste D-16
D-6 Significant Actinide Activity in HTGR Equilibrium
Cycle Processed Uranium D-20
D-7 Significant Actinide Activity in HTGR Plutonium
Cycle Spent Fuel D-23
D-8 Significant Actinide Activity in HTGR Plutonium
Cycle High Level Waste D-27
D-9 Significant Actinide Activity in HTGR Plutonium
Cycle Processed Uranium D-31
JZ/
-------�
Table Dl. SlgnlHcpnt Actinlde Activity From HTGR Initial Core - Spent Fuel
Curies Per Metric Ton of Heavy Metol Charged To Reactor
YEA
1 .J:
2.0E
S.JE
I.JE
2.JE
5.JE
I.JE
2.3E
l.Jc
5. Jt
I.JE
2.36
5. JL
I.JE
3. Jt
1 .JE
1.3E
l.OE
Yfci-
I.JE
2.JE
3.0L
1 . Jc
2. OC
S.JE
l.ue
2.JC
1. Jb
2. Jb
S.JE
l.JE
2. DC
5.0E
I.JE
5.3E
I . JE
l.Jt
I.Ob
;
jj
JJ
jj
ji
Ji
ji
•. j
32
. j
33
03
Jt
Jt
05
JJ
Oa
37
oa
*
33
Jj
30
01
Jl
01
J2
32
J2
33
03
•33
Jt
05
35
06
37
ud
TL-2u7
} m j!)t -j£
3.J3L-J2
« .d9: -Jt
7.6JI-J2
1.146-Jl
l.dJb-Ol
2 .2 3L-J1
2.3J6-J1
. j . fc_ j i
2.27E-J1
2.2 JL-01
2.I1C-J1
1 .3-t-Jl
l.Otc-Jl
5.5d=-j2
3.22=-J2
3.22E-J2
3 . l4c~J2
2.92E-J2
dl-21t
5.31E-JO
7.Jib-Ju
1.23£-J5
5 ."t3u- 33
2.02E-J*
b.tlC-Jt
2.2oE-03
1.23E-J2
4.766-O2
1.67:-J1
7.36E-J1
1. Ode uO
4.J7E JJ
9.27t JO
l.ttb Jl
1.02E 31
2.65£ J'J
I.d7t-03
1.79E-J3
TL-20d
l.jlE 01
.<;3t Jl
.D3t 01
.60E Jl
.tse Jl
.llE Jl
O • J D C JhJ
2.&4E OJ
1 7 A c J 1
>.t2£-J2
3.3JE-J2
3.3Jb-J2
3.3JE-J2
3.3JE-02
3.3Jt-02
3.JUE-02
3.3JC-02
3.3JE-02
3.J2E-J2
3.3te-02
PJ-21J
3.91E-37
l.lSc-Ou
3.34E-06
l.3vt-05
d.d7c-0!>
3.3VE-J4
1.71E-J3
1 .Its- J2
<>.3Jc-02
i.o7b-Jl
1.8dk OJ
4.37E OJ
9.27E 00
l.ttb" 01
1.02E 01
2.o5E 30
1.37E-03
1 .79E-03
TL-239
1.33E-J3
l.73t-J3
2.d-ifc->>3
d.6nc- J3
2.J2C-J2
3.9iE-J2
1 i ^ t O 1
3.b-VE-Jl
7.J26-01
1.52E JJ
2.t<,t 00
3.2dE JO
3.t IE 00
2. 79E OJ
5.27E-J1
d.3tt-O2
1.30E-J3
2.a2E-l6
PO-211
7.1 j£-J5
9. 186-05
l.t 7E-Ot
2*2>)E-Ot
3*3 / £~ 0**
d*o 7 E ™ 0 ^i
6.7 Jt-Jt
6.43E-04
6.9JE-04
e.i'.z-J't
6.7lE-Ot
b.36E-Jt
3.d 16-0*
t.8dt-0*
3.036-0*
9.6'»t-J5
9.6 ^E-05
9.60b-05
8. 796-05
PB-<09
6. 12k- 02
7. ddk-Ol
1.31E-J1
2. Hfc-Jl
•J.20E-01
1 . 7-f c 0 J
3.52c OU
l.bdC 01
3. 1-ie 01
o . 92 E J I
1. Ilk J2
l.t*E 02
l.53t 02
1.27k 02
2.3->c ol
J. 74t UJ
5.92t-02
l.HE-14
PU-<12
1.7Sk 01
2. lab Jl
2. 72E Ul
2.dOk-J2
I.o7c-Ji
7. 361-01
l.odk OO
*.07t OO
9.27t 00
l.**L 01
1.J2E 01
2.93E JO
1.87E-03
1. Mt-JJ
Pj-213
t>. 9dt-J2
7.7ib-J«:
i. 2-Jt-Jl
2. 1 tfc-Ol
j.eOE-Jl
V.OUE-01
1.73k OU
3.-V3C OJ
a.t2E 30
l.btE Jl
j. l2t Ui
6. 77b Jl
l.Oai 02
l.*ot 02
1.32k 02
1.24E U2
2.33-211
2.346-02
3.JoE-02
t.'UE-02
7.63t-02
1. 196-01
l.dlE-01
i i jc — OL
2.JIE-01
2 ^Ot * 01
2.286-01
2.2*k-Ul
2.1/E-01
l.-<*t-Ol
1.63E-O1
l.Jlb-01
5.3<*k-u2
3.23c-02
3.236-02
3.23b-02
2.43E-U2
PJ-21*
3.JIE-U6
7.O*6-Ot>
1.2dt-u5
2.43E-O3
i.*3t-05
2.J2b-0<>
b. «lt-O*
2.26E-03
I.i8k-02
t. 76k-02
1 . ^7b-Ul
7.36E-01
l.dHE 00
4.07E UO
9.27k 00
l.ttb 01
1.02E Ul
2.036 00
1. »7E-UJ
1. 7Sfc-03
PB-212
2.T9E 01
3.tOE 01
t.256 0|
*.**E 01
*.LJ6 01
3.07E 01
7.32E 00
t 9* E— O I
q*5u£_u2
9.17E-02
9.17E-02
9.l7fc-02
9.1 76-02
9.17E-02
9.17E-02
9. 1 7C-o2
9.18E-02
9.ZU-02
9.29E-02
P3-215
2.39E-02
3.J66-02
t. 9 16-0 2
7.636-02
1.19E-01
1.19E-01
2.23fc-31
2. 316-01
2.306-01
2.28b-0l
2.24E-01
2.12E-31
1.9*6-01
1.53E-JI
1.016-01
S.S9E-02
3.23E-02
3.23E-02
3.2JE-02
2.936-02
PB-2K
5.31E-06
7.0*6-06
1.28E-J5
2.*3E-05
5.*36-05
2.02E-0*
b.tlE-J*
2.26E-03
1.2SE-92
*.76E-02
1.67E-01
7.36E-01
l.BSfc OJ
<,.07c 00
9.27C 00
l.**E 01
1.02E 01
2.65F 00
1.87E-03
1.79c-J3
PU-216
2.79E 01
3.*OE 01
4.25E 01
*.**C 01
*.IOE 01
3.07E 01
1.90E 01
7.32E 00
4. It 00
l.bbt 01
3.19k 01
b.92E Jl
1.1 IE 02
l.t^E 02
1.35E 02
1.27b 02
2.39E 01
3. 79t 00
5.926-02
1. 19E-1-.
81-212 81-213
2.79E 01
i.*06 01
V.25L 01
t.ttE 01
4.106 01
3.07c 01
1.9JE 01
7.32E 00
*.9<>E-01
9.506-02
9.17E-02
9.17E-02
9.17E-02
9.176-02
9.176-J2
9.17t-02
.126-02
.ttdE-02
.316-01
.19E-01
,95t-01
.20b-ol
. 79E 00
.52E 00
.61C 00
.bat 01
.196 01
.92E 01
. 1 It 02
.496 02
. 55E 02
.276 02
9.17E-U2 2.J9E 01
9.1dE-02 3. 79C OO
4.21E-02 5.«*2C-02
9.24b-02 I.l9t-l*
KN-210 RN-220
2.39E-02 2.79b 01
3.0e>6-02 3.*Jt 01
4.916-02 4.25E 01
7.636-J2 4.44C 01
1.19E-01 4. lOb 01
1.896-01 3.076 01
2.2Jb-01 1.406 01
2.31E-01 7.32E 00
2.30E-01 *.
-------�
Table Dl. Cont'd.
l.JE JJ
2.0E JJ
S.Oc J3
l.JE 01
2.Jt Jl
S.Jc Jl
l.JF 02
2.Jc J2
5.0E J2
l.j = 03
2.J£ J3
3.JE 03
l.JF J*
2.J£ 3-.
5.jE jr -Jj
1.2HE-JJ
4. 70L-J2
1.37:-J1
7.3t,= -Jl
1.4a: JJ
i.07c JO
9.27c JJ
1. 44:; Jl
1.J26 Jl
2.C3C J J
I.d7:-Ji
1.7^r-J3
T-l-223
2.79; Jl
3.39E Jl
4.23c Jl
4.4.»= 31
••.lot Jl
3.J7C Jl
1 . 9 0 b J 1
7.32c JJ
4.<*4c-Jl
9.5JC-J2
9.17E-J2
9.1 7t~J2
9.17E-J.!
9.17E-J2
V.17E-J2
9.17c-J«!
9.176-J2
9.18S-J2
9.2U-J2
V.2-»t-J2
M-221
a.l^E-02
7.ddb-J2
1.31E-01
J.lSE-Jl
3.9SE-J1
•*.> Jt-Jl
1 .7->b JJ
3.32t 00
J...15: JJ
l.bdc Jl
j.i4£ Jl
i.J2E 01
I.UE 02
1 ..*E J2
l.3*c J2
1.2/c 02
2.346 01
3.79E JJ
5 .42b-02
1 .l-*E-U
r-<-229
j.l 2b-J2
7.JJb-32
l.jlE-01
2.l4b-Jl
3. 9aE- Jl
5 ,^3b- Jl
l.79b Jj
3.52E 00
0.61E JJ
l.idE 01
3. HE 01
6.*2e 01
I. lit 32
1.49E 02
l.5»E 02
1.27E 02
2.39E 31
3.74E J3
' .92b-O2
1 .19E-14
f-R-223
3.3SE-04
4.2 7E-04
6.36E-04
1.07E-03
l.bab-03
2.&4E-03
3.1 2c-33
3.23E-03
J. 226-03
3.1-JC-J3
3.13c-03
2.-*7?-J3
2.7U-03
2.2dC-J3
l.*lt-J3
7.i 3E-0*
<..52£-0«.
4.1 Jfc-04
H-23J
3.S-JE-03
4.11L-03
4. 7 /C-JJ
5.d7c-03
d.J->:-03
1.49£- J2
2.ooE-J2
3.0dt-02
1.265-01
2.S2E-J1
5.03C-J1
1.24E 00
2.40E JO
4.546 00
9.S9e 00
1.46c 01
1. 016 01
2.a2t 30
1.3 7E-J3
1.7J6-03
«A-22j
£ m 34 t "" \)£
3 • Oft £^ J A
4.9ik-02
7.DJC-02
1. IVc-Jl
1. tNc-ul
2.2JL-J1
2. 3it-o;
2.3JC-01
2.2ob-ul
2. 24c-ui
2.UC-01
1 . 44C-J1
I. bjt- Jl
l.Oic-Jl
5. J^c-o2
3.23£-u2
J.23c-j^
3. 2oc-0i
2.93b-J2
IH-2JI
3. l-*b-02
3. 19c-j2
3. ltt-oc 31
•>. lOt Jl
3.J7E Jl
l.VOt Jl
7.32E 00
4.V-.E-UI
•».» Jb-J2
4.1 7e-02
4.1 IE-32
•*. 1 7c-J2
9. 17E-J2
9.17t-02
•*. 1 7E-Jt
•». 1 7E-J2
4.1ob-J2
•). 2 It-Ji
4.24E-J2
m-2J2
9. 17E-J2
4.17b-J2
4.17b-02
V.17E-02
4.17c-J2
•V.l/t-02
4.1 7b-J2
).l7t-U2
9.17E-02
W.17E-02
9.17E-02
9.17k-02
4.17b-J2
9.i7b-02
4.17C-J2
S).17b-32
4.1 7b-02
y.l3c-j2
9.2U-J2
9.24E-02
Ton of Hepvy Metal Charged To Reactor
RA-i2b
6.12E-02
7.aat-02
1.316-01
2. 19E-01
3.9&E-01
9.2JE-01
1.746 00
3.52C 03
8.61E 00
l.bdb 01
3.19E 01
6.92E 01
I.UE 02
1.4-)b 02
1.33b 02
1.276 02
2.3Tb 01
3.7JE 00
5.926-02
1. 14t-14
IH-234
3.43E-03
l.dOb-03
l.dJE-Oj
l.dOE-OJ
l.djE-03
1.80b-03
l.ttOE-03
1.806-03
1.80E-03
l.dOb-03
l.dOb-03
l.dOfc-03
l.dJb-03
1.80E-OJ
l.dOt-OJ
1.6JE-J3
l.tilE-03
1.81E-03
l.dlb-03
1.74E-03
RA-226 RA-22d AC-225
S.31E-06 4.J1E-02 6.12E-J2
7. 046-06 4.52E-02 7.88E-02
1.29E-OS 5.76E-02 1.31E-JI
2.436-05 7.I4E-02 2.19E-U1
S.43E-OS d.45E-02 3.9SE-01
2.02E-04 9.14E-02 9.20E-01
6.V1E-04 9.17E-J2 1 . 79E 00
2.26L-03 9.17E-02 3.526 00
I.J8E-02 9.17E-02 8.61E 00
4.7&F.-02 9.176-02 1.68E 01
1.67E-01 9.17E-J2 3.1'7E Jl
7.36E-J1 9.176-02 6.92b Ol
1.9JE 00 9.17E-02 1.116 U2
4.076 JO 9.176-02 1.496 u2
9.276 00 9.176-02 1.55E u2
1.44E ol 9.17E-02 1.27E J2
1.32E Ol 9.17E-J2 2.39E 01
2.656 00 9.186-32 3.79t 00
1.87E-03 9.21E-02 5.92E-J2
1.74E-03 4.29E-02 1.19E-1*.
PA-231 PA-233 PA-234X
2.326-01
2.32E-01
2.32c-01
2.32t-01
2.32E-01
2.32E-01
2.326-01
2.31E-01
2.30E-01
2.2&E-01
2.246-01
2.12E-01
1.946-01
1.63E-01
1.01E-01
5.59t-02
3.23E-02
3.23E-02
.04t 01
. 34E 00
. 34E 00
. J4E 00
. 34t 00
.34E 00
•34E 00
.35E 00
.37E 00
.38E 00
.396 00
. 39E 00
.39E 00
.39E 00
. 37E 00
.356 00
.19E 00
.01E OJ
3.2UE-02 5.47E-02
2.93E-02 1.19E-14
.43F.-o3
.dOE-03
.dOE-03
.8J6-03
.80E-03
.HOE-J3
.80E-03
.806-03
.ROE-03
.aoE-oi
.80E-03
.dOE-03
.3JE-03
.80E-03
.80E-03
.80E-U3
.8IE-U3
.dlE-03
.816-03
.796-03
AC-227
2.396-02
3. 036-02
4.4Jb-02
7.ale-o2
i.i9t-01
I.d4c-Jl
2.2JC-01
2. 3U-01
2.3JE-01
2.2dL-Ol
2.<->b-ol
2.1
-------�
Table Dl. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
VEAJ
l.OE
2.0L
i.Oc
l.JE
«:. JE
S.Jb
1.JL
2-Jc
S. Je
l.J£
4. JC
S.-E
l.Jc
2. Of
S.JE
1O£
5.3E
LOc
l.JE
l.JE
YEA*
1. Ob
2. OF
S.Uc
1.3E
2.0E
i.Jb
l.JE
2.JE
5.0E
1 . JE
2.JE
3.JE
I.Ob
l.3t
5.0E
l.Jb
S.OE;
1.JC
l.JE
l.JE
JJ
JJ
JO
Jl
Jl
Jl
J2
02
-2
J3
Ji
u3
J*
J4
J
02
J3
03
03
J*
J£ Jl 3.2JE-J2
2.7dt Jl 3.41E-02
2.33E Jl 3.22t-J2
2.22e Jl 3.£3c-J2
7.23E JJ 3.23E-02 1
1.7JE JJ 3.23E-J2 ?
1.3U-J3 3.2JE-J2 7
l.79t-J3 2.*J£-J2 5
Pu-2*J Pj-241
2.3-JE Jl 7.SJE 03 t
2.-.JE 31 7.2sE 03 2
2.*IE Jl 6.296 03 i
2.£ 03 i
2.<.7E Jl 3.«-3£ Ji J
2.S2E 01 7. We 02 2
2.53E Jl 6.91E Jl 2
2.50b Jl b.fjE-Jl 2
2.43e 31 o.9it-02 ,
2.3JE Jl 6.656-02 i
2.0Bb Jl 6.12E-J2 2
1.53C Jl 4.76E-02 2
9.1t>c JJ 3.l3c-J2 2
3.2d£ 00 1.35E-02 i
1.31E-J1 1 .J-JE-J3 2
•J.S-rfE-J* l.bSE-03 i
1.11E-0/ 4.4jt-20 I
1.52E-J9 2./lE-3d «,
l.b4t:-J9 J.J i
7.71E-10 J.J U
U-23&
1.0 IE 00
.3 IE 00
.OlE JO
.OlE 00
.Jib UO
.JIE oO
.OlE JO
.OlE 00
.OlE 30
.JlE UU
.OlE 00
.Jib 00
.Jib 00
.Olb 03
.Jib 3J
.OlE 30
.JJE 00
I.ddt-Jl
r.6lE-01
.99e-02
PO-2^2
.57E-01
.57t-Jl
.57E-01
•57t-0l
.37E-U1
.5/E-01
.3 7e-0 1
.57b-01
.57E-01
. 5e>b-01
.S3E-01
.53E-U1
.48E-01
.3*6-01
.1SE-01
.03E-01
. 1 ^£-02
.93b-04
.0
U-<:37
1. dJb-01
I. 79c-l3 1.34E 00 3.BOL- 00 9.49E-13 l.dVc-01 .lo£ 04 1.22E 01
.dOE-03 1.99E-14 1.34b 00 3.dOE 03 1.99E-14 4.1Jfc-02 .14E 04 1.22E 01
.due-J3 3.74E-14 1.34E 00 3.79b 00 3.74E-14 2.7Jt-J2 .09E 04 1.22E 01
.90b-JJ 7.22e-L4 1.3*6 00 3.79E 00 7.22E-14 2.37c-03 .Jib 04 1.22E 01
.dJc-03 l.77b-13 1.34E 00 3.7dE 00 1.77E-13 l.oOE-Ub 8.00E 03 1.22E 01
. oJe-OJ 3.',lc-l3 1.34E 00 3. 7oE 03 3.51E-13 d.J9E-l2 5.42b 03 1.22C 01
.dOb-03 7.03b-13 1.35E OJ 3.7JE JO 7.00E-13 2.24b-22 2.49E 03 1.22E 01
.dJE-u3 1.74E-12 1.37E 00 3.63E 00 1.7*E-12 <..odE->* 2.4UE 02 1.216 01
.dJi.-J3 3.<.U>.-12 1.3db 00 3.47E 03 3.48E-12 O.J 4.90E OJ 1.20E 01
.dOE-OJ b.'oE-H 1.39E 00 3.17b 00 6.46E-12 J.J 2.12E-03 l.lriE 01
.oJE-JJ 1.73b-ll 1.39E OJ 2.*lE 30 1.71E-11 O.J U.O S.04E-21
.d
-------�
Table Dl. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YEA*
l.OE JO
2.0E 03
S.JE 33
l.Jt Jl
2.JE Jl
S.JE Ji
l.OL J2
2-Jt J2
S.JE J2
l.JE Ji
2.JE J3
S.Ob J3
l.Jt J*
2.JE J4
S.Ob )<•
l.oE jj
S.Ot 05
1 . Jh io
l.OE 07
l.OE J3
YEft*
l.OE 00
2.JE JO
S.Ob OQ
I.Ob 01
2.JE Jl
5. Ob 01
l.UE w.2
2.0E 02
5.JL 02
l.JE 03
2.JE J3
S.JE 03
l.OE 04
2.0E J4
S.JE J«.
l.Ofc JS
S.OE JS
l.OE Ob
1.36 07
l.OE 38
C1-2*3
S.93E-J1
5.3U-JI
S.*4:-J1
"t.a.ifc-Jl
3.V3E-JI
2.J»e-Jl
o. "oc- J2
7,-yoz-J i
1.2JS-J3
2.J7E-1J
4.2bt-2J
5.52L-tl
O.J
O.J
O.J
0.0
O.J
0.0
0.0
0.0
CF-251
2.3-.E-J7
2.S-.E-J7
2* S4E-07
2.53C- jy
2.5IE-J7
2 .4bb- Jl
2. 3 of- J 7
2.1«E-07
1.7JL-J7
l.lcb~ la
2 .2&E- 1<>
<«.«9r- 14
d "J J c - !•#
2.1ot-13
t.l2E-13
1 ..".c-12
l.J/c-12
2.1JE-12
1 .JJE-12
CF-252
o .03C- J5
4 .u'.E-OS
2.11 c-05
5.71IE-J6
*«i 5E- J7
1 .oJc-10
3-Jnc-lb
1.37E-27
1 .Olc-bl
0.0
O.O
0.0
3.0
J.O
0.0
O.J
O.J
J.J
J.O
0.3
CM-245
7.22E-32
T.22E-02
7.22E-02
7.22E-02
7.21E-02
7.19E-J2
7.1bE-J2
7.103-02
b.93E-J2
b.b«b-02
6.1 1E-02
*.75E-02
3.12E-02
1 . 33b- J2
I. JJE-33
1. b»E- JS
<>.t2E-2J
2.7U-33
0.0
O.J
CF-253
2.27b-14
1.52E-2U
4.5db-39
O.J
0.3
U.O
0.0
J.O
0.0
0.3
U.O
U.O
0.0
0.0
u.O
0.0
0.0
0.0
0.0
0.0
CH-2*6
2.94E-02
2.9«.c-u2
2.9«E-u2
£ • 9^ t- J2
2.93t-02
2. 92c- U2
2.9jc-0^
2. Oak-Ji
2. 7>c-02
2. SE-j3
1 Sbt — 0 J
1. 8dc-o^
1.2Jc-Jd
2.31C-22
3. 2i,
1. S7C-11
2. 3^t-li
9. Ijc-H
O.J
0.0
0.0
O.O
0.0
U.O
0.0
0.0
0.0
0.0
3.0
U.O
0.0
0.0
3.0
0.3
0.0
CI-2^7
1.1SE-07
1.1SE-J7
l.lSb-07
1.1 5E- J 7
1.15b-J7
L.15t-j7
I .1 3E-J7
l.iat-07
1.15E-J7
1.15E-J7
i.lSE-07
1.1 SC-J 7
1 . ISb-J?
