Global 2001 Conference Paris, France
description
Transcript of Global 2001 Conference Paris, France
An Overview of Radiolysis Studies for the Molten Salt
Reactor Experiment (MSRE) Remediation Project
Global 2001 Conference
Paris, France
A. S. Icenhour, D. F. Williams, L. D. Trowbridge, L. M. Toth, G. D. Del Cul
Oak Ridge National Laboratory
Oak Ridge, Tennessee, USA
865-576-5315, [email protected]
The MSRE was operated from 1965 to 1969 as a test-bed for molten salt reactor technology
• Fuel consisted of LiF-BeF2-ZrF4-UF4
• Initially used 235U, final fuel charge 233U (~ 220 ppm 232U)• Reactor shut down in December 1969—fuel salt drained into
two tanks where it solidified and has remained for more than 30 years
• In 1994 it was discovered that 233UF6 had migrated throughout the reactor piping systems, leading to several very dangerous conditions
• A remediation program was initiated to address the hazards and to remove and store the 233U
Simplified overview of the MSRE systemO R N L D W G 9 9C -12 R
0 10 20
S C A LE (ft)
D R A IN TA N K C E L L
R E A C T O R C E L L
R E A C T O R V E S S E L
O F F -G A S L IN E
VA LV E 5 6 1
H IG H B AY
V E N TH O U S E
H E PAF ILT E R S
M O N ITO R E DS TA C K
C H A R C O A L B EDC EL L
A U X ILIA RYC H A R C O A L
B ED S
C O O L A N T S A LTD R A IN TA N K
F U E L D R A INTA N K S
F U ELP R O C ES S IN G
C E LL
R E A C T IV E G A SR E M O VA L S Y S T EM
S A M P LE REN R IC H E R B O X
Characteristics of 233U
• Relatively high alpha activity (~5000 times 235U, ~0.2 times 239Pu)
• 233U contains an impurity isotope, 232U (concentrations typically in the range 10-1500 ppm)
• A daughter of 232U (208Tl, 2.6 MeV gamma) results in high gamma radiation fields
2 3 25 3 1
2 2 85 4 0
2 2 45 6 8
2 2 0
6 2 9
2 1 6
6 7 8
0 5 02 1 2 2 1 2 2 1 2
8 7 8 3 6 %
2 0 8
6 8 9 1 9 1 3 6 6 5 5 6
0 1 5
2 9 86 0 5
1 0 64
Uy
Th Ra Rn
Po
Po B i Pb
Pb
M eV
M eV
. . . .
.
..
. . .
.
.
.
.
y d s
s
n s m
h
M eV M eV
M eV
M eV
M eV
6 4 %
2 .1 7 M eV
0 .1 M eV
2 0 8
= 2 .6 M eV m
T l
3 0 5.
During the remediation project, a number of needed radiolysis studies were identified
Material Studied Reason
MSRE fuel salt Determine cause of UF6 production
Uranium-laden charcoal Evaluate potential for production ofexplosive CxF compounds
2NaF UF6 Determine amount of pressurizationthat could be experienced in storage
Uranium oxides containingresidual fluorides and water
Evaluate radiolytic effects for long-term storage of these materials
Gamma radiation sources
ORNL 60Co irradiator~105 rad/h
High Flux Isotope Reactorspent nuclear fuel element
~107– 108 rad/h
G age
Valve
Scupper bracket
Tubing
Sta in less stee llifting fram e
Irrad ia tionvessel
SNF e lem enton a cadm ium
lined post
Pool floor
Pool wa ll
Scupper
Pool w ater leve l
OR NL DW G 99C-487
HFIR SNF irradiation
configuration
Typical gas-yield curve for radiolysis experimentsNot all characteristics may be seen
D ose (W -h /g so lid )
G-value = 2.68 x slope
Plateau
Inductionperiod
=# molecules produced
O RNL DW G 99C-6870
100 eV deposited in solid
Gas
yie
ldm
mol
pro
duct
g so
lid
MSRE Fuel Salt
• LiF-BeF2-ZrF4-238UF4 (64.5, 30.3, 5.0, 0.13 mol%) irradiated in HFIR SNF elements
• Pressure monitoring and gas sampling used to quantify radiolytic yields and gas composition
• Measured G(F2) = 0.012–0.02 molecules F2/100 eV, example reactions:LiF + Li· + F·
F· + F· F2