1. 1 SE- J 7
l.lSt-J7
I.15b-j7
1.13E-J7
l.lOc-07
7.iSE-Jd
l.idb-J9
0-233
2.3/L-12
l.iJb-17
i. /5b-33
S.*. J
0.0
J.O
J.J
0.0
J.O
J.O
J.O
J.J
0.0
J.O
J.O
3.0
J.O
0.0
J.O
CH-2*8
fe« 54E — 0 7
t.!«4E-07
V. S SE— 07
, - c C — Q 7
*.Sit-07
tf, 55t-07
*.i5t-07
if, sSc-07
V. 5^t-07
«•. jtb-07
4. SJt-07
<».SOb-07
.b6E-Ob
4.23c-0b
3.-.7E-06
1.92E-Ub
7.1dE-07
l.OOE-07
2.72E-10
l.*4E-l<>
tt i c y \
8.d6E-49
0.0
0.0
0.0
0.0
0.0
CF-250
2.7bt-OS
2.b2fc-05
2.23E-OS
1 • 7 1 E— OS
1.01E-05
2.0b£-0e
1 ,*SC-0 7
7.2bt-lO
l.U2b-13
l.OOE-13
9. bit- 1 *
d .5 3f- It
b.VSE-1't
^ * QC 1 U
1.42E-14
1.9
-------�
Table D2. Significant Actinide Activity From HTGR Initial Core - High Level Waste
I.OE 03
2.JE JO
3.JC OJ
l.JE 01
2.0t 01
5.3E 31
1.UL 02
2.uE 02
b.3E 02
l.JE 03
2.Jc 03
3.Ub. J3
I.OE 34
2.J6 04
S.JE 04
l.JE JS
3.Jc 03
I.OE 06
l.Jt 07
l.uE 08
YfcAk
I.OE 00
t.-lc JO
5.uL 03
I.OE 01
2.0t 01
5.0£ 01
l.OL 02
2.Ob 02
5.JE 32
l.OL J3
2.0E 03
5.0E 03
I.OE 04
2.Jc 04
b.oC 04
I.OL Jb
5.0L OS
I.OE 06
1.0? 07
l.Oc OS
Curies Per Kilogram of Actlmdes In High Level Waste
TL-207 TL-20d FL-209
1.476-J3 d.62E-03 l.ldE-06
2.32c-J3 l.ObL-J2 1.3bc-J6
2.71E-06
4.63E-06
o.2dc-J3 1.iOE-02
•).dlb-J3 I.i7b-02
.30^-02 9.J9E-O3
. 3al c-o3
.•»O=-J2 2.^3E-03
.8->t-J2 I .SJb-0-.
• 87=-J2 2.3JE-J5
.bjt-J2 2./it-05
•72c-J2 2.7it-J5
l.55=-J2 2.73E-05
1.251--J2 2.7jE-05
2.32E-J3 2.73E-03
o.t7;-J3 2./3E-O5
0.42L-J3 2.7Jc-05
b.37t--Jb 2.75E-05
5.dJb-03 2.dO£-J5
el-21*
3.05E-07
3. JoC-J7
3.11E-0/
3.21b-07
3.56L-J7
6.3J;-J/
2.21E-J6
1.15E-JJ
1.J5E-J4
J.9JE-05
7.0JE-03
l.jdt- J4
Ptt-i.09 PB-2U
7. 10c-05 3.23E-08 2
1. 2je-0-» 3.d5c-0d 4
3.d3E-o« 1.U3E-J7 9
9. 07£-ds J. 7JE-07
3. 4*e-0 3 o.lOc-Oo
d. 53t-^3 ^• 1 eE-03
l.67c-02 ».i5E-J4
loL-02 l.Vlt-Oj
3.37E-03
3.77E-03
3.53C-03
A . 3 / L - 0 3
l.OJE-Ot
2.17E-17
7.SVE-JO
i .33b-JB
,.63b-07
I.73E-07
1.9U-JJ
9.00E-03
1.17E-J1
l.dcc-Jl
1.2VE-J1
3.36E-J2
d.Ut-06
•*.JJE-03
1 !l 7E-01
2.95c-05 2.2>E-02 3./oc
O^L-0^ i. /Jb
97t-03 3.42b
67C-J4 U.3/E
36E-02
3ot-vj6
22E-06
5.54E
b.7 Jt
5.70E
S.b4E
5.52E
5.17E
t.>5E
3.7oE
l.94t
6.9/E
1.95E
1.93E
1.92b
1.756
•05 I
-05 3
•Ob 2
•OS 5
•05 4
•05 4
-05 4
•05 4
• j5 4
•Oo 4
•07 4
•07 4
•07 4
•07 4
, 85c-
,856-
,856-
, 85c-
, flbt-
iait-
05 J.I it
05 o. 77b
Oa l.JSb
0!> l.iOb
J? l.ldc
l.adc
OS 1.14t
.9dt-
.536-
.30E-
.5aE-
.91c-
.906-
.ddE-
•03
-J3
•03
-02
•02
•02
•02
3.
1. Ut-ol
1. 71E-J1 l.l fb-Jl b.
4. 89t-Jj j.Jot-Oo b.
72t-J2
.646-
.32E-
,4,b-
. 3'lf.-
03
03
05
05
PB-212
2.39E-02
2.956-02
3.726-02
3.H86-02
3.526-02
2.61E-02
l.olE-02
6.21E-03
7.5dE-0»
7.58F-OS
7.3BE-OJ
7.5dE-05
7.38E-J5
7.3db-03
7.59E-OS
7.6-.E-35
7.77E-03
•04
•04
•03
-03
-02
-02
-Jl
-01
-Jl
-Jl
3.03E-
3. JuE
3. HE
3. Sot'
b. 5j£-
2.21E
1.13E-
. 76r-03
1.91E-
9.00fa-
2.34E-
5.12E-
1. 17E-
l.d^t-
3. 3oE-
3.36E-
3-22E-
PD-215
07 1.98E-03
07 2.53E-03
0 7 4.366-03
U? 6.30E-03
07 9.04E-OJ
07 1.3bE-02
.85E-02
.91E-02
.906-02
.ddE-02
.846-02
.72b-02
.556-02
1.2SE-02
6.646-03
2.32E-03
01 0.4SE-C5
02 6.446-05
06 6.396-05
06 5.85E-05
PB-214
3
•
056-07
2
81-210 dl-21i
.34E-Od 1.986-03
3.066-07 3.
3
•
3.
3.
116-07
216-07
Sot-07
6.536-07
2
1
1
t,
.
V
i
5
1
1
1
3
3
3
•
.
m
m
•
•
.
.
•
•
•
•
•
•
216-Ob
15E-05
05E-04
d5E-04
91E-U3
OOE-03
346-02
126-02
17E-01
82E-01
29E-01
36E-02
36E-06
226-06
5
9
1
3
1
8
2SE-Od 2.536-03
.BbE-Od 4.06b-J3
.776-08 6.30C-OJ
•
•
•
.
65E-07
75E-J7
296-Jo
106-0o
9.I6E-J3
4
1
9
i
5
1
I
1
3
3
3
•
.
•
.
•
•
*
.
•
•
SiE-Jt
916-03
006-03
34E-u^
\2E-Ji
17E-JI
626-01
2-Vb-Jl
366-02
36E-06
».d4E-Oj
.306-02
.856-02
.91t-02
.•)Jb-O2
.odb-02
.B46-02
.72E-U2
.35E-02
.2 bE-o2
.o4E-03
. 3it- O3
. •>l'6-O3
. 44fc-o5
. 3Vb-Oa
.22E-00 3.at>E-oS
PU-2lt> PU-21*
i
2
3
3
3
2
1
6
4
7
7
7
7
7
7
7
7
7
7
7
•
•
•
19E-02
956-02
72E-02
.aat-02
•
•
.
•
•
•
526-02
olE-02
t>16-02
21E-03
17E-04
86E-OS
.586-05
•
.
•
•
•
•
•
•
•
5HE-05
S8E-05
58E-05
5bE-05
58E-05
5dE-05
59E-05
64E-05
776-05
3
3
3
3
3
6
Al-217
.056-J7 3.33E-05
•
06E-U/ ]
F. lUt-03
2
2
3
3
3
2
1
6
4
7
• 7
7
7
7
7
7
7
7
7
7
I
2
.11E-07 1.236-04 4
.21E-U7 2.U6-04
•
5o6-07 .
1. d3c- O4
.536-07 9.U7E-U*
2. 216-Ob 1
1
1
4
1
.77t-03
.15E-J3 3.*^t-03
.05E-J*. d.b^E-ui
%
9
9.
2
5
1
1
1
3
3
3
•
m
85E-04 1
91E-U3 J
. 67b-u2
.186-02
OOE-03 3.92E-02
346-02 1
12E-02 1
.126-01
.53E-01
.176-Jl 1.71E-01
•
B2E-Oi 1
.29E-01 1
.olE-01
.176-01
b
9
1
1
1
1
1
1
1
1
1
6
2
6
.366-02 9.346-02 6
.366-06 4.846-03
•
22E-Ot> 9
.d?t-lo
6
5
BI-212
2.396-02
2.95E-02
3.726-02
3.886-02
3.52E-02
2.616-02
1.61C-02
6.21E-03
4.17E-04
7. 546-05
7.58E-03
7.3d£-03
7.58fc-05
7.586-05
7.58E-05
BI-213
5.35E-OS
7.106-05
1.23E-04
2.10E-04
3.85E-04
9.07E-04
1.77E-OJ
d.»3E-03
1.07C-02
3.18t-02
6.92c-02
1.12t-0l
1.336-01
I.71E-01
l.blE-01
7.596-03
-------�
o
O5
Table D2. Cont'd.
Curies Per Kilogram of Actinides In High Level W?ste
YtA»
l.OE 03
2.0k 00
S.Jt JD
1.JE Jl
2.06 Jl
5.JL Jl
l.JE 02
2.0t J2
3.0E w2
l.JE J3
2.JE 33
5.JE 03
1.0k 04
2.0k J4
S.Jfc 0*
l.Jt 03
5.0 = Ob
l.OE Jo
l.ur J7
l.OE 0*
fEAS
. .Ct 03
?.J£ wO
S.JE JO
l.Jfc 01
2.JE Jl
5.0E 01
l.JE 32
2.JC 02
5.0E )2
l.OE 03
2.JE J3
S.JE J3
l.JE 04
t.Ji 34
b.uk 07c'02
3.1dfc-02
o.-*2t-Ji
l.llb-Jl
1 .5iE- Jl
1.71t-01
1 .OlE-Jl
1 .1 fc-Jl
4.3^E-J2
<-.3Jc- Jl
9.i5t-l&
1-1-229
S.jit-03
7.1 JE-Jp
1.23b-oi
2.1 jE-04
3.SJC-IN
9.j7c-07c-02
J.ll>L-J2
O.V2E-J2
I.l2c-Ul
1.53E-01
1 .71t-01
1 ,6lt-01
1 .17fc-01
9.3VE-02
4.d9c-03
9.U5E-15
t-R-223 R4-2;j
2.77E-05 1.9dE-o3
3.5JE-J5 2. 53c-j3
5.67E-05 4. Oot-03
d.dlE-05 6.3Jfc-J3
1.3db-J<. 9.d*k-03
2.UE-0* l.5oe-02
i.58E-J'. l.B3k-J<>
2.07E-0* 1.9IC-J2
2.6oE-J4 1.9jc-j2
^.6*E-J* l.BJc-02
2.57b-0o 1.8-.c-u2
2.41E-04 1. 7^E-J^
2.17E-0* 1.55C-02
1.75E-0* 1.2>t-J2
9.29E-03 0.64C-J3
3.23E-J5 2. 32c-J3
9.09E-07 6.*-vE-J5
9.02E-07 t>.E-0'ic-03
3.39E-04 2.05L-J5
1.23E-U3 2.oac-0!>
2.32E-03 2.73t-J»
6.00E-J3 2.d3c-0s
1.53E-02 3. lOt-Oa
3.JIE-J2 3.52c-J3
5.72E-02 t.22c-05
1.21E-01 5.49E-US
1.3tk-01 o.22c-03
1.2dE-01 o.'iit-jS
3.32E-02 6.4<.c-ui
3.3tit-0e> 6.39E-J5
3.22E-J6 5. d3c-u3
*A-2^»
2.4VE-J2
2.95E-J2
J.71E-U2
3.ddt-J2
J02E-02
2.olC-j^
1.3lt-J2
3.2U-OJ
4. 17E-J*.
7.d6C-J!>
7.30C-J5
7.5dt-Jt)
7oot-JS
7. 3oE-01>
7.3dE-Ja
7.5<»e-0i
7.3d£-03
7.a-«f-Jj
7.6<.t-Jb
I.77b-Ua
M-2.»2
7. 5 BE- J 3
7.3 JC-J3
7.3db-3>
7.5dc-u5
7.3dE-JS
/.sdE-33
7.3dt-J5
7.7dE-j5
7.SdE-05
7.3flE-J5
7.3dk-J5
7.5dE-j5
7.33E-3S
7.j8fc-3i
7.jdE-i)5
7.3dE-35
7.5d£-J5
7.39E-03
7.i<,E-J5
7.77E-J5
•tA-2^5
5.35E-05
7.1JE-OS
1.23E-J4
2.lOfc-0«
3.O5C-0".
9.07E-J*
1.77L-03
3.<>9k-03
d.bSk-03
I.b7t-02
i. Idb-u2
b.92t-U2
l-lJt-ul
1.71E-01
l.oic-Ol
1.17E-01
9.i9t-i)2
6
.4aE-06
.•*dt-U6
.4dt--06
.4JE-J6
.'lj£-l>6
.(,96-06
.49E-06
.4)E-Ob
1.5Jt-Ot>
1.52E-06
l.iiE-06
1.6*6-06
1.7JE-U6
2.3J.E-06
2.996-06
3.276-00
3.226-06
RA-226
3.05E-07
3.00E-07
3.11E-07
3.21E-07
3.30E-07
6.5JE-07
2.21E-06
1.15E-05
1.05E-0*
4.BSE-0*
1.91E-03
9.00E-03
2.30E-02
5.126-02
1.17E-01
1.32E-01
1.296-01
3. Jofc-02
3.3oE-06
3.22E-06
PA-231
I.92E-02
1.9>b-J2
1.92E-02
1.926-02
1.92E-02
1.92E-02
1.91E-02
1.91E-02
1.90E-02
l.ddE-02
1.B4E-02
1.72E-02
1.55E-02
1.2iE-02
6.63E-03
2.32E-03
6.49E-05
6.<.*E-05
6.39E-05
5.85E-J5
RA-228
2.58E-03
2.33E-03
1.73E-03
1.06E-03
*.2oE-0*
9.15E-J5
7.S9E-05
7.53E-05
7.586-05
7.58t-05
7.5dE-05
7.5dE-05
7.58E-05
7.5d§-05
7.5dt-05
7.5dt-05
7.58E-05
7.39E-0*
7.6<.E-05
7.77fc-05
PA-233
6.64b 00 .
l.llc-01
1.10E-U1
1.10E-01
l.iU-01
.11E-01
.116-01
.12E-01
.136-01
.l*E-Ol
.15fc-01
.156-01
.ISf-Ol
. UE-01
.13E-01
1.12E-01
9.806-02 .
B.34E-02 i
4.52E-03 .
9.85E-16 :
AC-22S
5.35E-03
7. 10E-05
1.23E-0*
2.10E-0*.
3.85E-04
9.07E-J4
1.77E-OJ
3.496-03
9.35E-03
1.67E-U2
J.lflE-02
S.92E-J2
1.12E-01
l.53E-jl
L. 716-01
1. 616-01
L.17E-JI
*. 39E-02
i.d9E-03
J.B5E-10
PA-234M
J.83E-JO
l.4dE-Oo
1.48E-06
.48E-U6
.48E-06
.4dE-Ob
.4dE-Ob
,48E-0«>
.49E-JO
.49E-00
.496-06
.50E-06
.52E-00
.55E-06
. 64E-00
. 786-06
!.56E-06
!.99E-00
J.27E-06
I.22E-00
AC-227
l.»dE-03
2.52fc-03
4.J5E-U3
b.^9e-03
9.dJc-03
1.56t-o2
l.d*6-02
1.916-02
DOE-02
l.ddfc-02
l.ttnE-02
1.72E-02
I.»5c-o2
1.2Sb-02
6. otb-OJ
2.3^C-03
S.49fc-OS
b.44E-O3
0.396-Oi
5.356-OS
PA-2J4
2.856-09
1. •.86-09
1.4dE-09
l.4d£-09
1.4BE-U9
l.td£-09
I.«,d6-09
1.48E-09
1.49E-04
1.49C-09
1.-.96-09
1.50E-J9
1.526-09
1.55E-04
1.S4E-09
1.7dc-09
2.56E-09
^.99t-09
3.27E-09
3.22E-09
AC-228
2.58E-03
2.33E-03
1.73E-03
1.06E-03
4. 266-04
9.15E-05
7.59E-05
7.58E-05
7.5d£-05
7.5dE-05
7.5dE-05
7.53E-05
7.58E-05
•5rf£-05
.58E-OS
.53E-05
.3dE-OS 1
.59E-05
.64E-05 (
7.776-05
U-232
3.97E-02
3.95E-02
3.876-02
3.71E-02
3.3dE-02
2.S3E-02
1.S6E-02
S.97E-03
3.326-04
2. 706-06
1.786-10
5.33E-23
6.296-44
0.0
0.3
0.0
0.0
0.0 <
0.0 '
0.0 <
TM-227
I .956-03
2.496-03
4.006-03
ti. 226-03
9. 706-03
1.546-02
1. 826-02
l.dBE-02
L. 376-02
L. 856-02
l.dlE-02
1. 706-0 2
1.536-02
1.246-02
k. 546-03
Z.29E-03
i. 406-05
». 356-05
f>. 306-05
5.776-05
U-233
1.84E-J1
1.346-01
I.d46-01
.d4E-OI
.846-01
.346-01
.d46-01
.846-01
.846-01
.d3E-Ol
.B3E-01
.32E-01
.816-01
.786-01
.706-01
.596-01
L. 136-01
1.106-02
k. 896-03
).d5E-l6
-------�
Table D2. Cont'd.
YEAR
I.OE OJ
2. Ob 00
5.0E OJ
I.OE 31
2.0e Jl
S.Jr 01
l.JE J2
2.JL 02
5.JE J2
l.JE J3
r.Jt J3
5.JE 03
l.JE 0<,
2.JE J4
S.JE U<.
l.JE 05
5.DE 05
I.OE Jb
l.Ot J7
I.OE Od
l.JE JJ
2.Jc JJ
b.Ot JJ
l.Ot 01
2.JC 01
S.OE 01
l.JE 02
2.0c 02
5.3t U2
l.UE 03
2. Ob 03
5.0E 03
l.UE 0*
2.0fc 0V
i.Ofc J4
I.Ob 35
1. Of. 0%
I.OE 36
l.JE 07
I.Ob 08
Curies Per Kilogram of Actinldes In High Level Waste
U-23«i
2.33C-J2
2.o2c-J2
3.".2t-J2
*.7lk-JJ
7.15E-J2
l.3*£-Ji
2.1 IE-J1
2.9Bt-Jl
3.05C-JI
I.71 = -J1
J.7JC-J1
3.o7b-Jl
3.&2E-11
3.5<2t-Jl
3.2<.c-Jl
2.dlc-Jl
9.15E-J2
2.3E-05
2.036-03
2.o*E-J!>
3.1 JE-J5
3.S2E-OS
*.22E-J5
5.-.9E-05
o.22c-J3
&.<.ic-J5
o. 7.d4E-16 .10E-01 3.1*E-Ol 7.84E-IB l.So£-02 9.6UE 02 1.01E 00
8.35E-01 1.23fc-J<; l.<»dc-06 LoSE-lS .13E-01 3.1*6-01 1.65E-15 7.52E-03 9.38C 02 I.OIE 00
a.35E-J<> 9.8<>b-U3 l.<.ob-Jt> 3.U9E-15 .10E-01 3.1-.E-01 3.09E-li 2.23E-03 9.02E 02 1.01E 00
8.3oE-Os 6.12t-j3 l.«St-Jo 5.97E-15 .11E-01 3.13E-01 5.976-1* 1.96fc-0* 8.35E 02 I.OIE 00
B.3/E-0* i.*7e-0j l.%oE-Jo l.*6E-l« .11E-01 3.12E-01 1.46E-14 1.33E-u7 6.61E 02 I.OIE 00
d.VJE-J* 1.37E-J* l.»dE-jo -.c-Jd l.iJE-Jo U'.3E-12 .liE-OL I.v9b-01 1.«.3E-12 0.0 O.03E-I2 9.1U-O1
.22E-J3 6.2Jc-Jd 1.52t-0t> 2.il3E-12 .lit-01 1.27E-01 2.8SE-12 J.O 5.03E-22 S.llb-Jl
.35E-03 2.6ot-0o I.i5t-0(, 5.O5E-12 .14E-01 S.12E-02 S.bSE-12 J.J 1.81E-41 6-31E-O1
.-.3fc-03 2.17E-J9 1.6«b-J6 I.i7t-ll l.liE-01 3.38E-03 1.37E-U O.J 0.0 2.7/E-Ol
. <.3C-d3 3.2/c-ll 1.7ac-J6 2.alb-ll 1.12E-O1 3.64b-OS 2.&1E-11 0.0 0.0 6. 74E-02
.41C-J3 d.7-*c-2o ^.dob-Jo S. l*t-ll V.oJE-02 4.32E-J-) 9.1<.E-U O.J O.Q 7.91t-Of
1.39E-03 S.3vt-<>« 2.99c-Jb 1.25E-10 8.34E-02 9.13E-09 1.2SE-10 O.J 0.0 8.39E-09
1.07E-03 0.0 ».i Ic-Je 1.15E-10 «.52E-03 6.2*E-09 1.3!>E-10 O.J 0.0 6.2*E-09
7.87E-OS 0.0 3.22t-uo 6.J6E-U 9.8SE-16 1.39E-10 6.36E-11 O.J 0.0 1.39t-lO
Pj-2*2 PU-2A3 i>J-2 1.96E-02
2.13E-02 9.52C-J9 a.79b-14, 1. lot 01 1.51E-02 1.S1E-02 3.08E-01 .5it-17 0.0 1.24E-02
2.12E-02 •V.5,:c-o9 1.<,<»E-13 I.OOE 01 3.H5E-03 3.B5E-03 3.00E-U1 .dac-lo 0.0 3.lbE-03
2.12E-02 9.52C-J9 2.d«fc-13 <.. d4E OJ 3.94E-04 3.94E-04 2.87E-01 . 7bE-lb 0.3 3.23E-0*
2.12E-02 9.5«;t-09 3.7ab-l3 9.'UE-01 4.12b-0b «.12b'-0b 2.b2E-Ul .2C-ll l.jbb-Oo O.J 0.0 3.b^E-05 . <,Jb-lt 0.0 0.0
8.53E-OJ 9.32b-09 9.l3fc-U 3.d7b-21 O.U 0.0 9.32E-J9 .14E-1J 0.0 0.0
3.t2E-03 9.13C-04 i. 251-10 2.37E-39 0.0 0.0 9. I3b-09 .O3E-13 0.0 0.0
2.*2t-10 o.2tb-OV l.jSt-lO u.U 0.0 0.0 b.24E-J4 1.7uE-U 0.0 0.0
O.J 1.3Vb-10 6.37E-U 0.) 0.0 0.0 1.39E-10 d.2dE-l* 0.3 0.0
-------�
Table OS. Cont'd.
o
00
Curies Per Kilogram of Actinides In High Level Waste
YE&l
I.Ob 33
2.0E 33
S.OE 33
l.OE 31
2.0: 31
5.J: 31
l.j£ J2
2.3: 32
5.3£ 32
l.JE 03
2.0: 33
9.UE 03
l.Ut J*
2.3E 34
5.JF J«.
l.JC J5
5.JE OS
l.OE 06
1.0C 07
1.OC ud
VfciR
1 . OE 00
<:.UE oo
5.0E 00
i .OE o i
2.3C 31
5.UE 01
l.Jt J2
2.0fc J2
S.Jt 02
l.Jt JJ
2.JE 03
5.ufc U3
l.Ot 04
2.JC 04
3.JC J4
l.JE 35
5. DC 05
l.OE Jb
l.JE J/
l.JE Od
C"-243
4.9JE-J2
•». 3j:-32
v.iOc-j;
-..D3E-J2
>. 25:- J2
1. 70;-JJ
5. 7-.1-J3
b. 5d:- J»
9. •«J;-J7
1.40E-11
7.65:-21
4. Set -49
3.3
0.3
3.3
3.0
0.3
0.0
0.0
J.O
CF-2SI
2. 1OL-J8
2. lOE-Od
J ,Q.
2.07E-08
2.U j=-Od
l.S3h- J8
l.tlOL-Jd
1.4 Jk-O-i
9. 741 - j9
4.3U -JJ
4.47E-1U
9.51L-12
4.29fc-15
3.96f"-i5
'•45b-42
0.0
0.0
O.J
0.0
C.1-244
5.J3E 01
4.S-.E 01
4. Jib 01
3.3bb 01
2
, SdF Jii
3.d4b-0b
1 . f 5£- Jo
* / 3 f J 7
J. -.36-08
1 .i3c- 11
^.71E-17
I.l4b-2d
d.Jsc-S3
3.U
J.U
3.3
U.J
3.0
J.U
O.J
0.0
O.J
J.U
J.J
C1-245 CM-l4b
5.97E-J3 2.43E-03
5.97e-03 2.43C-03
5.97E-03 2.4jb-03
5.9oE-03 2.4JL-OJ
i.^oE-03 2.42E-J3
5.95t-03 2.41E-J3
5.9JE-J3 2.4JC-03
S.d7E-03 2. 3aE-03
5.72E-03 2.2oE-J3
5.E-03 1.8it-oj
3.92E-03 l.lob-03
2.ioE-J3 >.!>ib-j*
1.12E-33 1.28E-0,
9.31E-J3 l.ibk-Jo
l.Ja:-06 9.S-*E-10
3.bbE~21 1.9lc-cj
2.2-E-39 b.8?c-2t>
O.U O.O
O.J 0.0
CF-253 CF-<,^
1 dflE 15 1 lOt 1^
1.2aE-21 l.9ab-ls
3.7dt-40 7.5i,E-2J
0.0 0.0
0.0 0.0
u.O 0.0
0.0 0.0
0.0 0.0
0.0 0.0
u.o o.o
0.0 0.0
0.3 0.0
0.0 0.0
O.J 0.0
0.0 0.0
0.0 0.0
0.3 0.0
0.0 0.0
0.3 U.O
;n-2*7
4.5^b-09
4.52b-04
9.S2E-U9
•).!>2b-39
*»>2L-J4
•i. 32b-u->
V.52t-09
4.3<.i -U9
•y. Jtk-0-i
4.3^I--J9
V.S2C-09
J.3Jt-l5
d.5->t-15
d.57£-l5
8.54E-15
d.43E-l5
d.27E-l3
7.93E-15
7.0SE-15
5.78E-15
3.88E-1S
1.1 7E-15
l.oOE-lb
1.93E-23
O.O
0.0
0.0
BK-24* BK-25O
0.99E-J3 d.&OE-15
2.236-03 d.oOt-15
1.98E-06 B.OJE-li
3.S2E-ud
l.llE-il
3.4bE-22
1.07E-39
0.0
o.o
0.0
0.0
o.o
0.0
0.0
0.0
0.0
0.0
0.0
.oJE-15
. 6 Je- IS
. Sv£- 15
.37E-15
. StE-15
.43E-15
.27E-13
. JsE- 13
.03C-13
.7dE-15
.ddt-15
. 17E-13
>OOE- lo
. 43t-23
. •ill. -to
0.0 J.J
0.0 J.J
CF-249
3.02E-07
3.b9E-07
4.1oE-07
4.17E-07
4.09E-07
3.80E-07
1.49E-J7
2.d7E-07
1.59E-07
S.94E-OS
d.2 86-09
2.25E-11
1.19E-15
3.34E-24
7.32E-SO
0.0
0.3
0.0
0.0
0.0
CF-250
2.28E-06
2. lot-06
1.856-Ob
1.42E-06
8. J4C-07
l.70f-07
1.20E-08
o.OOE-11
8.4DE-15
d. 276-15
7.95F-15
7.03E-14
5.786-15
l.dS6-15
I.l7t-l3
l.bOt-lb
1.9JF-23
b. 916-26
U.O
U.O
-------�
O
CO
Table D3. Significant Actinide Activity From HTCR Initial Core - Recovered Uranium
1.3t 33
2.0E J3
5.UE 03
Lot 01
2.Ji Jl
5.3: Jl
l.UL J2
2.j; J2
S.Je Ji
l.j£ J3
.35c-J2 1.23E-J3 9
!.»2t-03 3.15E-03 1,
Pd-2iJ
o.77t-ll
7.-J9E-09
-J2
l.Wt-Ja
5.31E-JO
1.J9F-35
2.23i-Js
1.J2E-J-.
l.aic-Jt
3.9JE-J>t-J-i 4.07e-J2 l.dDL
9.4dE-J9 5.-.JE-02 2.^-yt
1 .i9£-3d 5.7Jb-J2 2. 59L
L.idE-j? ri.3^c-u3 3.d^c
J.95E-07 9.iBe-J* *.«.Vt
2.6'L-OC. 1.23b-13 i. bit
9.7uE-Jo 2.4SE-26 1
•01 2.<>JL-Jj
JO 1 . jit.-02
JO 2.>oE-J2
JO 5•d2c-02
JJ 1 .jjb-Jl
JO <.. JbE-Jl
'\f 1 i • t OL -O 1
-J^ 3 • /^b"02
-12 3.JVE-03
P3-211
1.ilE-10
7.21E-10
l.bbt-08
b.Jlt-Od
2.d7fc-07
o.Jlb-07
1.«3E-Ob
5.32E-Ob
2.2-.b-Oi
1.JJc-Ot
l.aafc-O*.
3.31E-0".
3. 3>t-dt
3.3SE-04
5. 1UE-0<»
dl-21* PO-210 PO-211 PO-212 t-J-^13 PJ-21*
7.90b-U 2./o£-12 5.«4b-lj 1.5oE-Ol 2.o7£-0<, 7. -<0b-10
3.16C-J4 3.*jE-ll 2.1ot-12 2.b?fc-Jl S./pb-J«« J.lbE-09
1.9/a-ja 7.j7C-10 1.31£-11 4.21e-Jl l..j9L-J2 3. /-.61b-Jb 5.*9t-12 3.39t-0s
l.JE Od 2.96t-J5 2 .-JoE-JS 1.4bE-Ob 1.7^1-^5 l.llt-2'. 2. *bE-05
P8-212
4.13E-01
6.57E-01
7.34E-01
6.8.12E-J7
B.ldE-37
7.21E-06
2.70E-OS
PU-215
l.dlE-10
7.21E-10
4.37E-09
l.bbE-Od
b.Olt-03
2.87E-07
8.01E-07
1.43E-06
5.32E-Ob
1.09E-05
2.24E-OS
5.41E-05
1.U1E-04
l.8bE-04
3.51E-04
«,.72E-0<.
S.3SE-04
S.35E-04
S.30E-0<>
4.85E-04
PB-214
7.40E-10
3.16E--09
1.97E-08
7.89E-08
3-15E-07
1.9bE-06
7.78E-06
3.07E-05
|.dtE-04
b.d5E-0*
2.*OE-03
1.J5F-02
5.B2E-02
1.33E-01
2.0&E-01
3.79E-02
3.09E-05
P0-2lo
2.44E-01
4.13E-01
6.57E-01
7.34E-01
b.d*E-01
4.12E-01
J.17E-01
1.21E-01
b.73E-03
5.tbE-05
5.26E-09
d.30E-09
1.66E-08
<..15E-08
8.29E-OS
4.12E-07
8.1UE-07
7.21E-06
2.70E-OS
BI-210
B.«.9E-12
6.77E-11
1.04E-09
3.00E-09
5.92E-ud
7.*9E-07
2l29E-0>
l.b3E-J<.
2.40E-JJ
1.05E-02
2.06E-J2
5.32E-J2
1.33E-01
2.0bE-Ol
3.79E-02
3.09E-05
2.9bE-0>
PJ-21B
7.90E-U
3.16E-09
1.97E-OH
7.84F-Od
3.15E-07
1.96E-JO
7.78b-ob
3.07E-J5
b.85E-0<>
2.40E-03
1.05E-J2
2.b8b-02
5.82E-02
1.33E-01
2.06E-01
3.79E-02
3.09E-03
2.96E-05
BI-211
1.81E-10
7.2l£-10
l.boE-OB
o.ulc-Od
d.Jlb-07
1.93E-J6
5.32E-UO
I. J-rfb-Oa
I. J3C-J-.
S^OE-O't
AT-217
i • d IJ t ~ O^
1•^ 11 ~03
5.d7e-03
Bl-212 BI-213
4.13E-
6.57E-
7.3*E-
5.12E-
3.17E-
1.21E-
6.73E-
S.^bE-
5.26E-
4.1SE-
8.30E-
1.6bE-
*.15E-
8.1dE-
7.21E-
2.70E-
01
01
•01
01
01
01
03
05
09 5
09 I
09 1
08
08
2.
07
06
05
83b-u<.
«7E-03
B7t-U3
*7E-02
92E-J2
82E-02
<.3E-01
30E-01
33E-01
lob 00
d)E 00
E-
9.41E-
1.03E-
l.BoE-
3.51E-
s!35E-
5.35E-
9.30E-
*.B5E-
•10 2.
•10 *.
•09 6.
•08 7.
•08 6.
07 5.
•07 3.
06 1.
•06 6.
•05 5.
OS
05
0*
04
04
•04 8.
•04 4.
•04 6.
04 7.
04 2.
5.
4.
8.
1.
57b-01
0-.E-JI
12E-01
17b-Jl
21E-01
73E-03
26b-09
15E-J9
3Jb-09
66E-J8
29E-08
IBE-07
216-06
70E-05
-------�
Table D3. Cont'd.
Curies Per Kilogram of Recovered Uranium
YEA*
l.Jt 03
2.0E 00
S.Ofc JO
l.OE 01
2.0b 01
i.JL 01
l.JE 02
2.0E 02
5.0t 02
l.Jc J3
2.0t 03
5.3k J3
l.-t 04
2.Jt 04
b..,L 34
l.jE 05
b.OE 05
l.OE Ob
l.OE J7
l.Jt 03
VcS*
l.jL- JO
Z.Ofc 00
5.0L JJ
1.3E 01
2.0E 31
b.ob Jl
l.JE 32
2.3E J2
i.JL 02
l.JF J3
2.Jfc J3
5.0E 03
l.Jt J4
2.JE J4
S.OE 04
l.OE OS
5.3E 05
l.OC 36
l.JE 07
l.OE 08
Rt-222
7.9UC-1J
3.1bt-09
1 ^7;-JB
7.H 5£-Jd
3.15J-J7
1.9u6-0o
7.7dt-Jj
3.07i-J3
l.d4C-J •
b.S s£- J4
2.40e-Jj
1 .05t -j2
2.6
2.96F-J3
H-22
4.1 it- J9
B.306-J9
1 .66t-jd
4.1SC-Jd
d.29E- Jd
4.12E-J7
8.1dt-J7
7.2U-J6
2.70E-J5
H-221
2 .94E-J4
5.8BE-J4
1 .4 7t-03
2.9-.E-J3
>.o7£-03
1.47E-J2
2 .92E- 02
j .o2t-02
I .4iE-01
i -3 JE-Ol
s.jjE-01
1 -lot JO
1.35e JO
J.i-Jc JO
2 .596 00
2. lib JJ
3 .a2b-01
i .4 >e-02
i.slc-12
1 .13E-24
M-229
2 . i tr - Jt
S.sie-J-.
1.47E-J3
2 .^4t- J3
l.b7t-J3
1 .4 7b- J2
2. <2E-02
5.02C-J2
1.43E-01
2.3Jt-Jl
5-33E-01
1.15E OJ
I.d5t JJ
2.49E 00
2.b4b JJ
2. lib 00
3.rt2E-31
4.t JE-02
b.alk-12
1.13--24
FR-223
2.54E-12
1.01E-11
6.1 lfc-ll
2.32C-10
8.40E-10
4.02E-09
1.1 2t-Jd
2.6'JE-Jd
7.45t-ud
1.53E-J7
3. 1 iC-0 7
7.5dt-J7
l.v-.t-Jb
2.oOc-J6
4.? IE-Ob
6.0 IE-JO
7.4-JE- Jo
7.-idt-Jb
7.42E-0»
6.7 )c-J6
H-23J
3. ait-Ob
7.2 yE-36
l.d2E-J5
3. bar- Ob
7.29b— ob
I.b2b — 04
3.b 4t-U4
7.29C-04
1.82£-03
3.6JE-J3
7.21E-03
1.7 7E- J2
3.4-.E-J2
b.51k-J2
1.37E-J1
2.0ok-Jl
1.43E-3 1
3.75E-02
3.J
1A-2..3 AA-224
l.dlL'lJ 2.44k-01
7.21t-10 ..13E-01
4. 37t-09 S.b7t-01
1.6bE-Od 7.34k-01
b.Olt-Od i.d4t-Jl
2.8/L-07 3.12E-01
3. Olc-07 3.17E-01
1. 93t-ub 1.21E-01
5. 32c-0b b.73E-j3
l.OJc-03 3.40E-05
2. 24t-0s 5.26t-39
5. <.lt-0b 4. 13k-J9
1. 03k-J4 d. 3JE-J9
l.doE-J4 l.o6t-OB
3. 51 1- 04 •..15E-JB
4. 7£t~0*t d.29c-Jtt
5. 33k-u4 4. 12C-J7
3. 33l-J*> d. Idt-J 7
5.3JE-0-. 7.2U-Jb
4.dik-J4 i. 7jk-05
TH-2J1 H-232
5. 3-JC-J4 d. JOc-13
!>.3>c-J4 l.bot-12
5. 3SE-J-. 4.iSE-l2
5. 3?t-^4 3. 3JE-12
5. 3at-J4 l.bbt-11
b. 3>k-U4 *. lbt-11
b.3>L-o4 B.30t-ll
5. 3}t-0t l.iot-U
5. 3'JL-Ot 'i. 13t-lO
3.3}6-04 3.30E-10
y. 33E-J4 i.obt-J9
i. 35L-04 4. lSfc-J9
5.3sc-J4 d.30k-J9
5.33L-04 1.66fc-0d
i. 3sk-J4 4.l5t-0b
b. 3ic-J4 d.29E-OB
5. 3»e-o4 4. 12E-07
5.3tt-J4 d. ldk-J7
5. 3ot-u4 7.2ik-0o
4. B3E-J4 2. 7uE-J5
RA-22S
2.946-04
b.8d£-O4
1.47E-03
2.94C-03
5.d7E-03
1.47E-J2
2.92C-02
i.d2E-02
1 .43k-01
2.dJE-Ol
5.3-«b-01
1.U.E 00
l.dbc 00
2.44E 00
2.59E 00
2. HE 00
3.d2E-Ol
4.,9£-J2
S.61E-12
1. UE-24
TH-234
3. Jlc-0t>
3.0lt-05
J.Olc-05
J.Ole-05
3.01E-J5
j.Jlt-Ob
3.J1E-05
3.Jlt-J5
3. Jlt-05
3.01E-OS
3.0U-05
3.0U-05
3.JIE-05
3.01E-05
3.0lE-Ob
3.Jlk-05
3.01E-05
3.J1E-05
j.OOt-05
2.96E-OS
RA-226 RA-228
7.90E-10 4.156-14
3.166-09 l.blE-13
1.97E-08 9.1JE-13
7.8VE-08 3.13E-12
3.15E-07 9.S9E-12
1.96E-06 3.35E-11
7.7dE-06 7.50c-ll
3.07E-05 1.586-1J
l.d4E-04 4.1SE-10
6.d5E-04 8.30E-10
2.40E-03 l.bbE-99
1.05E-02 4.1SE-04
2.08E-02 e.30£-09
S.d2t-02 l.ooE-08
1.33E-01 4.1St-08
2.36E-01 8.29E-08
1.46E-01 4.12E-07
3.79E-02 S.ldE-07
3.09E-05 7.21E-06
2.96E-05 2.706-05
PA-231 PA-233
1.1 4t-Od
2.29b-0a
5.73E-08
1.15E-07
2.29E-07
S.71E-07
1. 14E-06
2-23b-Ob
b.bdC-Ob
1.13E-05
2.23E-05
5.41E-05
l.03t-J4
1.86E-04
3.51E-04
4.72E-04
S. 3i£-J4
.326-10
.326-10
.32C-10
.32t-10
.32E-1J
.326-10
.I2E-IJ
.32fc-lO
.326-10
.32E-U
.32E-10
.32E-10
.326-10
.31E-10
.30E-10
.286-10
.12E-10
5.346-04 9.57c-ll
5.30E-04 5.136-12
4.d5b-04 1.13fc-24
AC-225
2.94£-0<»
5.88E-04
1.47E-03
2.94E-OJ
5.876-03
1.47E-J2
2.92E-02
5.82E-02
1.43E-01
2.30E-01
5.33E-01
l.lfaE 00
l.dbE oo
2.4*E-O4
4. 6bE-04
5.276-04
5.2 7k-04
5.22E-J4
4.7dE-J4
U-233
3.09E uO
3.09k" JO
3.09E 00
3.04E 00
3.096 00
3.09c 00
3.09k 00
3.0SE 00
3.0'JE 00
3.03E 30
3.07E 00
3.03E 00
2.97E 00
2. 846 00
2. SOS 00
2.02E 00
3.64E-01
4.29F-02
5.61E-12
1.13E-24
-------�
Table OS. Cont'd.
Curies Per Kilogram of Recovered Uranium
YEAR
l.OE 03
2.JE 03
S.Oc 00
l.JE 01
2.0E 01
5.JE 01
l.OE 32
2.0? 02
5.0t 02
l.OE 03
2.0E 03
5.0E 03
l.OE 04
2.JE U it-02
-04 l.sVi-J2
•04 1.69E-02
-0«t 1.09E-02
•J4 l.6-»fc-U2
-04 l.i ;E-J2
•04 l.i-rfc-02
-04 l.bSE-02
04 1.2ai-J2
•J.2-JE-J4
7. 83
4. 02
0.0
O.O
J.O
0.0
0.0
J. J
U.O
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0. J
3.0
0.0
3.
3.
i.
3.
3.
3.
j.
j.
3.
3.
3.
3.
3.
3.
3.
3.
3.
3.
J.
2.
J-2 J6
OlE-o5
Olc-J5
OlE-Oi
Jlc-Ji
JlE-03
u IE-J i
J1E-J3
j IL-OS
01E-J5
JIE-J5
Jlc-03 J
JlL-Js J
J lt-U3
Olfc-Oi 1
Olt-03 1
JlC-03 1
OlE-Jb 1
J1E-J5 v
Oofc-05 i
•Jot -03 1
NP-237
-32h-lO
.32E-10
. i2fc-10
.32E-10
.32E-10
. 32E- 10
.32E-10
. Jtc-10
.32E-1U
.32E-10
. 12£-10
.32E-10
.32t-10
.31E-1J
.30E-10
. 2dfc-10
. 12E-10
.37E-11
. ldE-12
. 13t-24
1
1
1
J
1
1
1
1
1
1
1
1
I
1
0
0
0
0
0
0
Pj-240
.OOE-23
.OOE-23
.OOE-23
.OOc-23
.OOE-23
.OOE-23
.OOE-23
.OOE-2J
.UOE-23
.OOE-23
.OOE-23
.OOE-21
.OJE-23
.OOE-23
.0
.3
.0
.3
.3
.0
-------�
Table D4. Significant Actlnlde Activity From HTCR Equilibrium Fuel Cycle - Spent Fuel
Curies Per Metric Ton of Heavy Metal Charged To Reactor
»E«
l.Ji OJ
2.UE 00
b.Jt JJ
l.JE Jl
2.0fc 01
5.0t Jl
l.JF J2
2.oi J2
5.J£ 0^
l.JE J3
£.J£ 03
S.Jt J3
l.JE 34
2.Jt 04
5.JE 0*
l.Jt 05
5.JE 05
1.JE Ob
l.Jc 07
1.UE 03
y;iR
l.Jt JO
2.0E 33
5.0E Jo
l.JE 01
2.0E 01
S.Jt 01
l.JE 02
2.Jfc 02
5. IE 32
I.OE 03
2.0E 03
5.JE 03
1.UE 04
2.0£ 04
S.uE 04
l.JE OS
5.JE 05
l.'Jb 06
1.JC 07
1.3E 03
TL-20/
3.0bt-J2
3.8oh-Jj
a.OoC-J2
•J.3U-J2
1.-.4L-JI
2.23E-J1
<.'.b-»k-Jl
2.7d=-Jl
2.70F-01
2.735-01
2.oo:-Jl
2.52c-Jl
2.2jt-jl
1.37C-01
l.JSt-Jl
4.id£-J2
l.4ot-Ji
I.tb£-j2
1.4!>=-J2
1.32c-J2
ol-2lt
d. 37c-Jo
1. 1 Jt-Ji
2.03L-JS
4.03t-J5
9.77E-JJ
4.0V6-J4
l.3-Jt-J3
5.12=-J3
2.996-32
1. 12E-JI
3.s2t-Jl
l.73t JJ
4.4le JO
9.57E 00
2.1 at Jl
3.3SF Jl
2. '.It 01
6.24C JJ
1.29t-J3
1.24E-J3
TL-2J3
4.04E 01
4.2Bt 01
t.bbb Jl
4.S2E 01
t.!3t 01
3.0-JE 01
1 .-JlE 01
7.32E 00
4.3dt-Jl
J.bJE-O2
3.3Jt-J2
3.30t-J2
3.JOc-02
3.30E-02
3.JOE-02
3.30E-U2
3.UE-J2
3.30t-J2
J.J2E- 02
3.34E-J2
PJ-210
3.93E-07
3.4SE-07
1 .dBj-Ob
3.79E-03
209C-JS
I .7ic-0*
d .296-04
3.dSE-03
2.6bC-02
I .JiE-Ol
3.V2t-Ul
1.73E 00
4.tl£ 00
9.S7t 00
2.1dE 01
3.3-t: 02
2. 7oL 01
4. 3»c OJ
7. . ldt-07
d.l4t-J7
2.20E-Ob
l>.4-«t-0a
2.3 4L-J5
1.73C-04
d .2vC-J-«
i.dit-U3
2.bbE-J2
l.JaE-Jl
3.-<2E-Ol
l.MC 00
».» It JO
•».57t 00
2.1dC 01
J.j4t >>!