• Induction period observed (i.e., no gas was produced) and maximum damage limit (~2%) demonstrated at high total dose
• Periodic heating of the salt, combined with the presence of F2 produced the volatile UF6 at MSRE: UF4 + F2 UF6
Gamma radiolysis of MSRE surrogate fuel salt (LiF-BeF2-ZrF4-238UF4) in HFIR SNF elements
2NaF·UF6 complex
• 233U sorbed on NaF pellets forming 2NaF·UF6
• Containers of 2NaF·UF6 referred to as “NaF traps”• Two of the traps have been instrumented with pressure transducers• Pressure rise observed for these traps
– UF6 + (,,) UF5 + 1/2F2
– uranium may be reduced further
• Estimated G-values– G(F2) ~ 0.44 molecules F2/100 eV
– G,(F2) ~ 0.02 molecules F2/100 eV (based on work with other fluoride salts, i.e., LiF, BeF2)
Pressure monitoring data for two NaF traps
20
30
40
50
60
70
80
90
100 deg F
0
50
100
150
200
250
psia
10/28/95 07/24/98 04/19/01
Trap 6 Trap 1 Temp. Predict 1 Predict 6
Pressure in NaF/UF6 traps in Bldg 3019, ORNL
Radiolysis of NH3-treated C2.6F
• Fluorinated charcoal in the charcoal bed at MSRE treated with NH3
to remove explosive potential and forming NH4F
• Radiolysis of NH4F can lead to reformation of CxF
• 60Co irradiation resulted in G(gas) ~ 0.24 molecules/100 eV• Gas analyses of the treated charcoal bed revealed products
consistent with the reported results for the decomposition of NH4F (i.e., production of H2 and N2). The material in the charcoal bed was irradiated by both alpha and gamma radiation.
• Results of these analyses used to establish the frequency of retreatment of the charcoal bed with NH3
Gamma radiolysis of UO2F2·xH2O
• UO2F2·xH2O is an intermediate compound formed in the conversion of UF6 to U3O8
• UO2F2·xH2O irradiated in both the 60Co source and in HFIR SNF elements (x varied from 0.4 to 1.7)
• Color change, CO2/O2 production, and U(IV) increase provide evidence that gamma radiation releases oxygen from the UO2F2 matrix: UO2F2 + UOF2 + O
• Oxygen radicals react with other oxygen radicals or carbon impurities, producing O2 and CO2
• G(O2) = 0.007–0.03 molecules O2/100 eV• A steady state was reached in HFIR SNF elements providing a measure of the
damage limit to UO2F2•xH2O • Damage measured by amount of U(IV): 7–9 wt% at 108 rad/h
HFIR SNF element radiolysis of UO2F2 • 0.4 H2O (loaded in helium, dose rate 107–108 rad/h)
10
12
14
16
18
20
22
0 20 40 60 80 100 120 140 160
Dose (W-h/g)
Pre
ssu
re (
Psi
g)
0
0.01
0.02
0.03
0.04
0.05
0.06
0.07
0.08
Gas
yie
ld (
mm
ol/g
)
G~0.01 molecules gas/100 eV
Inserted in new SNF element
Inserted in new SNF element
Before After
Summary of results for gamma radiolysis experiments for uranium oxides with sorbed water
• Samples of U3O8 and UO3·xH2O with water contents up to 10 wt% were irradiated
• In general, little or no pressure increase observed• Sample pressure decreased for some experiments• Little hydrogen produced• Oxygen depleted for many samples
Follow-on alpha radiolysis experiments on uranium oxides with water and fluoride
impurities are being conducted
• Samples are doped with 244Cm
• Samples are designed for long-term pressure monitoring and for periodic gas sampling
Summary
• A number of radiolysis experiments have been conducted in support of the MSRE remediation program
• Results from these studies were used to establish criteria for the intermediate and long-term storage of materials removed from the MSRE