2. tit 01
B.24t 00
i.29t-03
1 .24E-OJ
»J-213
l.09t-Jl
1.29E-J1
l.dS£-Jl
2.d7t-Jl
4.dst-3l
l.Odt 00
2.0&E 00
•t.OlE JJ
•i.75c Oo
l.avt 01
3.0JE 01
.dot 01
.2*t 02
.sdt 02
./SE 02
.4JE U2
.72E 01
.4dt 00
.dlc-02
.S/t-14
P9-211
3. 076-02
3.a7t-02
o.OaE-02
9.33E-02
1-4JE-01
2.2dE-01
^.oilE-01
2.7dC-01
2. 77E-01
2.74E-J1
2.04E-J1
2.33£-01
2-29C-01
l.ddE-Ul
l.0bfc-0l
4. 496-02
1.406-02
1.4&E-02
1.4SE-02
1.33E-02
HJ-214
d.37E-06
1.1JE-J5
2.03t-OS
4.J3E-05
9.77E-OS
4.096-04
1.34E-03
5.12C-03
2.94t-02
1 . 12E-J1
3.92t-01
1. ME 00
4.416 UO
9.i7E 00
2.13E 01
3.39h 01
2.41E 01
b.24E 00
1.24E-03
1.24E-03
PB-212
1.12E 02
1.19E 02
1.27E 02
1.2bE 02
1.15fe 02
0.59E 01
5.31E 01
2.J3E 01
1.22E 00
1.01E-01
9.17E-02
9.17E-02
9.17E-02
9.1 7E-02
9.176-02
9.17E-02
9.136-02
9.13E-02
9.21E-02
9.23E-02
P3-215
3.07E-02
3. 076-02
6.086-02
9.33t-02
1.456-01
2.286-01
2.69E-J1
2.736-01
2.77E-01
2.746-Ul
2.69E-J1
2.536-01
2.29E-01
1.8BE-01
1.0oE-Ol
4.5-<6-02
1.46E-02
1.4bt-02
1.45E-02
1.336-02
PB-21*
6.376-06
l.lOt-Oi
2.03E-05
<..03t-05
9.77t-05
^.09E-04
1.39t-03
5.12t-33
2.99C-02
I.12C-J1
3.926-01
1.73E 00
4. 4 lc 00
9.57E 00
2.136 01
3.39E 01
2. ".16 01
6.24t 00
1.29E-03
1.246-03
PO-216
1.126 02
1.196 02
1.276 02
1.26E 02
1.1 5E 02
8.59E 01
3.31E 01
2.03E 01
1.22E 00
l.Olt-01
9.17c-02
•J.17E-02
9.17t-02
9.17E-02
9.17E-02
9.17t-02
•J.13E-02
9.186-02
9.21E-02
9.28E-02
61-210
5.18t-J7
3.15E-07
2.20E-OS
b. 446-06
2.39E-05
1.73E-J4
8.29E-0*
3. 856-03
2.66E-J2
1.05E-J1
3.92E-01
1.73E 00
4.416 00
9.57E 30
2.18E 01
3.39E Jl
2.41E Jl
6.24E UO
1.29E-03
1.24E-03
PO-218
3.37E-JO
1.1JE-05
2.03E-OS
4.03E-05
9.77E-05
4.096-04
1.39E-03
5.126-03
2.99E-J2
1.12E-J1
3.92E-J1
1.73E UO
4.41E 00
9.57E 00
2.18E 01
3.396 Jl
2.416 01
6.24E 00
1.29E-03
1.24E-J3
dl-t 02 <
2.7bt 01 1
.17E-02 3.6ac 01
I.17E-U2 7.96E 01
J.17E-02 1.2DE 02
.17E-02 1.72E 02
.17E-02 1.796 02
.176-02 l.4fcE 02
. UE-02 2.76E 01
.iat-02 4.Sdt 00
.21E-02 7.91E-02
.28E-02 1.616-14
R^-219 HN-220
.07E-02 1.126 02
.376-02 1.196 02
.08E-02 1.27E 02
.336-02 1.26C 02
.456-01 1.15t 02
.23E-01 d.59E 01
'.69t-0l 5.31E 01
!. 736-01 2.03E 31
'.77E-01 1.22E JO
./4E-01 l.Olt-01
!.69E-01 9.17E-02
.536-01 9.17E-02
!.29E-Ol 9.17E-02
.UdE-01 9.UE-02
.066-01 9. 176-02
I.S9E-02 9.17E-02
.4ot-02 9.18E-02
,4oE-02 9.lbE-02
.456-02 9.21E-02
.336-02 9.26E-02
-------�
Table D4. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YEA*
l.OE 30
2.0E 00
i.Oc 00
1 .Of »1
2.0E Jl
a.JL Jl
l.JE 02
2. Ob )2
5.0t 02
l.Oc 03
2.JE 03
S.JE 03
l.Oc 04
2.0t 04
5.JE 04
l.Jt J3
5.JE 05
l.JE Ob
l.JE 07
l.JE Od
YEAR
l.Ot 00
2.0E 30
S.uE uO
l.Ot Ol
2.0C 01
5. Ob Ol
1 .liE 32
2.0E 02
5.3c 02
l.OE 03
2.3E 03
9.0k 03
l.OE 04
2.Jt. 34
5.JE 04
l.OE 05
5.JE J5
l.Jt 06
l.Ot 07
l.JE Od
RN-222 Ft-22l F<-223 4A-«2j
«.37;-Jo 1.12E-01 4.24E-04 3.07t-02
I.IOE-J3 1.32E-J1 5.4JE-J4 3.87E-J2
2.03£-J5 l.»3E-01 8.iOb-04 b.Ode-02
3.77C-J3 4.'iic-Ol 2.J2fc-OJ 1.45t-Jl
4.09S-J-. 1.10E Go 3.H5-03 2. 2«L-Ol
1.3-)b-J3 2. HE JJ 3.7oe-J3 2.64b-Jl
5.1>t-J3 4.Ut JO 3.-JJE-03 2. 7oc-01
2.99b-J2 9.47E JJ 3.4dE-03 2.77t-ul
1.12C-01 1.9ic 01 3.34t-03 2.74E-01
3.*2E-Ji i.aac Jl 3. 7aE-J3 2. b-Jt-Jl
1.73C JO 7.4jc Ol 3.S4£-J3 2.53c-Jl
t.41b JJ i.2dc 02 3.2JC-03
•9.S7c 00 l.72t 02 2.o3£-03
2.1dF Jl 1 .74E 02 l.4jt-03
3.J-JE 01 1.4a = 02 o.43 = -J«
2.41E Jl >.7de 01 2.J5E-J4
b.24c OJ 4oat JJ 2.J5E-J-*
1.2-Jb-33 7.9*c-02 2.J3E-34
1.24t-JJ l.bl£-14 l.Sbb-04
TH-22i H-22-J T-1-23J
1.12E JJ l.llE-Jl 5.d2£-03
LIRE 32 1 .J2E-01 O.35E-J3
l-26t 02 1.93E-J1 7.9ic-03
1.25E 32 2.94E-01 l.Jb£-J2
1.15E J2 t.-JuE-Jl l.iJt-j2
4.5dE 01 1.10E JO 3.24E-J2
5.J1E Jl 2. HE 03 o.Jic-32
2.03E Jl ub 02 3.43e 01
9.1ilC-J^ .7ab Ol 2.J4E Jl
9.18C-J2 .?dE 00 O.17b 00
9.21t-02 .44C-02 1.29E-J3
•J.21C-J.! .31E-14 1.24c-03
.2VC-J1
. boE-01
.OaE-ol
.5Vb-J2
. ^be-02
.4bt-02
. 43k-02
.3Jb-02
IH-231
.<>oL-02
.4JC-02
.40L-02
. 40fc-02
.4JL-02
. 4ub-02
. 4Jt-02
.^Ofc-02
.40b-02
.4Ub-02
. 4Jb-0<
. 40c-u2
.411-02
. 4^C-U£
. 43C-u2
. 4ab-o2
. 4ot-O<.
.4oE-02
. 4ai-J2
. 33b-02
^A-22V RA-225 R4-2ib RS-223 AC-225 AC-^27 AC-228 TH-227
1.12E 02 1.12E-01 8.37E-06 4.0-.E-02 1.12E-01 >.J7E-02 4.04E-02 3.036-02
l.fE 02 1.32E-01 1.10E-OS 4.55E-02 1.32E-01 3.B5E-02 4.55E-02 3.dle-02
1.27E 02 1.J3E-01 2.03E-OS 5.78E-02 1.43E-UI 6.07E-J2 5.7dE-02 5.99E-02
1.2bE 02 2.44E-O1 4.03E-OS 7.I5E-02 2.94E-01 9.31t-a2 7.15E-02 9.206-02
l.laE J2 4.9bE-ai 9.77E-OS 6.45E-02 4.9o£-ul 1.44b-Ul 8.*oE-02 1. 436-01
d.a^E Jl 1.10E UO 4.09E-04 9.14E-02 1 . 10E 30 2.2dE-Ul 9.l4b-02 2.25t-01
3.31b 01 2. Mb 00 1.39E-03 9.17E-02 2. HE OJ 2.o-»b-Ol 9.17E-02 2.dE 01 1.73E 00 .I7E-02 7.9oE ol 2.33E-J1 9.17b-02 2.49b-01
•i.!7b-J2 1.2dc 02 4.41E 00 .176-02 1.2SE J2 2.<;Vt-Oi 9.i7e-02 2.26E-01
9. 17E-J2 1.72E O2 9.57E OJ .17E-02 1.72E 02 l.dBE-Jl 9.17E-02 .85E-O1
J.17t-j2 1.79b 02 2.ldb 01 .17E-02 1.79E 02 l.Jb£-ol 9.17E-02 .04E-JI
^.17C-02 1.46E 02 3.39E 01 9.17E-02 1.4bE O2 -,.s9b-02 9.17E-02 .53C-02
4.1dE-J2 2.78E Ol 2 . <• 1 1 01 9.ldE-02 2.78E 01 1.46E-O2 4.1JC-02 .44E-02
V.lbt-02 4.»dc JO 6.2-.E 00 9.13E-02 4.58E UO 1.4bE-02 9.1dE-02 .44b-02
4.2U-U2 7./9E-02 1.29E-03 9.21E-02 7.99E-02 1.43E-U2 9.21E-02 .43E-02
•J.20E-U4 l.blc-14 1.24E-03 9.288-02 l.blE-14 L33E-02 9.26E-02 .311-02
IH-^J2 f!l->34 PA-231 PA-233 PA-234H PA-2J4 U-232 U-233
4.17b-02 3.7dE-U3 2.8UE-01 .OOE 02 3.78E-O3 3.dlE-Ub L34E 02 2 . 1 3E 02
4.17E-02 .22E-03 2.80E-01 .BJfc 03 1.22E-J3 l.22t-Ub 1.33E 02 2.l3t 02
?.17b-02 .22C-04 2.80E-01 .79E 00 1.22E-OJ i.22E-Ob 1.29E 02 2.13E 02
9.17b-02 .22E-O3 2.80E-01 . 79E 00 1.22E-OJ l.22t-0b 1.23b 02 2.13E 02
:>.l7t-J2 .22E-J3 2.UOE-01 .79E 00 l.22£-uJ 1.22E-UO 1.11E 02 2.13fc 02
4.17E-02 .22E-03 2.79E-01 .dOE 00 1.22E-0) 1.22E-Ob 8.35t Cl 2.13E 02
9.l7b-02 .<2£-03 2.79C-01 .80E 00 1.22E-03 l.^fc-Ub S.lbE 01 2.13c 02
V.17E-02 .22c-J3 2.79E-01 .dlE 00 1.22E-3j l.22t-06 1.97E 01 2.13C 02
4.17e-02 .22b-D3 2.77E-01 .84E 00 1.22E-33 1.22E-Un 1.10E 00 2.l3t 02
^.ltt.-J2 ..'2E-U3 2.74E-01 .S6E 00 1.22E-UJ .^2fc-0b d.90E-03 2.12E 02
9.1/C-U2 .22E-OJ 2.69C-01 .88E 00 1.22t-0j .22b-Ob 5.87E-07 2.12E 02
4.17E-U2 .22b-03 2.536-01 .ddE 00 L.22E-J3 .22E-Oo LbdE-19 2.09E 02
4.17E-J2 .22t-Q3 2.29E-01 .d8b 00 1.22E-UJ .22C-06 2.0de-40 2.046 02
4.17e-o l.ddb-01 .876 00 1.22E-03 .
-------�
Table D4. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YE&
l.OE
2.0E
S.Ob
l.Jc
2.Jc
b.Jc
l.Jb
2.J1"
S.JE
l.Jt
2.0t
S.JE
l.Jb
2.3i
5.3E
I.JE
S.OE
l.OE
l.OE
l.Jt
rfcAt
l.OE
2.Jb
5 .oE
l.OE
2.Jc
5lj-
. «*t
1.3E
2.3b
5.3E
2ij£
S.OE
I.JE
2.0E
S.uE
I. Oh
5.3E
I.JE
l.Jfc
l.OE
»
00
JJ
JJ
Jl
31
01
J2
02
J2
J3
J3
u3
J4
J4
OS
JS
Jo
J7
08
I
00
00
00
01
01
1 1
J 1
J2
J2
J2
J3
03
03
34
34
J4
JS
OS
Ob
07
03
J-234
.13E Jl
.I4t Jl
.15E Jl
.iac Ji
. 2tc Jl
.3Sb J.
. 55c Jl
. 7S= Jl
.9JE Jl
.<>0b Jl
.ooC Jl
.d3E Jl
. 73L Jl
b.S4c Jl
O.J2E Jl
3.2i£ 01
1.7JE Jl
4.16E J]
1.25t-Jj
1.24E-J3
PJ-24J
3.5dE Jl
3.oO£ 01
3 • b4E J I
3.71E Jl
3.d2c Jl
3Qt r \ \
m *»OC J L
4.00b Jl
3.-J7b Jl
3.856 Jl
3.66F Jl
3.3JL Jl
2.43E ol
1.4SI- Jl
5.21E JJ
2.4uc-Jl
1.03c-0d
1 .bOb-Jd
7.54E-J-J
J-23S
1 .4UE-02
1 .-.Jt-02
1. 406-02
1 .«JE-J2
1.«JE-02
1.40E-02
1 .-JE-J2
1 .4JE-U2
1 .4JE-J2
1 .4JE-J2
1.4JE-02
I .-..,£-02
l.tlc-02
I .-.5E-J2
I .4»E-J2
1 .-.oE-32
1 .43E-J2
1.336-02
Pj-241
1.17E 04
1 .12 t J4
9 • 7oE 03
7.45S J3
4.7bE 03
11 K *• ll \
• i 3 C U 3
1 .J7E 02
l.luE JJ
2.27E-01
2.17E-01
2.JJb-Jl
1.55E-JI
I.J2E-01
4.42E-02
3.57£-J3
S.39E-J5
1.4SE-19
d. 3/6-38
J.J
U.J
U-23b
9.00F-01
9iij£-01
9.4Jt-Jl
9.S Jc-J 1
9.5 Jt-3l
9.4 JE-31
9.bJb-Jl
9.4JE-J1
9.S1E-01
9. 426-01
9.4 <>E-J 1
9.S76-JI
9.7JE-J1
9.496-01
9.S7E-01
7.276-01
5.34E-02
Pj-242
4. 5 sE-Ol
4.SdE-Jl
4.5dE-01
4.SUE-31
U ^ Af- — 1 1
*t . J OU U 1
4.5^£ — Jl
4.5dE-Jl
4.SdE-Ol
4.S dE-31
•..57E-J1
4.5bC-Jl
4.3 1 b-01
4.44C- Jl
4.2JE-J1
3.83E-01
1.94E-01
7.39E-02
S.24C-J9
O.J
U-2j7
2. 82C-J1
2i33b-Jl
l.B4c-Jl
1. It t-Jl
2. 7Se-02
2.S7E-J3
2. 7ob-us
5. 4-.E-JO
5. 22 L- JO
4. Buc-Uo
3. 73 t-J"
2.-.3b-Ju
l.Obt-Ub
d.S/t-Jo
1. 24b- J9
3.4o£-24
2.13b — 2
0.0
0.0
PU-i4i
7.5Sb-07
7.5»b-JI
7 5"i fc J 7
7.5bc-07
7.S3L-07
I **'* fc J 7
7.33b-J7
7. 33b-07
7.53b-07
7.5ib-J7
7.53E-07
7.5it-o7
7.55E-07
7.53C-07
7. 5tc— «*7
7.S2C-0/
7. 4UE-07
7.2-.b-j7
4. 9it-0 7
1. Ub-ud
U-2Jd
1.22b-OJ
1.22C-J3
1.22t-33
1.22E-J3
1.22C-J3
1 .2^b-o3
1 . . B 16-02
5.93E-J3
6.22E-03
7.11E-11
8.d3E-21
1. 38E-40
0.0
0.0
0.0
0.0
0.3
0.0
NP-239
d.l2fc 00
d.!2b 00
6.12k 00
a. HE oo
d.llb 00
S.JSfc 00
B.OSE 00
7.97E 00
7.766 00
7.42f 00
6.77E 00
S.lbE 00
3.2dE 00
1.33E 03
8.75b-02
9.43E-04
7.40E-0 1
7.24E-07
4.9SE-07
1.10E-OB
AH-242
S.bbE-01
S.b3b-01
S.SbE-01
5.43E-01
5.19E-01
^ > 3 b ~O1
3.bOb-01
2.2dt-01
5.816-02
5.95E-03
6.22C-3S
7.UE-U
d.9lb-21
1.38E-40
0.0
0.0
0.0
0.0
0.3
0.0
NP-240*
b.07E-14
9.486-14
1.97E-13
3.b8E-13
7.09E-li
1.73E-12
3.44E-12
b.asE-12
1.71E-11
3. 416-11
b.alE-11
1.70E-1J
3.38t-10
b .6SE-1 J
1.62E-09
3.10E-J9
l.UdE-Od
1.4HE-Od
l.bOE-ua
7.S3E-09
A1-24J
d.!2E JJ
8.12E JJ
S.12E 00
H.11E JO
d.llb 00
8.086 00
a.OSE OJ
7.97E 00
7.766 JJ
7.42E JO
6.77E OJ
S.lbE JJ
J.28E JO
1.33E 00
8.73E-J2
9.4 jE-04
7. 406-07
7.24E-J7
4.9SE-07
l.lOE-Od
PU-236
3.i2b-01
4. 17E-U1
^.Olb-Ol
3.9&E-O2
5.24t-O3
3.53E-UO
1.03E-11
5.07E-<;2
1. J Jt-53
O.J
0.0
J.J
o.o
j.j
0.0
O.J
J.J
o.o
0.0
J.O
4-1-24*
7.-J1E-17
I. .1SE 02
.096 02
L.49E 00
i. 476-01
..26E-01
>. 71E-OI
!.95b-0l
L.67E-01
i. 776-02
..88E-03
5.10E-05
>.d3E-ll
r.30E-21
1. 13E-40
1.0
J.O
J.O
J.O
1.0
J.O
-------�
Curies Per Metric Ton of Heavy Metal Charged To Reactor
TEA*
l.JE OJ
2.0E OJ
S.Je 03
l.JE Jl
2.36 31
S.Jt Jl
l.Jt 32
2..K 32
5.06 02
l.Ub J3
2.J6 03
5. JE 03
1.06 0*
2.JE Ji,
5.JE J4
l.OE J5
5.0E 05
1.3E J6
l.Jc 07
1.3E 03
YEA<«
l.OE 03
2. Of jj
5.uE JO
l.OE 01
2.0E Jl
5.JE 01
l.JE 32
2.0E 32
5.0E 02
l.JE 03
2.JE 03
5.06 03
l.Oc 04
2.JE 04
5.JE J4
l.JE 05
S.ut 05
l.Jt Jfi
l.OE 07
l.Jt Od
C1-24J
9.97E-J1
•J. 7j£-Jl
9. 14F- j :
3.216-Jl
o.olt-Jl
3.* 5E-Ji
1.1 7E-J1
1 . 3-«;- J2
2.J16-J5
3.9oc-l J
1 .5 jC- 1 •*
9.2 3F-t3
J.J
0.3
O.J
O.J
J.J
O.J
0.3
J.J
CF-251
3.52E-KS
3. 52e- Ja
3. sifc- jj
3.5JE-06
3.47E-CJ3
3.39f-0i
3.26F-J6
3.02I--J6
2.40E-Oo
l.b3b-J6
7.5SE-J7
7.4<»E-Od
1.39E-J9
7. l*)e-l 3
6.o3c-2J
1.2SL-39
O.J
0.0
0.0
3.0
^-244
1.77E 03
1.7JE 33
1.S2E 03
1 .25E Jl
o.i tt 02
2.716 02
3.^E Jl
d .3&E-01
d .d6E-Ob
a .»Jc-l4
i .0 7b- 14
2.216-13
4. »0t- 13
d.7iE-i3
2.11C-12
4.J3c- 12
1 .,i£-ll
1 .^36 -1 1
j 3 C - 1 1
9:0it-i2
CH-252
1.25E-03
9.s9E-Ji
4.37E- 6-03
5.33E-05
1.4 :>£- 1 9
d.d 5c- B3
O.J
0.3
Cr-253
5.7 7E-13
3.d 7E-19
l.loE-37
0.3
0.3
O.J
0.0
0.3
0.0
O.J
O.J
0.0
O.J
0.0
0.0
0.0
0.0
J.O
0.0
O.J
CM-4»0
1.4JL-01
I. 43C-UI
. 4jt-01
.43C-J1
. 42 t - 0 1
. 42C-01
. 41 t-Jl
. y t - J i
.3jE-ul
. 2Jt-01
. ObC-Ol
6.d3t-02
3.2oc-U2
7. 5JE-03
9. 11 t-Ub
5. 31c-oo
4. 24C-21
I .2jc-2"
0. 0
0.0
CF-^S4
5.33E-10
d. lie-12
<;. d&t-i 7
0.0
•0.0
0.0
0.0
0.0
0.0
3.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
u.O
>M-2t7 CH-248
7.i>bfc-07 4. 4s E-do
7.93C-J7 4.*it-J6
7.&5E-07 4.4iE-06
7.33C-J7 >t. 456-06
/.5it-J7 4.»>k-J6
7.3b£-J7 4.456-06
/.3SE-J7 4.45E-JO
7.5>E-37 4.»iE-Oo
/.5at-0/ 4.45E-Oo
7.13t-J7 4.44t-Jb
7.93b-07 4.43t-06
7.33L-J7 4.41E-JO
7.33k-J7 4.3ft-U6
7.33C-07 4 236-06
7.s4t-j7 4.036-06
7. 32c-J 7 3.b»E-06
7.40C-J7 l.bic-06
7.2t£-J7 6.2U-07
' *3aE 37 1 2^" Ito
l.lut-03 0.0
cS-233
6.31E-11
3.47c-lo
4. 34c-32
1. J4E-Sd
O.J
0.0
O.O
J.J
0.0
J.J
o.o
0.0
J.J
0.0
O.J
J.J
o.o
J.J
J.J
J.O
C1-249
1.79E-15
1.20E-21
3.616-40
0.3
O.J
0.3
0.3
0.3
0.3
0.3
0.3
0.0
O.J
0.3
0.0
O.J
0.3
0.3
0.0
CM-250
1.41E-12
1.91E-12
1.41E-12
1.91E-12
l.9lt-12
1.91E-12
1.91E-12
1.90L-12
l.Bdfc-12
1.34E-12
1.77E-12
1.57E-12
1.28C-12
8.63E-13
2.616-13
3.56E-14
4.286-2 1
J.O
0.0
0.0
BK-249
7.3dE-J3
1.29E-03
2.93E-J4
5.20E-U6
1.64E-09
5.11E-2U
1.5BE-37
0.0
0.0
0.0
0.0
0.0
0.0
J.O
0.0
0.0
0.0
J.O
0.0
0.0
BH-250
1.91E-12
l.91c- 12
1.91E-12
1.916-12
1.9lt-12
I. 916-12
1.9U-12
1.9UE-12
l.»Bt-l2
I.d4c-l2
I.77t-l2
l.5/fc-12
l.^Sc-12
d.63E-l3
2.blb-l3
3.ioE- 14
4. 2dt-^l
l.2ic-2t
O.J
O.J
CF-249
4.44E-05
5.43E-05
6.13E-05
6.14E-05
6.02E-05
5.67E-05
5.1-.E-05
4.22E-05
2 .346-05
8.73E-06
1.22E-06
3.31E-09
1.756-13
4 .91E-22
1.08E-47
0.0
0.3
0.0
0.0
0.0
CF-250
3. (12 E- 04
3.026-04
3.09E-J4
;. j/E-04
1.406-04
2.85E-05
2.016-06
1. 006-08
.ddE-12
.846-12
.77E-12
.57E-12
.286-12
8.63t-l3
2.616-13
3.566-14
4.286-21
1.216-24
0. 3
0.0
-------�
Table DS. Significant Actinlde Activity From HTGR Equilibrium Fuel Cycle - High Level Waste
Curies Per Kilogram of Actinides In High Level Waste
»EA*
l.OE 00
2.JE JO
5.JE JJ
l.JE Cl
2.JE Jl
S.JE Jl
l.JE J2
2.JE 02
5.J? J2
I. Or 03
2.Jc J3
i.JE J3
l.JE; 04
2.JE 04
5.JE 04
l.JE OS
5.JE J5
l.Jc Jb
l.OE 37
l.JE J3
«EA*
l.OE 03
*.JE OJ
S.Oc 00
l.JE 01
2.0c Ol
5.3b Jl
l.ub J2
2.JE 02
5.DE 02
l.Ot 03
2-db 03
S.JE 03
l.OE 04
^.Jt 34
S.JE U4
l.OE 05
SOL OS
I.Ob 06
l.JE J7
l.OE Ud
n.-iu7
2.2SE-J3
2.B-.E-J3
"t.tut- J j
b.B4E-j3
1 .uoc-02
l.u7E-J2
1.97E-J2
2.04E-02
2.03C-J2
2.Jlfc-J<>e-02
3.42E-J2
J.llt-02
2.32E-02
1 .43E-02
S.*9b-03
l.tit-j<*
t ,a7e-0a
2. tab-OS
2.-.1C-04
2.43E- OS
2.
2.-«it-05
2 .43C-OS
2.<>3E-OS
2.45E-05
2.SJE-OS
•»j-2U
2 .7-IE-Od
t ,37E-Od
/.d3e-OJ
1.35E-07
2.41E-07
S.77E-07
Z.l't-06
l.39fc-0>
l.5fe-04
7.70E-04
3.2"tc-03
1.53E-02
J.Jdc-02
d.7Jc'-02
1 .97e-'Jl
3.UE-01
2 .20E-01
S.7JE-02
3.S4E-06
3 .bdE-Ob
TL-2J9
l.ddE-Ob
2.2t. HE-OS
b.O^E-Ji
5.9JE-05
5.5SE-05
4.99E-05
4.03E-OS
2.1 Jb-05
7.45t-0b
1.83t-07
1.3U-07
1.7-JE-07
1.&4E-07
Pd-*u*
9.5iE-05
1. OtE-Jt
1. 5oc-0ot-J J
8.9^c-o3
I. 7JC-02
J. 3Jc-J2
7.2Jc-0.d7b-03
1. loE-13
PJ-21.:
5. JiE-02
5.6BL-J^!
6. 11C-U2
b. UUt-02
5. Sic-02
4. lic-J^
2.5JE-02
9. 7oE-03
5. fl4E-J4
4. 7bfc-OS
4.32t-JS
4.3^t-OS
4. 3^t-JS
4.32L-OS
4.3iE-05
4. 32L-JS
4. 32c-ob
4.32E-05
4.3ot-0b
4.4SC-05
!>B-2iO
J. >Jb-J8
t.dSc-Od
o* >dt-Jd
1.4^C-J7
2.» lt-J7
s. 77b-J7
t. ibc-Jb
i.i^t-JS
1. »7E-04
7. lot-Jit
3.<:4=-03
1 . 3JC-J2
3. VdE-J2
a. 7ot-J2
1.99E-J1
J.10b-01
2.2JE--JI
S.7Jt-J2
J. d-»E-Oo
3.bdb-Je
PJ-^13
a.37b-J5
1. J1E-J4
l.SSc-Ot
2.43E-04
%.20E-J4
4.SOE-J4
I.d3t-03
3.idt-J3
3. 72E-JJ
1. 70t-U2
j.2jb-02
7.04E-J2
I.14b-Jl
l.SoE-01
1. r7b-01
1. 7Jt-Jl
1.33b-01
1. 10b-l)l
». 7tE-Ji
1. lot-It)
fB-211
2.26E-03
2.dbE-03
4.47E-J3
o.doE-03
1.0oE-o2
l.bdE-02
l.^dC-0^
2.0ib-02
2.U4E-O2
2.01E-02
I.3
I.S3E-02
3.98t-02
d. 73E-02
l.*9b-01
3.1UL-U1
2.2Jb-01
5.70t-02
3.8*E-Ob
3.b8t-0b
PB-212
a.32E-02
8. 876-02
9.55t-02
9.5JE-02
8.6-.e-02
6.44E-02
3.9dE-02
1.52E-02
9.1 3E-04
7.43E-05
6.74E-05
6.75h-05
6.7SE-35
6.7SE-OS
6.75E-05
b.7SE-0»
6.7SE-05
b.7SE-i)5
b.8lE-OS
b.9bF-OS
PO-215
2.2bE-03
2.85E-03
4.47E-J3
6.86E-U3
l.Obb-02
1.68E-J2
1.93E-02
2.0SE-02
2.04E-J2
2.01E-02
1.97E-02
1.8SE-02
l.bbE-02
1.34E-02
7.11E-03
2.48E-03
6.09E-OS
b.03t-05
5.9
-------�
Table DS. Cont'd.
I. Of OJ
2.0fc 30
5.JE JJ
l.Jt JI
i.Jt Jl
S.JE 01
l.Jt Jl
2.JI: J2
5-Jfc 02
l.Jt 03
2.Jt Ji
5.0E J3
l.OE J4
2.JE J',
S.JE J-,
l.jE oa
5.JE J5
l.JE 06
l.JE J7
l.Jt Od
l.Jt JJ
2.0C JJ
S.Jt JJ
l.JE Jl
2.Jb 01
b.Jt Jl
l.Jt U2
2.Jt J2
5.JE 02
l.JL J3
2.JE J3
a.OE 03
l.JL Jl
2.Jfc J4
S.JL u^
l.JE Ji
a. Ob J5
l.Jt Ob
1.JC J7
l.JE Otf
Curies Per Kilogram of Actinides In High Level Waste
*N-2>2 F3-221
-..<.JE-o7 J.55E-J5
••.65E-J7 2.4-*£-j4
l.OSC-Ja 9.72t-04
3.77t-Ja l.o7t-J3
1.4oc-Ja 3.6ofc-03
l.djr-Jt d.92t-J3
8.271-J-, 1.71E-J2
1.53E-J2 7.2Jt-J2
3.9oE-J,i l.lof-Jl
d.7Jt-J- l.nJfc-Jl
1.9?e-Jl l.slt-Jl
3.1JL-J1 l.74b-0l
2.2Jc-Jl 1.36E-01
5.70t-Jc-03 J.aot-02 2.
l.isC-04 1.0at-J2 o.o2 b.44b-0l 9.
2.77E-J4 1.9ac-o<: 3.4aL-02 1.
2.8o£-J4 2.0at-02 1.32t-J2 i.
2.3aE-J4 2. Of c-02 ->.Ub-O4 6.
2.32E-J4 2.0lt-02 7.ijc-Ja 1.
2*33t-J<> l.boc-02 a.7»c-J? !•
1.33E-04 1.3tt-02 0.73E-J5 1.
9.95t-J5 7.11C-J3 a.7ac-0a 1.
3.4 7E-Ja 2. 4Je-J3 o. 7>e-0a 1.
d.S2E-07 b. 0-»c-0a b.7aL-Ja 1.
8.t5E-07 u.Ojt-Oa a.7at-J5 1.
8.37E-07 5. 9dt-ua s.dlc-Ji a
•dt-fa ».-*6t-Ja 1
T^-222L-03
7.-.JE-03 1.71E-02
b.7at-Ja 3.3Jt-O2
6.75t-J5 7.^j£-J2
o.7ac-J5 l.lbc-Jl
5.7ac-0a 1.50E-JI
6./5L-Ja l.dlE-01
6.7'jt--J5 1.74E-JI
6.7ab-Ja l.Jbt-Ol
M-23J TH-2
4.30E-06 l.Jae-
4.7aE-Jb 1.03t-
6.3jt-0& 1.03L-
9.72E-00 l.Oif
o.71b-0a l.Ojc-
. oac-
. 0-ic.-
2.10E-33 1
4.31E-J3 1
1.0iE-02 1.2/t-
2.6JE-02 1
5.12E-J2 2. IOL-
9.73t-02 j.Ooc.
2.uub-0l 4.7ot
3.13E-01 a.7jt
2.1dc-01 6.U,t
a.b<>E-J2 6.O3E-
1 .18E- la 3.6Hb-06 a.'
1 FH-232 1
ua o. /bt-Ja 2.
Ja o. 7ac-J> d,
Oa o.7at-Ja d.
ua o. 7at-Ja U.
Oa a. 75c-Ja d.
Oa o. 7sE-Oa d.
03 a. 73E-J3 8.
oa a.7Sc-Ja 8,
ua o. 73t-J5 d.
oa a* 7at-Ja 9.
6. 75e-u5 9,
Ja a. 7i£-Ja 9.
03 S. 73t-03 4.
Ja a. 7ab-ja 1.
oa a.73E-J3 2.
oa a-7at-Ja 3.
6.9ot-J5 3.
,<.9E-
,3JE-
i 72fc-
,d7t-
,9.'E-
. 73E-
.3JE-
, lot-
. bOt-
.dlc-
. 7»C-
,3t>t-
!b7E-
. lUfc-
7dE-
95t-
•*ac-
•04
•04
•04
•03
03
•02
02
•01
•01
•01
01
01
03
la
95fc-07
97b-
JOfc-
.4oE-
.97E-
. liE-
.37E-
, oUE-
73t-
,o8E-
RA-226
4.42E-07
4.4BE-07
4.65E-07
5.24E-J7
1.05E-06
3.7/E-06
1.98£-05
l.dOE-04
8.27E-04
3.24E-03
1.53E-02
3.9JE-J2
8.7JE-J2
1.99E-01
3.10E-01
2.20t-01
S.70S-02
3.84E-Oc>
3.bdb-06
PA-231
2.J6E-02
2.0ofc-02
2.0bE-02
2.06E-02
2.06E-02
2.05E-02
2.05E-02
2.0SE-02
2.03E-02
2.01E-02
1.97E-02
l.eaE-02
l.aoE-02
1.J4E-02
7.10E-03
2.4JE-03
b.OBE-OS
6.03E-05
5.9dE-05
5.48E-05
RA-22d
2.32E-03
2.09E-03
I.a5e-03
.S4E-04
.loe-Oa
.7St-05
.75t-05
.75t-05
.7SE-05
.75E-05
.75E-Oa
.75E-05
.75E-05
.7SE-05
.75E-J5
.7sF-05
b.dlE-05
b.9bE-05
PA-233
7.37E 00
.32E-01
.32E-01
.32E-01
.32E-01
.33b-01
.33E-01
.35E-01
.376-01
.3dF-01
.38E-01
.3db-01
.36E-J1
-18E-01
.OOC-01
a.42t-03
AC-22a AL-227
1.04E-04
I.S8E-J4
4.30E-04
1.87E-J3
3.6oE-03
8.92E-JJ
1.73E-J2
3.30E-02
7.20E-J2
l.lbE-Ol
.6OE-J1
.dlb-01
.36E-J1
.12E-01
5.d7£-03
1.18E-15
PA-234H
2.78E-Jb
8.95E-07
3.9SE-07
3.95E-J7
d.95E-J7
d.95E-J7
8.95E-J7
8.96E-07
8.97E-07
9.00E-07
9.05E-07
9.21E-07
9.46E-07
9.97E-07
1.14E-06
1.37E-J6
2.6JE-06
3.2dE-Jo
3.73E-00
3.68E-06
2.djE-03
o.daE-03
1.Jbfc-02
l.OdE-02
1.9dE-02
2.J4E-02
2. Jlt-02
1.S7E-U2
l.dat-02
l.aot-02
1.34E-02
7. 1 16-03
2.4dE-03
o. J3k-0a
PA-2J4
2-dJt-J-*
d.95t-10
d.95E-10
d.95E-10
d.9jfc-10
d.95t-lO
d.9ob-10
d.97£-10
•J.OaE-10
9.21E-10
1.14E-09
1.37fc-09
2.6JC-J9
3. 73E-09
3.odE-09
AC-22d
2.32E-03
2.10E-03
.55E-03
.S4E-04
.82t-04
.lbE-05
.7aE-05
.75E-05
.75E-05
.75E-J5
.laE-05
.7SE-05
.75c-05
.7a£-05
.73E-OS
.7SE-05
.75E-05
.75E-05
.81E-05
U-232
.DdE-02
.82E-02
9.60E-02
9.19E-02
8.3oE-02
b.26c-02
I.d7£-02
l.odC-02
8.23E-04
6.0JE-06
l.2oE-22
l.Sot-43
0.0
0*0
0.0
0.0
0.0
0.0
0.0
1M-227
2.2JE-03
2.80E-03
4.41E-03
6.77E-03
1.0aE-02
1.656-02
1.95E-02
2'.01t-02
1.996-02
1.02E-02
1.64E-02
1.32fc-02
7.01f-01
2.4aL-03
b.OJt-05
s!>)OE-0»
U-233
1.91E-01
1.91E-01
1.91E-01
1.91E-Q1
1.9U-OL
1.91E-01
1.91E-01
1.91E-01
1.91E-JI
1.91E-01
1.90E-01
1.90E-01
l.d9E-01
l.d7E-Jl
1.81E-01
1.72E-01
1.32E-01
1.09E-01
5.87E-03
1.18E-15
-------�
Table D5. Cont'd.
YEAR
l.OE 00
2.0E 00
S.3L 00
l.Jt Jl
2.JE Jl
S.Jfc 01
l.OE J.!
2.JE 02
S.JE 02
l.JE 03
2.JC 03
S.JE J3
l.JF J4
2.Dt J4
S.JE U4
l.Jc J3
S.Jb OS
l.Jt J6
l.Jc J7
l.JE jn
l.UE 00
2.'JE 00
S.JE JO
I.Ob 01
2.JE 01
S.Jt 01
l.JE 02
2."b J2
S.Ot 02
l.JF 03
2.Jt 03
S.Ub 03
l.JE 04
2.UE 04
S.jE 04
l.Ut OS
S.Jt OS
l.OE 06
l.Jt J7
l.JE Od
i.<9JE-j2
3.&3E-JI
S.uai-Jl
6.2J=-Jl
o.3lh-Jl
0.24E-JI
6.lac-Jl
4. /dE-Jl
l.aae-Jl
3.d2r-J«:
3.bok-Jb
PJ-24J Pj-2-
2-bjf JJ 4.b2E
2.b4t JJ d.22E
2.boC JJ 7.13£
2.73E OJ S.i2E
2.dlt OJ 3.3Jt
2.L-J3 J.
{32b-JS 0.
7-.
du
. dwi
-u7 9.JJc-J7 J.
-J7 9.ilb-J7 1 .
-Od 4. 4 7e-07 •,.
-JV 1.liE-Jo 1.
3.7jc-Oo i.
j.out-Jo S.
U-240
.47E-15
•97E-1S
, 70E-14
.21E-14
.27E-1 J
,S3c-13
,0<>£-t3
alt-12
Jl=-12
19E-10
ldE-09
J4E-10
02 3
J2 J
J2
U2
J2
01
OJ
•Jl
02
•02
02
02
•J3
.37£
.37E
.37£
.376
.37t
.37E
.37e
37E
37E
37t
3oE
3
3
3
2
1
5
3.
J.
,3^fc-
2bE-
09E-
32E-
3o£-
43E-
d3£-
J
-J2
-02
-J2
-02
-02
-02
-02
-J2
-02
-02
-02
02
02
02
02
02
33
10
, 5at-
!sat-
53L-
531-
,5ab-
Jd
Jd
••J-2-
2. 7 lt-
1.2d±-
2.33C-
2.31L-
3. JJt-
AM-241
2.42E OJ
4.27E 00
7.V2E OJ
14 1.29E 01
14 1.9dk 01
13 2.7ob 01
13 2.79E 01
13 2>4Je 01
12 1.49b ill
12 b.odc 00
12 i.JoE 00
NP-237
1.32E-01
1.32E-01
1.32E-01
1.32b-01
1.32E-01
1.32E-JI
1.33c-01
1.33E-01
1.356-01
1.37E-01
1.38E-31
l.3dE-01
1.3db-01
1.37b-01
1.3bE-01
1.34E-01
l.ldc-Jl
1.UJE-U1
S.42E-03
1.IdE-lS
AM-242M
4.14E-02
4.09E-02
3.99E-J2
3.82E-02
3.33E-02
2.bac-02
l.bd£-J2
4.2d£-J3
NP-239
5.97E-01
5.97E-01
5.97E-01
5.97E-J1
a.96b-01
5.92e-0l
S.doe-Ol
S.71E-01
3.dOE-01
•J.75E-02
o.43c-03
b.-*3E-05
S.33£-Od
8.11E-1J
4.1b£-J2
4.14E-02
4.09E-02
3.99E-02
3.32E-02
3.33C-02
2.oSb-J2
I.b8£-02
NP-240H PJ-2JO
6.97E-
1.45E-
2.70E-
5.21E-
I.27E-
2.53E-
5.04E-
1.2bE-
2.alE-
5.01E-
1.2SE-
2.48E-
l!l9£-
2.2db-
15 3
14 I,
14 4.
14 3
13 £.
13 I
13 i
12 1,
12 J.
12 J.
11 0.
11 U,
11 J.
10 J,
10 0,
l.OJE-U* J
.J7E-02
,tdt-O2
3dt-03
olt-J7
30C-12
i 73E-23
oJb-55
0
J
J
J
J
J
J
J
J
S.S4E-10 J.O
PU-238
.»2£ 03
.616 03
.S7E 03
.516 0)
.4JE 03
.10E 03
7.48E 02
3.43E 02
3.32E 01
o.7o£-01
2.81E-04
4.49E-12
5.59E-22
2.J1E-41
0.0
0.0
0.0
0.0
O.J
0.0
AH-243
5.97E-01
5.97E-J1
5.97E-01
5.97E-01
S.9bE-Jl
5.92E-J1
S.OoE-Jl
S.7LE-01
5>c- Jo
5ac-0d 4.4JC-11 3.25E-03
,Stb-vd 1.2JE-10 2.02E-04
53C-Od 2.2dc-10 3.Sob-ilb
4-tc-oa 7.97t-10 1.12E-20
32L-Oo l.J'JL-J'J L.ddE-39
Uc-lJ 3.55E-10 0.0
4.S7E-06 4.S7E-06 4.9d£-Ul
5.23E-12 S.23E-12 3.8JE-01
6.41E-22 6.55E-22 2.41E-01
1.01E-41 1.01E-41 9.7SE-02
0.0 0.0 6.43E-03
0.0 0.0 6.93E-OS
O.J 0.0 5.44E-vJd
0.0 0.0 S.33t-Jd
0.3 0.0 3.64t-i>d
O.Q 0.0 8.11E-10
.olb-
.07E-
.d4E-
.bofc-
.29b-
.5ot-
.o3t-
.27t-
o3E-l
-------�
Table OS. Coat'd.
Curies Per Kilogram of Actinides In High Level Waste
YEA*
l.OE 3J
2.0C JO
5.0E J3
l.OE 01
2.JE Jl
S.3b Jl
l.OE 32
S.JE 02
l.OE 03
2.0s 03
S.JE J3
I.Jb 04
2.Jb 04
S.JE b t
I .Dt JS
S.JE OS
I.JE Ob
l.OE 07
I.JE Od
YEA*
l.OE 00
2.ub OJ
!>.0b 00
1.3E 01
2.0E 01
S.3E Jl
l.OE J2
2.0t 02
5.0E 02
I.JE J3
2.0E 03
!>.3b 03
l.OE 04
2.JE 04
S.OE J4
I.Ob OS
S.JE OS
l.OE Ob
I.JE 07
I.JE 08
C4-243
7.33E-J2
7 • I7b- J£
S.72E-J2
!»o3c-J2
•>.doE-J2
2 .34E- J2
a 3*rf c — 3 j
•*ia4t-j-.
1 .<••*£- Oa
2 .*3E-I 1
1 . 1*E-2J
o.d^C--«y
J.J
O.J
O.J
J.J
0.0
0.0
J.O
J.J
CF-2S1
2.59E-07
2 .39E-J7
2.5oE-J7
2.37E-JI
2.55E-07
2.49E-J7
2 .40£-J7
2.22E-07
1.76C-07
1.2«b-J7
S.5Sc-Jd
5.5lfc-0<
1.1 7E-10
i . 2 9e - 1 4
4.d FE-24
9. L 7t-41
O.J
J.J
J.J
0.0
C1-244
1 .3JE 02
1..3lE-07
6.32E-1S
6.S2C-15
1 .S3t-l4
3.23C-I4
b.tlE-14
1 .SSb~13
1 .JtE-12
1 >42b-12
1.S3E-12
7.21b-13
CF-2i2
9.1bt-J!>
7.0SE-J5
3.21b-J5
a .o7b-J6
b.31b-J7
2.<.sE-10
4 «99E-lb
2.J9h-27
1.54E-S1
0.0
0.0
0.0
J.O
J.J
0.0
0.0
0.0
O.J
J.J
0.0
CH-24* CN-J4b
.74E-u2 I.OAC-J2
. 7<»E-02 1.0?t-J2
.73E-02 1.0>t-02
,7Jt-02 1.0St-J2
.73E-J2 l.Obt-02
.73c-02 1.0-.E-U2
7 ^E ~ J2 1 Ji t J^
.71E-02 1.02e-J<:
.ibE-J2 9. 7bc-J3
.»JE-J2 9.07C-J3
.* 7b-J2 7. 8ib-o3
1.14E-02 S.JJb-Oi
7.SJE-J3 2.4lt-03
3 • 2 *t ^ ~ 0 3 3* 5^c ~ 0^
2»o^t~J^ &• 7 J t~ iJo
1.0o£-2J 3. l2b-c-Jd
3. »b-08
5.5ifc-Jd
J.55L-JO
3. S aE-ud
s SE Jd
i.S5E-Jd
5.55b-J8
>.»c-Jd
>.dib-ud
5.3 3b-Jd
3. >lE-Jo
3.3 3E-Od
S i£ .1 H
b. 5 jc-Jo
•j.32C-Jd
3. 34E-jd
d.l lb-10
eS-233
4. 7db-l 2
,!.55b-l7
3.19E-33
9. d /b-ou
0.3
J.O
J.O
J.J
0.0
O.J
J.J
J.O
J.3
J.J
J.J
J.J
J.O
J.U
J.J
J.J
Cf-248
3. t 7b-07
3.27c-J7
J.27E-07
J.27E-07
3.2 7e-07
3.27E-07
i | j y
3.i7E-07
3.27t-07
3.2 7t-07
3.<.t>t-J7
3.^4E-jr
3.2U-07
3. l>d-J7
1 1 7c O7
. 7
1.22C-J7
<,.s Te-Os
9. 17t-l6
O.J
CH-249
1.32E-10
8.84E-23
2.&5E-41
0.0
0.0
0.3
0.3
O.J
O.J
O.J
0.0
O.J
0.3
0.3
0-0
0.3
0.3
0.0
Crf-250
1.41E-13
1.41E-13
1.41E-13
1.4IE-13
1.41b-13
1 .40E-1 3
1.40b-l J
1.40b-13
1.3St-13
1.33C-13
1.30E-1J
1.1SE-13
9.4SE-14
6.35E-14
1 .-<2E-14
2.o2c-15
3.14E-22
0.0
0.0
J.O
BK-249
S.42E-J4
2.42E-0*
2.1SE-05
3.82E-J7
1.20E-10
3.7bE-21
1. lbE-3d
0.0
0.0
0.0
0.0
0.0
0.0
O.J
0.0
J.O
J.J
0.0
0.0
0.0
ait-250
1.41E-1J
l.41c- 13
1.4lc-U
1 .".It- 13
l.olE-13
1. 40 E- 13
1 . 4UC — 13
1.40t- 13
1.3oE-U
1.3SE-13
l.30c-13
l.lSb-13
9. 45E- 14
0.43E-14
1 9^b 14
, _ . .
3.1-.£-^^
d.90E~2o
J.J
J.J
CF-249
3.27E-06
3.99E-06
4.50E-Ob
4.51E-06
4.426-Ob
4.17E-06
3. 7dE-Ob
3.10E-06
1.72E-06
6.42E-07
d.9bE-Od
2.*4fc-lO
1.29E-14
3.blE-23
7 j >r AQ
0.0
0.0
0.0
0.0
J.J
CF-250
2.8lt-05
2.66E-OS
2.27E-OS
1.74C-OS
1.03E-03
2.09b-0b
1 . t jb-07
7.39E-10
l.3iE-13
1.33C-13
1.3JE-13
1.I3E-13
9.4SE- 14
6-35E-14
2* 62t- IS
3.14E-22
d.*yje-2b
J.O
0.0
-------�
Tmblc D6. Significant Actlnide Activity From HTCR Equilibrium Fuel Cycle - Recovered Uranium
J2
32
TEAR
1.3 = JO
2.0E JO
S.OE 03
l.JF Jl
2.3fc Jl
b.JE Jl
l.Jt
2.uc
5.J£ J2
I.JL J3
2.Jt J3
S.Jt J3
1.3E 34
2.UC J4
5.JC 04
l.OE 35
b.JE OS
1.3c JS
l.Jb J7
l.OE 3d
VEAx
l.ji OJ
2.o£ JJ
5.Ob 00
l.OE 01
2.JE Jl
b.Ob Ul
l.OE 32
2.Jt J2
l.OE jj
2.Ob 03
5.Jb 33
l.Ub 04
2.JE 04
S.Jk 04
l.Jb Ob
S.OE 05
1.JE 06
l.Ub 07
l.OE 03
Curies Per Kilogram of Recovered Uranium
TL-207 TL-20d
d.l7t-ll 2.5SE-01
TL-2J9
1.97E-
7.-.8E-
2.71E-
J-* b,
J9 7,
Jd 7,
3.6lt-j7
2,-iJt-
4.93E-
l.ulE-
2.44L-
4.bib-
d.3d£-
l.bdt-
i
3
37 1
Jb 7
Jo 5
Jb •.
J5 1
JS 2
JS S
Jt 1
J4 2
K7E-01
ooC-Jl
1-.E-01
3bE-Jl
ilb-Jl
2oE-Jl
J3E-J3
.7Jc-Ob
.4 7c-J9
.d7E-J9
.47E-OS
2.41E-J4 2.d9E-07
2.39E-J4 2.55E-Jb
2. HE-J* -J.StE-Ob
81-214
1.99E-J-J
7.9bc-J9
1.9-JF-J7
PJ-210
s.Jbc-12
1 .91E-09
1./Ob-JB
1.49b-37
4.94E-J5 1 <
7.73E-Jb
4.b3b-J>*
1.72E-J3
6.U4E-J3
2.6ob-J2
6.77C-02
1.47E-J1
i.2Ut-Jl
3.69E-J1
9.5jE-J2
2.17E-J5
2.OSE-J5
1.12b-05
>.7aE-05
1.63E-03
2.56E-J2
6.77E-J2
1.47E-JI
3. I4b-Jl
S.2JE-J1
3.09E-31
9-56E-02
2.17E-Ob
2.0dE-J5
1.53f-03
7.3»E-03
3.J-.E-02
4.doE-02
0.3J£-J2
5.5JE-J2
I.OJE-J2
l.ldc-03
t.o2c-13
3.2tE-2b
P3-2U
2.4ob-13
9.7dE-13
5.92E-12
2.23E-11
d.lbl--! 1
3.dfb-10
2.olb-09
7.22L-OV
3.J3t-Jd
7.34t-Od
l.j^E-07
2.52E-07
<.. 7ot-07
6.40E-07
7.25fc-J7
7ll9£-07
P3-2J9
3.SU-U*
7.0<:e-u4
3.5lc-0j
7.01t-j3
3. 4»:
6.93C
1. 7U-JI
3. 3.3 it-01
5. <; Jt-Jl
V.>jc-02
Ptt-211
8. HE-ll
1.97E-09
7.51E-09
2. 72E-08
1.3JE-J7
3.b2b-07
U. 7JE-07
2.41E-00
4.VbE-Ob
l.JlE-Ji
H.'.Jc-Oi
2.39E-04
2-Ht-O*
PB-212
7.J9E-01
1.2JE 00
1.91E 00
2.13E 00
1.98F JO
1.49E 00
9.19E-01
3.516-01
1.95E-02
1.58E-04
1.21E-08
d.laE-09
l.o JE-08
8.'l5E-OH
8.04E-07
7.0dt-06
4.5iE
7. ODE
1. 3ot
1. 27C
2.2tc
2.61L
5. 22E
l.tHi
2.biL
b.21c
2.54E
S. 13E
4. 53b
12 i>J-213
-Jl J.43E-J4
Uu 1.72t-OJ
JJ 3..JL-JJ
uO b.dot-uj
•Jl 1./U-J2
•Ol 3.4lc-J2
•Ol j.oJt-Jl
•U2 1.^7b-Jl
•On 3.27c-Ul
•J9 0.22C-J1
•09 1.33E JO
•U9 d.lok 00
•Jo 2 .9 lb 00
•Ud l.JJk jj
•Od 2.47C 00
•uo 7.<:OE-12
1. -
1.4JL-07
1.9ub~
7. /i£-
1. 72E-
(>. JtE-
o.77E-
1.47E-
3.3tk-
J.o9E-
9.5-.E-
2.17E-
2.0dt-
-Ob
03
03
02
01
01
01
02
05
Ob
PO-215
8.19E-11
3.2bE-10
1.97E-09
7.blE-J9
2.72E-08
1.30E-07
3.C.2E-07
d.70E-07
2.4U-06
4.95E-06
1.01E-05
U.4JE-OS
P3-21-.
1.99E-09
7.96E-09
4.97E-03
1.99E-07
7.44C-07
1.9oE-OS
7.7JE-05
1.7ZE-03
o. J-.E-03
2.bbE-02
6.77E-02
1.47E-01
3.34E-01
5.20E-01
3.b9E-Ol
9.S6E-02
2.17E-05
2.JBE-05
PJ-216
7.09E-01
1.20E 00
1.91E 00
2.13E 00
1.94E 00
1.4VE 00
9.19E-J1
3.S1E-01
1.95b-02
1.58E-04
1.21E-08
4.J8E-09
d.l6E-09
1.63E-38
81-210
2.14E-11
1.71E-U
2.62E-J9
2.01E-00
1 .49E-07
1.89E-00
1.12E-0?
5. 7oE-0>
1 .63E-J3
2.bo£-J2
6.77E-J2
3.34E-01
5.20E-JI
3.b9E-Jl
9.5oE-J2
2.17E-09
2.03E-Ob
P0-21d
1.99E-04
7.96E-09
4.97E-08
1.4-lE-j/
81-211
d.!9b-ll
3.2oE-10
1.97t-09
7.ilb-09
2.72E-08
1.JOt-07
3.n2b-07
d. 7Jt-07
2>4lE-06
81-212
7.09E-01
1.20E 00
1.9IE 00
2.13E 00
1.9BE 00
1.49E OO
9.19E-O1
3.blE-01
l.9bb-02
l.Olt-Ob 1.21E-08
2.l3c-04 d.lSE-08
2.42E-04 4.05t-07
2.42E-04 8.04t-07
2-39b-04 7.08E-06
2.19E-04 2.65E-OS
1.96E-05
7.73E-05
4.bJE-Oi
1.72E-03
6.04E-J3
2.60E-02
6.77E-02
1.47E-JI
3.34E-01
5.20E-JI
J.69E-01
9.5oE-02
2.17E-J3
2.08E-03
d.40c-0a
2.t2e-04
2.1-JE-04
AT-217
3.P1E-O4
1.7jb-OJ
3.blb-OJ
7.J1E-03
l.7bt-02
J.49b-02
o.-»bt-02
1. 71b-0l
3.34b-01
o.3bb-0l
1.3oE JO
2.21C 00
2.97E JO
J.09t JJ
2.52E 00
5. Jbt-02
7.37E-12.
8.16E-09
1.&3E-08
4.JOE-03
H.15E-03
4.J3E-07
8.J4E-07
7.0dc-06
2.6bE-05
RN-219
8.19E-11
3.2SE-10
1.97E-09
7.5U-09
2.72E-08
1.JOt-07
3.o2b-07
8.70E-07
2.41E-JO
4.95E-06
1.01E-05
4.65E-05
8.40E-05
1.59E-U4
2-13E-04
2.42E-04
2.42E-04
2.39E-04
2.19b-04
81-213
J.S1E-04
7.02E-04
1.75E-03
3.51S-03
7.0lb-03
l.7bE-02
3.49E-02
b.9b£-02
1.71C-01
3.34E-01
6.3&E-01
1.3dE 00
2.21E 00
2. J7E 00
3.09E 00
2.S2C 03
4.55E-01
5.3bE-02
7.3/b-l2
R.N-220
7.09t-0l
1.20E 00
1.91E 00
2. 13E 00
1.9HE 00
1.49E 00
9.19E-01
3.51E-01
1.58E-04
1.21E-U8
4.08E-09
B.loE-09
l.b3E-08
4.08E-08
8.1SE-08
4.05E-07
8.04E-07
7.08E-06
2.65E-05
-------�
TkbleO«. Cont'd.
YEAH
l.OE JJ
2.JE JO
S.JE JJ
l.JE Jl
;.JE Jl
3.JE Jl
l.JE J2
?.JE 02
i.JE o
-J3 9.HE-J5
•J2
-32
4.59E-3*
9.1 -It-J*
•02
•Jl
l.34b-J3
•».56e-33
9.l4t-03
1.32E-J2
JJ 4.«7c-J2
JO l.itE-ol
JJ S.2SE-01
Jl 3.6JE-01
12 2.17b-OS
Curies Per Kilogram of Recovered Uranium
1.13E-12
1 1
10
14E-
2oE-
,97t-
11
10
09
2. 72L-ud
l.i2E-J9
J9 3.
uj a.
Jo 2.
03 •».
J7 1.
o 7 o
•Jo d
Jo 1
Ob 2
•Jb 2
Ob 2
Jb
ott-
7JE'
93f
OlE'
«Jt-
Uc
tt-C-
•O7 1.
•J7 i.
•06 1.
•JS 1.
•JS t.
•OS di
06 1.
u4 d.
J<> t.
20E
SI BE
> ivc
5Lt
00 7
JJ 1
JJ 3
oo 7
JO 1
Jl J
01 b
,02£
,7sE.
.S1E-
,OlE
• 7SE-
•0£-J2 1.71E
5d£-04 3.3-.C
2 lE-Jd o. J(*E
3oE
fit
976
odfc
IbC
bJE
Ode
lib
J3C
-J9 1.
•J9 2.
-08 2.
-Jd 3.
•08 2.
•J7 •..
5.3ofc-
2.3Jk-0<> 7.Jde-Uo
-Jb 2.
RA-226
04 1.99E-09
04 7.96E-J9
03 4.97E-08
03 1.94E-07
03 7.94E-07
02 <>.94E-Jb
02 1.96E-OS
02 7.73E-05
01 1.72E-03
b.04E-03
JO 2.&ok-32
00 b.7fc-02
00 1.47E-01
00 3.34E-01
00 S.20E-01
02 '«.5aE-02
2.17E-05
2.0JE-05
-01
fH-^31
b.lbt-13
2.42b-J4 o.lofc-
2.42E-04 l.bJE-
2.4iL-J» '-..jdE-
I.n3k-10
2.4/fc-J4 1.03E-
2.42E-J4 4.Jdb-
2.4£c-O4 b.16E-
2.4
-------�
Table D6. Cont'd.
Curies Per Kilogram of Recovered Uranium
U
eo
YEAR
l.JE
2.JE
S.OE
l.JE
2.3E
S.JE
l.JE
2. JE
S.JE
l.JE
2.0L
s.ol
1 .01
2.0E
l.Jt
1.0E
S.Ot
1 .Jt
1 .oe
l.JE
00
JO
JJ
Jl
Jl
01
J2
02
02
J j
J3
33
04
'J*
J4
OS
OS
06
07
JO
1
1
1
1
1
I
1
1
1
1
1
1
1
I
1
o
2
o
2
2
d-23-.
.Obt JJ
.o»= JJ
.Jot JO
.ObE JJ
.Ot>E JJ
. JoC JJ
.Ooc OJ
• O6t jj
.06= JJ
.Oj± JJ
.J5£ JJ
.Jit JO
.JJE JO
.Jot JJ
.22t-Jl
.Olt-Jl
.b lE-Jl
• •» IL-J2
.Uc-Ji
. Joc-jD
J-23S 0-2JO
2. ^2 £ ~il&
2^,2t-j4
2 .<»2c-o*
2 . Wc-J*
2.t2E-0-<
«. .-»2t-0-t
2. -26-0'.
2.42C-0*
2 .••2E-0*
2 .Wt-J""
2 .-«2e- J*
2 .i-
.1 It-OS
. I It-OS
.1 It-OS
. I le-OS
. 1 It-OS
.1 It-OS
.1 It-OS
.1 It-OS
.1 IE-OS
.1 ie-us
.7^6-10
. 7tE-lO
. 74E-10
.7<,t-lO
.7*E-10
?*t f 1 O
.7JE-10
.7it-10
. 73E-10
.73t-10
. 7JE-10
.72E-10
.716-10
.6dt-10
.
-------�
Table D7. Significant Actlnide Activity From HTGR Plutonium Fuel Cycle - Spent Fuel
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YEAR
l.OE JJ
2.0t JJ
S.JE 33
I.JE Jl
2.Jb 01
S.JE Jl
l.Jb 02
2.Jc J2
5.0C 32
l.Jb 03
2.JE J3
S.Ji Jl
1.3C 0»
2. Ob 3o
S.Ob 3o
1.3E Ji
S.OE Ob
l.Jc Jb
l.OC J7
I.JE Jo
Yb4*
l.Oc 00
2.01 00
S.JC OJ
I.JE Jl
2.3F 01
5.JE Jl
l.ul 02
2.uC 02
S.Db 02
l.OC 03
:.Jt 03
b.OE 03
1 .UC J*
2.0: 3o
ii • j£ u^
l.OF 05
S.Ob 05
l.OC Ob
I.Ob 07
I.Ob 0*
TL-2J/
2.19E-J2
2.drE-J2
».7tJL-J2
7.58E-J2
1.20C-J1
1 .425-31
9E 01
3.o7c 01
'i.37E Jl
O.DOt Jl
3.obb 01
2.73E Jl
i.a-tt Jl
o.odt" JJ
3.42E-01
3.alE-J2
3.321-J2
3 .32 t- J2
3.J2E-J2
3. j2s-j2
3.J2E-02
3.32t-02
3.32E-J2
3.32E-J2
3.326-02
1.30C-J2
PJ-21J
2 .boE- J7
* .t IE- J7
l.olE-'Jo
•« .Uj£- JO
1 .*7c-Jb
I .4se-Jo
6.97t-J-»
3.2-.E-JJ
2 .2 JE- J2
8.31E-J2
3.27b-Jl
1 .dE JO
7.43E JJ
1 .K2E J 1
2.6aE Jl
4E-J4
2.2dE-j*
3.b 16-0-,
5. 7oc-0<»
b.HbL-Jo
7.00E-0*
7.0^-0*
6.90E-00
b.d ic-Oo
6.0 3c-0o
5.duE-Oo
o. 7oE-Oo
» o7t- 0^
1.22E-J*
5. liE-Ob
b.ne-J5
5.0/b-05
4.boE-OS
PB-209
l.Ojb-Jl
1.2JE-J1
l.SiE-Ul
2. 8^b-Ul
0.83C-01
t . OVL J J
2.04E JJ
O.Odc 00
4.9JC 00
1.9JL 01
3.67E 01
7.93E Jl
1.27E J2
1.71C 02
1.76i_ 0^
1. OOE 0^
2.71L ol
3.9St JJ
•..60L-J2
9.33E-lb
PO-ili
b. b/t Jl
6. die 01
7.2JC 01
J. lJb-02
5 9^E 0^
S. 9JE-o2
5. 90t-J2
5.90E-J2
S. 91b-0^
5.93b-02
?B-213
3.ooc-07
3.7JE-J7
1.67E-06
i. 1 JE-Ot>
1 . ^7t-3b
l.o5e-J*
o.voc-jo
J. 2OE-03
2.23t-02
a .i 1E-J2
i.e. 7b-0i
l.oot 00
3.08E JO
7.4dC JJ
I.d2b 01
<>.*3k 01
2-ulc 01
3.2JE JJ
t. J2E-J3
2.2 Jb-03
?J-21>
y. 7db-U2
1 .ldb-01
i.77b-Jl
^. 75c-Jl
•« ./ Jt-Jl
l.JOL JO
^.J«C JJ
J.49C JO
i. /IL 00
l.d-Vfc 01
J.34c 01
7.7dE 01
1.2bE J2
i.a7c J2
l.<»2b 32
<:.oaE Jl
3.o7t 00
'«.5<.b-02
9. 15E-1 b
P3-211
2.196-02
2.06E-O2
o.7-»E-02
7.61E-02
l.20t-01
1. V3E-01
2.26E-01
2.3bb-01
2.3bE-01
2. JJb-Ol
2. 28E-01
2. lob -01
1.9JE-01
1.S1E-01
8.9JE-02
».Uib-J2
1. 7uE- 02
1.7Ub-J2
l.o-yE-02
l.abE-02
Cu-21-t
b. IVE-Ub
8.4JE-Ob
I.o2b-Jb
3.J1C-OS
d.lob-Jb
3.4JE-OH
1. 1/E-JJ
-.. JJt-03
2.5Jt-02
9.13E-02
3.27E-01
1.4oE 00
J.OdE 00
7. JdE OJ
1 . 42E 01
2.636 Jl
2. DIE 01
b.20E 00
2.32E-03
2.236-03
PB-212
.03E 02
.086 02
.13E 02
.HE 02
.OlE 02
.606 01
.7JE 01
.806 01
.096 00
.006-01
9.216-02
9.ZIE-02
9.21E-J2
9.21E-02
9.21b-02
9.2SE-02
9.226-02
9.22E-J2
9.206-02
9.27E-02
P3-21S
2.1 9E- J2
2.836-02
*.79F-02
7.616-02
1.2JE-J1
1.93E-01
2.206-01
2.36C-01
2.3SE-01
2.33E-01
2.28E-01
2.10E-01
1. JJE-01
1.566-01
8.90E-02
O.OdE-02
1.7Jb-02
1.70E-02
l.b9E-02
1.55E-02
PB-21*
6.19E-06
8.t06-0b
1.62E-05
3.31E-OS
8.1oE-05
3.o36-0o
1.17E-OJ
0.306-C3
2.50E-02
9.336-02
3.27E-01
l.OOt 00
3.o8E 00
7.4bE 00
1.32b Ol
7.S3E 01
2.01b Ol
b.20b OJ
2.32t-03
2.23E-03
PO-216
.036 02
.086 02
.13E 02
.116 02
.OlE 32
.606 01
. /Ob 01
.dJE 01
.09t JO
.OOE-Ol
9.21E-02
4.21E-02
9.21E-02
9.216-02
9.21E-02
9.21E-02
9.22E-02
9.22b-02
9.2
-------�
Table D7. Cont'd.
Curies Per Metric Ton of Heavy Met?I Charged To Reactor
YEA*
l.OE 00
2.0i JJ
5.3E 03
l.OE ul
2.0c Jl
S.3t Jl
l.OE J2
J.Ob J2
5.0E 02
1.0£ JJ
2.J; J3
5. Or J3
l.OE 34
2.3E J4
5.Jt u4
l.OE OS
S.Jt 05
l.OE J6
l.Jc 07
l.JE J3
rti*
l.JE JJ
2.JE Oj
3.JE JO
I. OF 01
Z.OE 31
5.0E 01
l.JE J2
2.JE 02
5.3E J2
l.Jt JJ
2. Ob j3
5.3E 03
l.Jt J4
2.0t 04
b.jE U4
l.Ot OS
S.JL OS
l.OC 06
l.OL J7
l.JE 06
As-222
o.lOp-Jo
i.
<*.7t 01
7..b2
1. 7ut-u2
1. 7jc-02
l.o-»t.-J2
1.5»c-02
IM-/J1
7.33L-03
1. 3st-JJ
7.3ib-0j
7.3SE-03
7.35t-0j
7. 3ac-03
7.35E-J3
7. Jab-Jj
7.3ot-U3
7.3/c-UJ
7.*lt-^3
7.6..C-J3
d.2ot-03
f. d3E-u3
.37c-Ji
.6<^c-J2
. 70c-J2
. 7jE-02
.69c-02
. 53E-J2
.7Jb Jl
l.dOb Oi
l.j-yE jo
l.JJc-Ol
9.^iE-02
•».<; lt-02
^.t lt-J2
4.2 U-J2
i.i 1E-U2
•i.tLt-Jt
•J.221-J2
9.^2c-0,i
•J.i'tb-j;
•».27b-J2
H-212
4.2U-J2
4.21b-j2
J.2U-02
9.<:lc-02
^.2lk-J2
4.2^L-J2
4.<1E-02
4.2U-J2
9.2U-02
4.21C-J2
^.2lb-J2
9.21b-J2
*.ilt-0<:
9.21E-02
•*.21t-02
•y.^lb-ji
^.22fc-02
4.22E-JI
^.2<.c-J2
9.27C-J2
ilA-225
1.UOE-J1
1.2JC-01
l.alb-01
2.d2b-0l
*.J3E-Ol
I.u9e Ju
2.J9b 00
E 02
2.71c 01
J.'Iat 00
<..s»t-02
9.i56-l5
fN-23*
J.ooE-03
2.oOfc-0<>
2.oJb-0<.
2.60E-0*
2.oOE-0«
2.bOt-0«
c-0*
3. JlL-04
<(. J*t-03E-0E 02
2.37k-01 .19E-01
2.37E-01 .09E-01
2.37E-01 .10E-01
2.37E-01 . K.E-01
2.37E-01 .27E-01
2.37E-01 .«9E-01
2.3C.E-01 .9JE-01
2.3SE-01 7.30E-01
2.32E-01 S.o'.E-Ol
2.2dE-Ol 9.27E-01
2.1<>E-01 9.73b-Jl
1.93E-01 l.Olt 00
l.SdE-01 l.Osc 00
d.90E-02 1.07E 00
<>.OJE-02 l.Obt 00
1. 70fc-02 9.30E-01
1.70E-02 7.91t-01
l.a'VE-02 *.29E-02
l.5it-02 9.35E-15
»C-22S
l.OOE-Ol
1.20t-jl
l.dlE-Ol
2.82E-01
*.83£-ji
1.09E 00
2.09E 00
<..08E 00
9.93E OJ
1.93E 01
3.67E Ul
7.9SE 01
1.27E i>2
1.71E 02
1.78E 02
1.4bE 02
2. 71f Ul
3.9SE UO
*.6«E-02
•J.35E-13
P4-23
2.64E-0*
2.o7E-JV
2. 78E-0'.
2.9ot-04
3.3lE-3t
E-01
2.3jfc-01
2.28E-01
2.1e-0b
2.2bc-0o
2.23E-Ob
AC-228
4.0SE-02
<..5SE-02
5.80E-02
7.18E-02
8.49E-02
9.13E-02
9.21E-02
9.21E-02
9.22E-02
9.22E-02
9.21E-02
9.21E-02
9.21E-02
9.21E-02
9.21E-02
9.21E-02
9.22E-02
9.22E-U2
9.2*E-02
9.27E-02
J-232
1.13E 02
1.17E 02
1.14E 02
l.OVE 02
9.86E 01
7.39E 01
4.5bE 01
1.74E 01
9.70E-01
7.87E-03
5.19E-07
1.48E-19
l.d'.E-'rO
0.0
0.0
0.0
0.0
0.0
0.0
0.3
TM-227
2.l6t-02
2.346-02
4. 73E-02
7.50t-02
1.19t-01
1.40E-OI
2.2»b-dl
2.33E-01
2.32001
2-29E-01
2.2SE-01
2.11E-01
1.91F-01
1. S6b-OI
d. 7JE-02
4.02E-02
1.0HF-02
1.68b-J2
1.6bC-02
1.S2E-02
U-233
2.13E 02
2.13E 02
2.13E 02
2.13E 02
2.13E 02
2.13E 02
2. Mb 02
2.13E 02
2.12E 02
2.12E 02
2. lit 02
2.03E 02
2.04E 02
1.9SE 02
1.72E 02
1.39E O2
2-59E 01
3.74fc 00
4.6<,E-02
9.35E-15
-------�
Table 07. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YEA*
l.JE J3
2. Ob OJ
5.0E JJ
1.3E Jl
2.J: 01
5. JE 01
l.Jb J2
2.JE 02
5.J£ 02
l.JE 33
2.JE J3
5.JE J3
l.JC 0*
2.JC J4
5.Jc J4
l.jfc 05
S.Jc ui>
l.JE Ob
l.Jt 07
l.JE 08
YEi*
l.Oc JO
2.JE JO
3.o£ JO
l.JF 31
2.Jt Jl
S.OE 01
I.JE 02
2.UE 02
5. at 02
l.'JC J3
2. Ob u3
b.Jf^ 03
l.Jl 04
2 . J E 0 •«
S.Ub J4
I.Ob 05
S.3b 05
l.Jc Ob
l.JE J7
l.OE 08
il-Jit
S.17c Jl
5.1dc Jl
3.14; Jl
S.2U Jl
5.231: Jl
S.ioE Jl
S.-.9E Jl
i.otc Jl
5.75t 31
5.731 Jl
5.73E Ji
S.b9c Jl
S.blc Jl
S.-.5£ Jl
3.JIC Jl
4.J6C Jl
1 .42; Jl
3.4SC JJ
2.26L-JJ
2.2Jb-JJ
PJ-^4J
H.41c Jl
1.14E J2
l.9db 32
3.l7h J2
4.-ybc J2
7.60E J2
d.bOE J2
J.bSb 02
8.43E J2
B.J1E J2
7.23C 02
5.J1C J2
J.ldt U2
l.ltt JJ
5.2tb JJ
J. 12C-J2
2.49E-J6
3.4lE-Jo
3.6db-0o
1.73t-0b
J-235
7 .33E-03
7.35E-J3
7 .35c-03
7.3SE-J3
7.J3C-O3
7 3 5£ — J J
1 .JSb-JJ
7 . J5E- J3
7.36E-03
7.J7E-J3
/.-.Ic-OJ
1 .07E 04
1 • J4t 04
2.54E 03
2.7bE J2
4.3bE ill
4.25E 01
•..JdE 01
3.75E 01
t .-VIE 01
1 .926 01
J.2aE 00
b.u-Jb-01
l.Olt-02
2.71E-17
1 .abC-3S
0.0
J .J
0-236
J.62E-01
J.b2fc-Jl
J.42E-01
3.b2t-0l
J.b2t-01
3.b2b-01
J.bib-Jl
3.bbb-0l
3.7 j£-01
3.33E-01
4.0 7c-ui
4.b2C-01
5.2JC-J1
5.7 0
0.0
0.0
p>U-^<.3
1. 7bc-0,
1. 7?b-04
1. 7st-0<,
1. 7it-U4
1. 7st-J'.
1. 73L-04
1. 7JC-0<.
1. 7'jC-Ot
1. 7at-0t
1. 73t-0t
1. 75c-u<.
1. 73fc-J4
1. 73c*04
1. 73t-OH
1. 73c-o*>
1. 74t-04
i. 7lb-04
1. bdi--J4
1. 19fc-04
2. 53L-Oo
J-ijtf
i • bOE — U^
2 • o^E ~ J ^
2*o Ot ~U4
£ • i> Ot ™ J *»
^ »OOC-J4
2. oOb J4
2.bjE-J4
^ • b 1 1 ~0 ^
2.b2E-L'4
2.a-«c-J4
£. b 7b-J4
2 . 7 Hf-Ui,
2.-J6L-J4
J.J 1L-J4
4. J4E-J4
5. V4L-J4
l.tbb-J3
I .•itb-J J
<.2ab-U.l
2.23e-UJ
'J-2-.4
1. J3b-l 1
2.14C-11
*. t 4b-l 1
d.4 2b-l 1
I.i3c-10
i.tiit-10
7.3U-1J
1 . >ot-J9
J. 93b-09
7.S6E-J9
1.3 7c-0d
3.V1E-08
7. 7db-Jo
1.5-.L-07
3. 7-»t-J7
7.13C-J7
{.. 4Vb-Jb
3.« Ib-Jb
J.odt-Jo
1. 7JE-06
U-2%0 NP-237
1.35E-I1 b.OSE-01
2.13E-I1 b.OdE-01
4.44E-li 6.09E-01
8.41E-11 6.10E-01
1.63fc-lU 6.14E-01
7.9t)t-10 6.49E-01
1.S7C-09 6.90E-01
3.94E-09 7.8OE-31
7.o3c-09 d.b4E-Jl
l.i7E-Od 9.2 7E-J1
J.9JE-Od 9.73E-01
7.77b-08 l.Olb 00
l.S<«fc-J7 l.JSE JO
3. 7-.E-07 1.07E 00
7.12E-07 1.066 00
2.4 tt-0t> 9.30E-01
3.41L-0& 7.91E-31
J.bJb-06 4.29E-02
1. 7J£-Ob 9.33E-15
&M-241 AH-2i2H
b.v2b 02 J.1JE 01
7.30C 02 3.04E 01
8.3oE 02 3.J4b 01
9.aJb 02 2.98E 01
l.ldt 03 2.34b 01
1.3dE 03 2.4dE 01
1. JiE 03 1.97E 01
LloC 03 1.25E 01
7.3oE 02 3.1dE 00
3.33b 02 3.26E-01
1.02c 02 3.40E-03
3.09E 01 3.90E-09
2.0JE 01 4.8dE-19
b.2VE 00 7.&2E-39
o.t>9t-0l 0.0
1.01E-02 0.0
2.dbb-17 0.3
1.73L-33 0.0
0.0 0.3
0.0 0.0
NP-239
8.69E 02
9.b9E 02
8.68E 02
8.08E 02
8.b7e 02
d.blE 02
8.53E 02
8.30E 02
7.94E 02
7.2SE 02
5.32E 02
J.51E 02
I.42C 02
9.3bE 00
1.01E-01
I. 71E-04
l.£>3E-Jt
1.15E-04
2.33E-06
AM-242
3.10E 01
3.09E 01
3.04E 01
2.98E 01
2.34E 01
2.4SE 01
1.97b 01
1.25b 01
3.I8E 00
3.26E-01
3.40E-03
3.90E-09
4.88E-19
7.62E-39
0.0
0.0
0.0
0.0
0.0
0.0
NP-2401
1.35E-U
2.1JE-11
4.49E-11
8.41E-11
1.63E-10
3.93E-1 J
7.90E-1J
1.57E-J*
3.93E-U9
7.33E-09
1.57E-09
3.90E-08
7.77b-0«
1.S4E-J7
3.74E-07
7.12E-07
2.49E-JO
3.41E-00
3.6t)E-U9
1.7JE-06
AM-243
d.b9E J2
8.69fc U2
a.68E Ji
8.6BE Jl
8.67E 02
9.6SE 02
3.61E 02
8.53b 02
8.30E U2
7.94E 02
7.2SE 02
S.52E 02
3.51E 02
1.42E 02
9.1oE 00
1.01E-01
1.71t-J4
1 .6fl£— 04
1.1SE-04
2.55E-Ob
PU-2J6
1 .5*t-0l
1.21E-01
5.BJE-02
1.73E-02
l.b2E-u3
1 kJ^E — lib
iijdE-12
1.4 7e -22
3.JJE-34
0.0
0.0
J.O
0.0
J.J
J.J
0.0
0.3
u.O
0.3
0.3
»«l-244
1./6E-14
2.78E-14
5.84E-14
1.J4E-1J
2.12C-13
5.1dE-13
l.JJt-12
2.0je- li
S.llE-12
1. J2b-ll
2.046-11
3.Jdb-ll
l.Jlb-10
2.30E-1J
4.dbb-10
9.27E-10
3.24E-09
4.4
-------�
O
I
IS9
O)
Tible VI. Cont'd.
Curies Per Metric Ton of Heavy Metal Charged To Reactor
YCA4
l.Jc OJ
2.0E 00
5.0E 03
1 . JE 01
2.0E Jl
5.JE Jl
l.JL J2
2.JE J2
5.JE J2
l.Jc 03
2.J6 03
5.JE J3
l.uE J4
2.JL 04
5.JE 04
l.OC 05
5.JE Ja
I.jE 06
l.JC 37
l.JL Od
re a*
i.oc oo
2.JE 00
5.0E 03
l.OE 01
2.0t 01
S.Oc 01
1.3E 02
2.JC 02
a.JC 02
l.UF J3
2.Ut 03
5.JE 03
l.OC 04
2. Ob 94
S.Jt 04
I.JE 03
5.0t 05
l.OE 06
I.Ob 07
l.JC Od
C1-243
.78- 32
•7*z J2
.jj£ J2
>4oc J2
.la= J2
6.1a= Jl
2.J3L Jl
2.3d = Ju
3.5i»E-J3
7.09C-J8
2.77c-17
I .o5c-45
O.J
O.J
0.3
0.0
w. J
0.0
0.0
0.0
CJ--251
7.99L-04
7.99F-J-I
7.-J7E-04
7.946-04
7.ddE-04
7.7JE-0,
7 .4 lc-Jt
(i.36L-J4
5.4tE.-J4
3. 70b-04
1.71E-04
1.70L-05
3. 616-07
1.63E-1J
1. 50t~2u
2.b3fc-37
0.0
J.O
O.u
O.O
C1-244
2.*9c Ja
2. tide 3!>
2.57c 05
2.12E 05
1.456 05
4.»dc 04
o.7ab OJ
1.-.7C 02
1 .5JE-03
1 .7^E-l 1
2.JHC-11
5 . JdC- 1 1
1.J16-10
i. 006-10
4.3&E-13
9 .2 7fc- lo
J .fic-J-J
4 .44c- J9
4.79E-09
2.2&C-J9
CF-252
1.5^6- Jl
2.JOfc-Jl
9.106-02
2.4ic-J2
1 .7Vc-03
a.90c-J/
1 .416-12
5 .'ilE-24
4.35E-58
J.J
0.0
0.0
0.0
0.0
O.J
0.0
0.0
O.J
0.0
3.J
C1-245 CM-i*o
4.42E 01 3. lot Jl
4.t2c 013. loE Jl
4.42E 013. lac Ol
4.42E Jl 3. Ob Ji
4.t2E Jl 3. lac 01
4. tit 01 3.1 jo 01
4.3SF. Jl 3. lib 01
•«.3a£ 01 3.07c Ji
4.246 01 2.9j6 al
t . Jft 01 2. 7Jc Ol
3.7,t 01 2. 35c Oi
2.91E 01 l.Slc 01
1.41E 01 7.2ac oo
d.27C 00 1.6o£ Oo
o.blb-Jl 2.J16-J2
l.OlC-02 l.2oc-J5
2.Mc-l/ l.Otc-lo
l.aac-35 1. lac-24
0.0 0.0
O.J 0.0
lF-2aJ CF-/:a4
1.35E-10 1.2ic-07
y.JoE-17 I.d4b-04
2.72E-35 6. 516-15
0.0 0.0
0.3 0.0
0.0 0.0
O.O O.O
0.0 J.O
0.0 3.0
O.J 0.0
0.0 0.0
O.J 0.0
J.O 0.0
0.0 0.0
0.0 J.O
0.0 0.0
0.0 0.0
0.3 0.0
O.J 0.0
u.J O.O
i«-2»7
i . 73t-04
I . 75C-04
1. 75E-04
1 . 7 at -04
1.73C-04
1 • / au — 0 4
1 . 7 a6 — 04
i . fat-04
1 . /56-O4
I. 'J6-J4
L. 756-04
1 . 7ac-04
I . 7ab-j4
1 . ' 5C-0
-------�
Tible 06. Significant Actlnide Activity From HTGR Plutonium Fuel Cycle - High Level Waste
Curies Per Kilogram of Actimdos In High Level Waste
o
to
YEA;
l.JE Oj
2.06 JO
b.Jc OJ
l.JE Jl
2.0E Jl
S.jE Jl
l.OE 02
2.JE )2
5.JE 02
I.OS J3
2.0c 03
5.JE 03
l.JE 04
2.Ob 04
5.JE C4
l.)F 05
i.JE 05
l.OE Ob
l.JE J7
l.JE 03
I.Ob 00
2.0E JJ
5.06 JJ
l.JE 01
2.JE 01
5.JE Jl
l.JE 02
5.J6 02
l.OE 03
2.0E 03
5.JE 03
l.UE 04
2.UE 04
5.JE 04
l.JE 05
5.JE 05
l.JE Ob
l.JE 07
l.JE Od
TL-2J7
l.loE-J3
1 -53c-J3
2.5-.E-JJ
4.03E-J3
o.3at-J3
1.J2E-J2
1.21E-J2
1.23=-J2
1.25E-J2
1.23E-J2
1.1JE-J2
B.24E-Jj
4.-.OE-JJ
I.a LE-J3
5.00E-J4
4.93E-J4
4.54E-J-.
Bl-214
2.23E-J7
TL-2Jd TL-2J9 »B-2J*
1.93C-J2 1.23E-J6 S.Mb-Jb
2.J4E-J2 1.536-06 o.9nt-05
43b-
JOE-
-.5E-
12e-
73E-
7oE-
7ic-
775-
77E-
•J2 1.57E-
•J3 3.J3E-
•J3 5.95e-
•05 2.i2£-
• Jj 5.3»£-
•05 1.1 It-
•05 l.ddf
•05 2.55E-
•05 2.7ob-
•03 2.-iiE-
J3 l.25b-
•05 8.9JE-
79E
•t9E-05 9.13E-
•Ob 3. llc-
•05 7. I3t-
•05 1.3db-
•05 2. 7J£-
04 6.oOc-
•04 2.4-.C
•J3 5.3i
•03 8. 53
•J3 1. lot
•03 1.
•JJ I.
03 5.
•J-. *.
05 2.
1=1 4. Ijb
04
04
03
Oj
03
-0*
Pi-ilJ PB-211
l.o7E-Jtt 1.17E-03
2.34C-Jd 1.53C-03
4.256-Od 2.53E-03
7.13t-Jd 4.05E-03
l.E
1.37E
-05 3.
-05 3.
-05 3.
-Jo 3.
•Oo J.
-Jb 3.
-Ob 3.
•Ob 4.
Uc-ob
PB-212
5.51E-02
5.806-02
6.12E-02
6.0JE-02
••.04E-02
2.50E-02
9.57E-Os
5.7->E-04
5.33E-05
4.9JE-05
4.906-05
4I90E-J5
4.90E-05
4.93E-05
Pfl-214
2.23E-OI
2.24E-07
2.28E-07
2.36C-07
2.62E-J7
4.13E-J7
i.27c-06
2.14E-05
8.74E-J5
1.4dE-03
3.d2E-03
8.33E-03
1.90c-02
2.-)6t-02
2.IJE-02
S.ttE-05 3.03E-06
6.916-05 2.906-06
•»J-213
3.fdt-05 2
1.076-04 2
1. 736-04 2
3.04b-J4 2
0.97E-04 4
l.JSL-03 9
2.b4b-J3 3
1.2o6-J2 8
2.3-)E-J2 3
i.1JE-J1
,2IE
.24C-
,28E
.3bL-
13b-07
1.
3,
o.
1,
». ..'E-J2 2.
lot--J3
4.0o6-lb 2
. 14E-
.74E-
.4df
.
8.236-05
3.25E-04
1.436-03
3.d2E-03
8.33E-J3
1.90E-U2
2ilOE-U2
5.45E-03
3.03E-06
2.906-00
PO-218
2.23E-07
2.246-07
2.28E-Or
2.36E-07
2.62E-07
9.4BE-07
3.27E-06
2.14E-J5
8.746-05
3.25E-04
1.48E-03
3.82E-03
8.336-03
1.90E-02
2.96E-02
2.10E-J2
5.45E-J3
3.03E-06
2.906-06
dl-211
1.17E-03
1.536-03
2.J5E-J3
b.>.0t-03
1.02c-02
1.216-02
1.20L-02
1.2-E-02
I. 2 IE-02
1.13C-02
l.02b-02
d.2oE-03
4.
3. I 1E-04
7.13E-J4
1.3dE-J3
2.70t-03
b.boc-03
1.28E-02
5.316-02
8. 3jt-02
1.166-01
i.llt-01
4.05E-02
2.0bb-03
4.15t-lo
BI-212
5.51E-02
5.80E-02
6.12E-02
b.OOE-02
5.43E-02
4.04E-02
2.50E-02
9.57t-03
5.79E-04
S.3IE-03
4.90E-05
4.90C-05
*.90E-05
4.9JE-05
4.SOE-OS
4.91E-05
4.93E-OS
4.966-05
S.44E-05
6.91E-05
R.M-219
1.176-03
1.53E-03
2.556-03
4.0SE-03
6.40E-03
1.02E-02
1.21E-02
1.26E-02
1.25E-02
1.24E-02
1.216-02
1.13E-02
1.02E-02
B.266-03
4.4BE-J3
1.82E-03
5.026-04
5.02E-04
t.-,66-04
4.5bE-04
61-213
5.596-05
6.94E-OS
1.10E-04
1.7TE-0*
3. 116-04
7.136-04
1.38E-03
2.706-03
6.606-03
1.2B6-J2
2.**E-02
5.31E-02
8.536-02
1.166-01
1.25E-01
1. 116-01
5.70E-02
4.056-02
2.06E-03
4.15E-16
RN-22O
5.51E-02
5.806-02
6.126-02
b.OOE-02
5.436-02
4.04E-02
2.506-02
9.57E-03
5.796-04
5.33E-05
4.90E-05
4.90E-05
4.9db-05
4.4Jc-J5
4.90E-05
4.91E-05
4.S36-05
4.96E-05
5.44E-05
6.91E-OS
-------�
Table 06. Coot'd.
TEA*
I.JE Jj
2.0E JJ
5.Ot JJ
l.JE 01
2.Jc Jl
S.Jc Jl
l.Jc "2
2.JE 02
5.0= 02
l.JE J3
2.Jc J3
5.J£ 03
l.JE J4
2.JE J4
5.0E «4
l.Jc O3
5.JL 35
l.UL Jb
l.JE 07
l.JE Od
rtAR
l.Jt JO
2.UE JJ
5.JE jj
l.JE 31
2.JE 01
5.Uc 01
l.u( J2
.\<,t
-05
-05
02
02
J2
5,
o,
1,
4.04E-J2 7.
I .
-03 2.
-J« 6.
•J3 1,
-05 2.
4.YOF-J5 5,
«..9Jt-J5 J,
4.91E-J5 1.
5.)0b-
• I5c-la b.3d£-Jb 4.5ot-J*» o«
M-22-J H-2U TH-231 1
,5lc-03 2.60b-0b 3.91L-OU t,
.93E-05 2.34E-Ob 3.91c-ub •>.
.IOE-04 3.5aE-Ob J.9lt-0o «.
.77E-OH <>.j4E-Ob J.91t-Ou •».
.UE-J'. 7.5JE-00 3.9lc-0o».
,l3b-J3c)E-03 j.4o£-03 3.92L-Ou 4.
,70b-03 7.73E-05 3.9«,C-Oo ..
2SE-J2
.3U-
53E-
tbE-
llb-
70b-
02
02
01
Ul
02
6.9JE-J5
2.0it-J3
4.33E-0* 4.5-»c-06
l.OOF-03 o.3lc-Jo «.
9.32E-03 l^rtt-Ot *.
1.97E-02 3.2vt-U«. .
2.0db-02 5.02b-0db-07 *,
3.27E-06 <,,
2.14E-OS 4.
U.74E-05 4.
3.25E-04 4.
l.sdE-03 4.
3.d2E-03 <.,
8.33E-03 4.
1.93E-J2 4.
2.96C-02 4.
2.10E-J2 4.
3.45E-03 4.
3.03t-06 5.
AC-225
5.59£-0>
I.IOE-04
1.77E-01
3.11E-04
7.13E-U4
1.3HE-03
2.70E-03
6.60E-03
67E-03
t51t-03
12E-03
90E-04
77E-04
92E-05
94E-05
90E-05
90E-05
9JE-05
90E-05 5.31E-02
•JOb-05 d.53E-02
90E-05 1.16E-01
90E-05 1.25E-01
^lb-05 l.llb-Ul
93E-OS 5.70E-J2
96E-05 4.05E-U2
44E-05 2.06E-J3
AC-^27
l.laE-03
1.53E-OJ
6.39E-03
I.O2E-02
1.2 IE-02
1.25E-J2
1.2 IE-02
1.13E-02
l.O^t-02
d.26E-03
4. 4dc-OJ
l.b2E-OJ
AC-228
1.67E-03
1.51E-03
1.12E-03
6.90E-04
2.77E-U4
5.92E-05
4.91E-05
4.VOE-05
4.9JE-03
4.90E-05
4.90E-05
4.93E-J5
4.90E-05
4.90E-O5
TM-227
1.15E-03
1.51E-03
2.51E-03
3.99t-03
6.31E-03
l.Clc-02
1.206-02
1.24E-02
1.23E-02
1.22E-02
1.1SE-02
1.12E-02
l.Olk-02
R.15E-03
2.90E-06 6.91E-03
IE-05 1.7 4.93E-03 4.93E-J4
3.O2E-04 4.96E-05 4.95E-04
4.Sde-U4 5.44E-05 4.91E-04
4.30C-04 b.4lE-05 4.49fc-04
PA-231
.26E-02
.26E-32
.2oE-02
.2oE-02
.2bE-02
•26E-02
•24b-02
.21E-02
•13E-02
.U2E-02
8.266-03
4.47b-03
l.blE-03
5.02t-04
t.9dC-0db-
,39e-
•u1* 6
•111 6
•10 6
l.^Jb-
07 1
07 1
07 I
07 2
07 i
01 5
06 I
2.90E-Ob
,53b-
, 73t-
40E-
alt
49fc-
Vtb-
10 S.
10 3,
10 2.
U 9.
10 3,
10 4.
10 2.
10 7,
U 9.
10 0.
10 0
10 0.
09 0,
09 0.
0V 0.
09 0,
0-232
.30E-02
.24E-02
.ObE-02
.77E-02
.93E-02
.43E-02
.27E-03
.lbE-04
.76E-10
.H9E-23
!o
.0
.0
.0
.0
.0
.0
U-2J3
I41E-01
.41E-01
.41C-01
.41E-01
.41E-01
.41E-01
,3-JE-Ol
.37E-01
•13E-01
.23E-01
.08E-01
.51E-02
.92E-02
.06E-03
.15E-16
-------�
Table D8. Cont'd.
Curies Per Kilogram of Actimdes In High Level Waste
Yi**
l.OE JO
2. OF 00
5.JC 00
l.JE 01
2.Jt Jl
S.Jt Jl
l.OE 02
2.0E 02
».J£. 02
1. Ok 03
2.JE J3
5.JE 03
l.JL 04
2.0k 0*.
S.OE 04
l.JC 03
5.JE OS
l.Jt Ou
l.JE 07
l.JE 03
YE4*
l.OE OJ
2.0fc 00
5.UE 00
l.OE 01
2.JE 31
5.JE 01
l.OE J2
2.0L 02
5.JE 02
l.Ot 03
2.0E 03
5.3E 03
l.OE 04
2.JE 04
5.JE 04
l.Jt Ji
5.0E OS
l.OE 06
l.JE 37
l.OE 03
J-J3*
2.7oE-J2
2.785-02
2.d»t-J2
2.93E-J2
3.2Jt-J2
3.7os-J2
4.-,9c- )t
S.31E-J,;
5.i)5c-J2
o.03b-j
3 .-42k-0o
3. -it E- Ob
•» .J7£- 06
t.SC-j<>
5.37E-J"t
i.<.,e-ia
S.Bst-37
O.J
0.0
U-236
I.92E-04
1.92t-04
l.
2.3it-a-.
I.07E-0-.
a. 3ic-u*
>. dot-Ob
».57E-j!>
5.4.ȣ-Ji
S.2JC-05
4. 7dfc-0s
3.7^-L-ji
2. tst-JS
l.OoE-Oi
8. 5<>c- j7
1.2-.9Jt-J7
l.alc-J6
2.49E-JO
2. 4-.C-JO
i. 4Ut-06
Pj-244
t.20b-13
o.J 7b-13
2.J'Jb-l^!
1. ldE-12
d.3oc-l^
i.O-*C-l I
4.1bE-l 1
O.Jot-l 1
<:.o^E-lo
E-u2 4.6 IE 01
3.2->t-02 4.60E 01
3. 34E-02 4.5«c 01
3.43E-02 4.S«E 01
3.03E-02 4.42E 01
3.93E-02 4.22E 01
4.01E-02 3.45E 01
4.2 If -02 2.94E 01
4.WE-02 1.67b 01
4.64E-02 7.54E 00
4. 7oE-32 4.98E-01
4. 70E-02 S.37E-03
4. 1 JE-J2 9.12E-Oa
3.&1E-02 8.93E-00
1.9JE-03 b.lOE-06
4.1St-lb l.3oE-07
AM-2t2N AM-242
l.bSE 00 l.oSE 00
I.b4e 00 1.04k 00
1.62E 00 1.62E 00
1.5dE 00 l.SdE 00
l.ilE 00 1.S1E OJ
1.J2E 00 1.32E 00
LOSE 00 LOSE 00
b.bSE-01 b.oSE-01
Lb9E-Ol 1.09E-01
1. 73F-02 1. 73E-02
1.J1E-04 L81E-04
2.07E-10 2.07E-10
2.oOE-20 2.60E-20
4.0sE-40 4.05E-40
0.0 o.O
0.0 0.0
0.0 0.0
0.0 0.0
0.0 u.O
0.0 U.O
NP-2*J1
4.20E-13
8.36E-13
2.09E-12
4.17E-12
8.3SE-12
2.09E-11
4.17E-11
B.3SE-11
2.09E-10
4.17E-U
8.33E-10
2.0UE-04
4.13E-U9
8.19E-U9
1.99E-od
3.79E-Od
1.32E-07
1.81E-07
L9oE-OI
9.22E-OU
AM- 243
4.62E Jl
4.02E 01
4.62E 01
4.62E Jl
4.61E 01
4.60E 01
4.58E 01
4.54E 01
4.42E Jl
4.22E 01
3.8SE 01
2.94E 01
1.87E 01
7.54E 00
4.98E-01
5.37E-03
9.12E-UO
8.93E-JO
6.10E-06
L36E-07
?J-^Jb
d.21E-Oa
o. 44b-05
3.10E-05
9.20b-Uo
U.UBc-07
5.47E-10
^.noE-lS
7.62E-2&
1.59E-57
0.0
0.0
O.J
O.J
3.0
0.0
0.0
J.J
O.O
0.0
J.O
»1-244
5.4bE-lb
1.09fc-ls
2.72E-13
5.43E-li
L09E-14
^.72fc-U
S.t3E-14
1.J9C-13
2.72E-13
5.43t-l3
l.Oek- i2
2.70E-12
5.38C-12
LJ7E-11
2.S4E-I1
oE 02
B.19E 00
1.30E 00
1.24E 00
LOSE OU
8.61E-01
5.46E-01
1.39E-01
1.42E-02
1.48E-04
1.70E-10
2.13E-20
3.33E-40
0.0
0.0
0.0
0.0
0.0
0.0
-------�
Tkble D8. Cont'd.
Curies Per Kilogram of Actinides In High Level Waste
rfcAR
l.OE OJ
2.0t OJ
b.ub JJ
l.Jb 01
2.0L Jl
5.0t Jl
l.OE 02
2.ot J2
5.06 02
l.OE J3
2.Je 03
5.JE OJ
l.JE 04
2.JE 04
S.OE J4
l.jt J5
5.0b 05
l.Jt Ob
l.JE J7
1.3E J8
VbAR
l.Ot OJ
2.0E OJ
S.OE JO
l.OE 01
2.0E 31
S.OE Jl
l.OE 02
2.0E 02
S.Oc 02
l.OE 03
2.0E 03
S.Ob 03
l.OE 0<>
2.0t 04
5.JE 04
l.OE OS
S.OE 05
l.OE J6
I.Ob 07
l.OE Od
CH-243
9.45b JJ
9.25t JJ
d.bbt JJ
1.1 at jj
b.2b£ JO
3.27b JJ
I. lit JJ
1.27E-JI
1.9le-J4
3.776-JS
l.47£-id
d.Sje--'* 7
O.J
3.0
J.J
0.0
0.0
J.O
0.0
J.O
CF-^S1
4.25E-J:>
4.2SE-J5
4.,!4fc-J:»
4.22E-JS
t.HE-Jb
4.09fc-Jb
3.94F-JS
J.bSE-jj
2.09E-J5
1.97E-.0
9.12c-oo
9.04fc-J7
l.92e-J8
d.6db-li
o.OJE-22
l.Slb-33
0.0
U.J
0.0
0.0
C^-244
1 .596 04
1 .53E JH
l.37t 04
1 .13c Ot
'.!>•»£ J3
2.4-.E Jj
-».>9E 02
7.7ic 00
7.-E-1J
l.JiJc-l<
2 .foE-12
J.33fc-12
1.37E-11
2.j9e-ll
•..JjE-11
I .72t-10
2 .3oE-U
2.55e-lO
1 .20E-10
Ch-252
1.3dc-02
1 .OoE-J2
4.34E-J3
I.JIE-J3
•).ilE-Jb
j.Ei/t-Jd
f .SlE-Kt
3.15E-25
2.31E-54
J.O
J.O
O.J
J.J
J.J
J .J
J.O
J.J
J.J
O.J
0.0
2.35E JO .bob JO
2.35E .10 .bat JO
2.3t>E JO .bac OO
c 00 .6/c ju
2.33E JJ .oic JO
2.31E JU .oib 00
2.2hE JO . 5ctc JO
2. 1 oE JJ . •OL Oj
1.94E OO 1.2JC 00
1-55E OJ ,-i. J5£-ol
l.OJE OO 3.3oc-01
t.4JE-01 d.flac-Ot
3.3?E-0<: l.J7c-Jj
5.3SC-J4 0.3JE-J7
1.44E-1 a 5. 5tc-20
d.d jb-37 b. I2c.-t6
0.0 0.0
J.J O.u
CF-253 CF-«:a»
7. l«»E-li e.-. 0
0.0 0.0
0.0 O.J
O.J O.J
O.O J. 0
U.O 0.0
^<4-247
ilsiE-Oo
9.31E-J6
4. 3 It -Jo
9.3lb-0o
*.3U-Jo
•J. Jit-Ob
4.3 Ib-uo
9.3lb-Jb
9. Jib-Ob
4.3 U-Jo
4. ) It-Jo
4.31L-J6
4.J1C-JO
9.30E-00
4.^4E-Oo
9.2?L-JO
•y. l^E-Ob
d.43t-0b
o. loL-Jo
l.3ot-07
ti-233
7.7^b-lo
. J3t-31
I.57c-i7
J.O
0.0
J.O
J.J
0.0
J.J
J.O
J.O
J.J
J.O
J.O
J.J
O.J
J.J
J.J
O.J
Cri-243
S.4OE-2J
4.30E-39
0.0
0.0
O.J
O.J
0.3
0.0
0.0
0.3
0.0
0.0
0.0
3.0
0.0
0.0
0.3
0.0
0.0
CM- 2 50
2.50E-11
2.5JE-11
2.50E-11
2.50E-11
2.SOE-11
2.49E-11
2.-.9E-H
2.48E-11
2.*iE-M
2.t3E-ll
2.31E-11
2.05E-11
l.bdE-11
1.13E-11
3.<>lc-12
4.t5b-13
5.b3E-2J
0.0
0.0
J.O
BK-249
9.04E-02
1.03E-02
3.59E-03
6.37E-03
2.01E-ud
b.2bE-19
1.94E-3b
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
O.J
3.0
J.O
0.0
0.0
BK-25G
2.50E-U
2.50E-11
2.50b-ll
2.50C-11
2.SOE-11
2.44C-11
2.«9b-ll
2.4db-ll
2.4SE-11
2.40E-U
2.31E-11
i. j>£-ll
l.bdb-11
l.Ut-ll
J.tlt-12
4.b3b- 1J
S.SdE-20
b. 17fc-2b
0.0
U.O
CF-249
5.33E-04
b.54b-04
7.39E-04,
7.41E-04
7.26E-04
6.8SE-04
6.20E-04
S.10E-04
2.82E-04
l.OSE-04
1.47E-05
4.JJC-08
2.12E-12
5.92E-21
1.30E-4b
0.0
0.0
0.0
0.0
0.0
CF-2SO
-------�
Table 159. Significant Actinide Activity From HTGR Plutonium Fu«-l Cycle - Recovered Uranium
YEAR
l.OE JJ
2.Ob OJ
S.OE OJ
l.DE Jl
2.0fc Jl
b.J£ Jl
I.JE J2
2.JE 02
S.Jk Oi
I.JE J]
2.0E J3
».Jt Jj
l.OE 0".
J.Jfc J4
l.Jc Ji
S.OC OS
l.Jt ub
I.JE J7
l.Jt J8
YEAR
l.Oc JJ
2.0E JO
S.OE 00
l.Ot Jl
2.Jt Jl
S.JE Jl
l.Jc J2
2.Jc J2
S.JE 02
I.JE JJ
2.0E 03
S.Jt 03
I.JE J4
2.ob 04
S.JE J4
I.JE 03
S.JE JS
I.JE J6
I.JE J7
l.Jt 08
Curies Per Kilogram of Recovered Uranium
TL-207
2 . 4 3r. -1 J
3.S9C-J-J
2.Jlb-Jd
•).b7t-Jd
2.70t-J7
1.79t-J3
3.odE-J3
7. S3c-Ju
i.o2e-J5
3.4oc-J3
l.lsr-J-.
l.lOb-J-.
l.di!F-J-,
1. 7oC-J-«
fL-CJd TL-2J9
3.£JE-J1 1-0'e-JS
5.-.2b-Jl 2.1de-US
d.olE-01 3.4Se-u5
•*.jlE-Jl 1.0-iE-Ut
d.**uC-Jl 2.1JC-04
S.71E-01 S.43E-J4
4.15E-JI l.iHE-03
1.33E-01 2.lo£-J3
o.olE-03 5.3lt-J3
3.J2E-J9 I.9ac-u2
^.Jtk-10
2.4dc-J3 3.
2.4/b-Ji
.dlt-j2 3.4ut-J3
1.57t-j9 o.dbt-02 3
3.14C-J9 9.2Jt-J2 4,
7.i3t-J* 9.SJE-J2 4
l.3?c-Jo /.iJ6-J2 3.
/.3jc-Jd 1.41E-02 b,
1.33E-J7 1.30F-J3 7
l.3o=-Jo 2-J2c-l3 9,
.71E-J1 1
,9oc-Jl I
.93C ju i
, I2c 00 3
, 2Jc JO 1
, 3ot uu <•
,1ot uu j
4JC-J1 <•
.S/c-u2 1
BI-21-, Pu-21J
2.JOC-J-* i .Jit- 12
9.53F-J9 1.J2E-1J
5.95E-JS 2.2di-09
2.3oE-J7 2.J4E-J8
9.5JE-J7 I./Vt-J7
2.35£-J» 1.3*E-JS
S.S4C-J<> 4.93b-J4
2.06E-J3 l«-)5c-03
7.2JC-J3 7..'i6E-Ob
o.^9E-06
PB-212
8.89E-J1
l.SOt 00
2.3-SE 00
2.b7E 00
2.4VE OJ
Look OO
1.1St OJ
2.4SE-J2
1.94E-04
l.3"»E-Jd
4.37E-09
8.7jE-09
2.18E-J8
2.17E-07
3.79E-00
P3-214
6.12E-LI
2.44E-10
1.47b-09
5.61F-J9
2.03b-J3
9.70E-08
2.71E-07
O.SJE-J7
1.3JE-Oo
3.70E-06
7.SSE-06
1.83E-OS
3.47E-J5
b.2d£-09
1.18E-04
1.8JE-04
1.79E-04
PB-214 BI-210
2.
9.
38E-09
53E-09
S.9SE-08
2.
t.
5.
2.
9.
5.
38E-07
30E-J7
91E-Ob
35t-OS
26E-OS
S4E-0*
2.06E-03
7.
3.
d.
1.
4.
6.
4.
1.
6.
6.
23E-03
ldt-02
lJc-02
76E-01
JOE -01
22fc-01
42E-01
14C-01
Se.F-06
29t-J6
2
2
3
2
1
2
1
6
4
1
•
•
.
.
•
B
•
.
•
•
S6E-11
04E-10
13E-09
41E-Od
7-
^
.,
^
ai-2ii
•
•
.
•
.
m
m
o.
1
j
7
1
3
b
1
1
1
i
1
1
•
•
.
•
•
.
•
m
m
m
.
•
12E-11
44E-10
47E-09
olL-09
JJb- JO
/OE-Od
7 1E-07
50t-07
dOE-Oo
70c-Je>
5>b-06
dJb-US
47E-JS
2dE- Ob
ldt-J4
39C-04
dlE-u4
UJE-04
79b- J4
o4t-04
8
I
2
2
2
1
1
4
2
1
1
2
4
8
2
4
2
4
3
1
PU-2ld Af-217
•
•
•
m
•
•
•
.
•
38E-09
S3E-J9
9SE-Od
38E-U/
iOE-07
91E-Ob
35E-05
26E-05
54E-04
2.06E-03
7
3
8
1
4
6
.23E-u3
•
•
•
•
.
18E-02
10E-02
76E-01
OOE-J1
22E-01
4
•i
i
if
3
.
•
m
m
•
9St-O4
91E-04
4db- OJ
^Sb-UJ
90h-OJ
2.47E-02
4
9
2
4
o
1
i
4
4
3
•
•
•
•
•
•
•
•
•
.
4.42E-U1 o.
1
6
•
•
14E-01
SbE-Ub
b.29E-uo
7
V
1
m
•
•
93E-J2
dlc-02
42E-01
7lt-0l
4oE-Oi
9Sh 00
l^t 00
2 Ob OJ
JoE OJ
•joB UJ
4JC-01
57E-02
ISt- 12
dSE-24
6
2
1
S
2
9
2
6
1
3
7
1
3
b
1
81-212
•
•
•
•
,
•
•
.
•
•
m
m
.
•
•
•
•
•
•
•
89E-01
iOE 00
39E 00
67E 00
4VE OO
86E 00
1SE 00
40E-01
4SE-02
996-04
39E-Od
ldE-09
37E-09
73E-09
ldE-03
3ofc-Jd
1 7fc-U7
30E-07
79E-06
42E-05
4
9
2
4
9
2
4
9
2
4
a
i
3
4
4
3
b
7
9
1
RN-ZL9
.
•
.
•
•
•
•
•
•
•
•
•
.
•
•
•
.
•
•
•
12E-11
44E-10
47E-U9
blE-09
03E-Od
70E-08
7lt-07
SOE-07
8JE-06
70E-06
SSE-Ob
83E-05
47E-09
28E-05
18E-04
59E-04
8 1E-04
80E-04
79E-04
64E-04
a
i
2
2
2
1
1
4
2
1
1
2
t
a
2
4
2
4
3
1
81-213
4.95E-J4
9.91E-04
2.48E-03
4.9SE-03
9.90E-03
2.47E-02
4.13E-02
9.8U-02
2.42E-01
4.71E-01
8.9dE-01
: JO
3.12E 00
4.20E 00
4.3bE 00
3.56E 00
6.43E-JI
7.57E-02
9.19E-12
l.d5E-24
RN-220
8.69E-01
1.50E 00
2.39t 00
2.67E 00
i 00
1.86E 00
l.liE JO
4.40E-01
2.4SE-02
1.99E-04
1.396-08
2.18E-09
t.37E-09
8.73E-09
2.18E-J8
4.3bE-08
2.17E-07
4.30E-07
3.79E-06
1.42E-OS
-------�
Table D9. Cont'd.
Curies Per Kilogram of Recovered Uranium
YEA*
l.JE JO
2.0E 03
S.Oc 03
l.JE Jl
2.0t Jl
S.Jc 31
l.JC 32
2.3C 32
5.3t 32
l.JE *3
2.0C J3
S.JE 33
l.Jc 3-.
2.JE 0*
S.JC o*
l.JC OS
5.3 = J?
l.Jc Jf>
l.JE J7
l.JE OS
YsAR
l.Jfc JO
2.JE JO
b.OE 00
l.JE 31
2. Ob ul
S.JC Jl
l.JE 02
2.0E J2
5.j£ 02
l.u£ 03
2.JE w3
S.JE 33
l.OE 0%
2.JE J<>
S.JE J<>
l.OE Ob
S.Jb Ob
l.JE Ob
l.OE 37
l.JE 03
RN-222
£ .JOC-JV
9.53E-07
S.95b-Jd
z.jar-o/
•J.1JE-J7
5.91£-Jo
2.J3L-J5
•».2bc-0a
S.b*c-3t
2.0£i«=-J3
7.23C-J3
3.:de-J2
3.1 Jl-J.43c-02
9.dlt-02
2.42E-01
-.71E-01
d.9oc-ol
l.-»3e 00
3.1 2 E OJ
*.2JE JO
».lo£-09
2.S2E-OB
S.I 7E-Od
1.0oE-J7
2.SaC-07
<..doE-J/
b. 7-*e-07
1 .Li JC-O6
2.23b-0b
2.i Jb-Ob
2.5>E-06
?.30E-Ob
2.24b-06
TH-230
1. 10E-US
2.2 JE-05
!>.bO=-05
1. 10c-0
S.SOe-O-.
1.10E-J3
2.20c-03
S.4dt-03
1.0-VE-02
2.1 fE-02
5.ibE-02
l.J<.E-01
1.9b£-Ul
<>.1< 2.34t JO
S.61b-0t 2.b/c JO
2.J3c-Od 2.<>9b 00
S. 7JL-UO i.dbc DO
2.711-07 1.15E 00
6. 5Jt-o7 't.iOc-Jl
l.SOL-Ob 2.<.ic-02
3. 7oc-0b 1 .9-Jc-O*
1. Sac-ob l.J-Jc-Jo
l.83t-os 2. ldc-0-*
3.^/c-Oa *.37c-o9
b. 20C-US d. 7jb-O9
!• loc-U* 2. Idc-Od
l.S4t-0<> <..JoE-Jd
1. 8tb-0i 2. 1 fc-07
l.djfc-04 «.30E-J7
1. 71E-0'. 3. 7*E-Oo
l.btc-u. !.<>2L-k.S
TH-..J1 Ir«-2j2
l.Blc-J-i 2.1dE-10
1.81E-U4 1.42E-U5
SA-225
4.95E-0*
9.91E-0*
<.<>dE-03
<>.4!>E-U3
V.90b-03
t.'.Ti.-Qi
*. UE-0^
9.dlE-02
i.^2b-0l
<.. 71E-01
o.*dt-Ol
1.9SE 00
J.12b 00
bE OJ
0.-.JE-JI
7. J7E-02
9. I9t-12
l.d&E-^*
fn-23«.
6. J9E-06
O.i9£-06
u.39b-O6
0.39E-06
b.39E-Ob
b. j9E-06
6.>9b-06
c .39E-Oo
0.39b-06
b.>-*E-Jb
o.39E-Ob
p.JfE-Ob
o.3VE-Oe>
C.3VE-06
t..j9E-Ot>
0.39c-0b
6.J-VE-06
6.3dc-06
o . J8E-00
6.29E-06
RA-226
2.38E-09
9.S3E-09
5.95t-08
2.3KE-07
9.50E-07
S.91E-06
2.3SE-OS
9.26E-OS
5.5<-E-0!>E-06
I.B3E-OS
3.*7E-J5
6.27fc-35
l.ldE-J<.
l.S'E-O*
1.81E-0*.
l.dUE-0<,
1.79E-04
l.3«E-0«
SA-228
2-ldE-l*
d.<><>E-l
6.39E-00
6.39E-J6
6.39E-Ob
6.39E-0&
b.39E-Ob
6. 39E-00
6.39E-00
6.39E-Ub
6.39E-00
6.39E-JO
b.39E-Ob
b.39E-Ob
S.39E-Oo
6.39E-06
6.39E-00
b.38E-Ob
fr.38E-Ou
6.29E-00
AC-227
6.12E-H
2.43E-10
1.47E-09
S.oOC-09
2.03E-08
9.69E-06
2.70b-07
b.50£-07
l.doE~u6
3. 70b-0b
7.55C-06
l.d3E-05
3. *7c-0b
o.2E-05
6.19E-OS
1.17E-04
1.57E-04
1. 78E-04
1.78E-0*
1. 7bE-0*
1.6ZE-0*
U-233
S.22E JO
S.22E JO
S.21E 00
b.2lE 00
S.21E 00
S.21E 00
5.21E 00
S.21E 00
5.20E 00
S.19E 00
S.17E 00
S.10E 00
S.OOE OJ
4. 79E 00
<..2lb JJ
3.
-------�
Table D9. Cont'd.
Curies Per Kilogram of Recovered Uranium
CO
Co
YEA? U-234
I.Ob
2.J£
S.uE
l.OE
2.0E
5.3E
l.JE
2.DE
S.3E
l.JE
2.JE
5.3E
l.J£
2.JE
S.JE
1.3E
5.0E
l.OE
l.OE
l.OE
00
00
00
31
01
01
32
J2
02
33
03
03
3*
0+
34
OS
OS
06
.27E 30
.2 It 00
.27E 00
.27£ 00
.27£ JO
.27fc JO
.27C JO
.?7£ JO
.27E 30
.27E 00
.2oE UJ
.25E JO
.23E JJ
.2JE 00
.IbE JO
.59E-01
• 12b-O 1
.67E-02
07 o.38t-J6
08 6.29k-06
1
1
1
1
1
1
1
1
1
1
1
1
I
1
1
1
1
I
1
1
J-235
.816-0*
.31 6— *H
.BlE-04
.8 IE-0*
.81E-0<.
.81E-0*
.4 l£-0»
.3 lc-34
.dlt-04
.4 lb-0*
.dlE-04
.9 1E-04
.dlt-J-V
.dlc-04
.81E-04
.81E-0*
.8 1C-0*
.79E-04
.64E-04
U-236
d.ddE-03
a.ttdb-03
8.88E-03
3.d-tt-J3
d.dBE-03
&.88E-03
B.tf.st-03
3.o3C-03
a.adb-03
d.ddE-03
d.ddE-03
8.dUE-03
d.ddE-3 j
d.ddE-03
B.H7E-03
8.B6E-03
8. 75E-03
6.i3E-Oi
6.6-.E-03
*.88£-0*
1.
b.
0.
U.
0.
0.
U.
J.
0.
0.
0.
U.
J.
0.
0.
0.
0.
0.
U.
0.
U-247 J-233
2db-in
Sdk-3S
0
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