Integral Experiments Data, Databases, Benchmarks and Safety Joint Projects
NEA-1684 IFPE/IFA-534.14.
last modified: 06-JUN-2005 | catalog | new | search |

NEA-1684 IFPE/IFA-534.14.

IFPE/IFA-534.14, fission gas release as a function of burnup at high power (52-55 MWd/kg)

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1. NAME OF EXPERIMENT

IFPE/IFA-534.14

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2. COMPUTERS

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Program name Package id Status Status date
IFPE/IFA-534.14 NEA-1684/02 Arrived 06-JUN-2005

Machines used:

Package ID Orig. computer Test computer
NEA-1684/02 Many Computers
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3. DESCRIPTION

The assembly IFA-534 contained 4 rods base irradiated for 4 cycles in the Swiss Goesgen PWR up to a burn-up of ~52 MWd/kg. The rods were re-instrumented with either pressure transducers or clad elongation detectors and re-irradiated between January and May 1998 in the Halden HBWR to a final discharge burn-up of ~55 MWD/kg. The purpose of the experiment was to investigate the effect of fuel grain size on irradiation performance. The rods included in this data sets are rods 18 (22 micron grain size) and 19 (8.5 micron grain size) fitted with pressure transducers from which Fission Gas Release (FGR) was measured both in-pile and during final PIE.

 

In the Goesgen reactor, the rods were irradiated as segments manufactured by Siemens KWU, clad with Zr-4 and filled with UO2 pellets manufactured by GE.

The Halden irradiation was recorded on their Test Fuel Data Bank with measurements recorded every 15 mins of reactor time. The histories were condensed to manageable size by amalgamating adjacent data points if the power changed by less than 1 kW/m. Care was taken that the resulting condensed history faithfully represented the raw data. In-pile measurements of rod internal pressure are given as a function of burn-up as well as a conversion to FGR versus burn-up.

 

Pre-characterization was not extensive but what is available is given here. No interim measurements were made during re-fabrication, only at the end of life. Measurements were made of rod internal pressure and volume, and detailed isotopic composition of the released fission gas. A single radial cross section was cut and examined from each rod. Metallography revealed the presence of high burn-up restructuring at the pellet rim; the grain size and pore size distribution was measured across the pellet diameter and the results reported as average values in 3 additional radial zones.

The results of the experiment successfully demonstrated the effect of grain size on FGR.

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9. STATUS
Package ID Status date Status
NEA-1684/02 06-JUN-2005 Masterfiled restricted
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10. REFERENCES
NEA-1684/02, included references:
- I. Matsson: The Effect of Grain Size on FGR and PCMI in High Burnup Fuel
(IFA-534.14) (Preliminary Results), Halden report HWR-561 (February 1998)
- I. Matsson: The Effect of Grain Size on FGR and PCMI in High Burnup Fuel
(IFA-534.14) Halden report HWR-558 (February 1999)
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12. PROGRAMMING LANGUAGE(S) USED
No specified programming language
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15. AUTHORS

OECD Halden Reactor Project

Institutt for Energiteknikk

P.O. Box 173

N-1751 HALDEN

Norway

 

Compilation: J.A. Turnbull

 

These data were released within the FUMEX-II project.

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16. MATERIAL AVAILABLE
NEA-1684/02
534-R18.HIS   Irradiation histories for re-instrumented rod 18
534-R19.HIS   Irradiation histories for re-instrumented rod 19
FGR-18        File of FGR v.burn-up derived from internal pressure, rod 18
FGR-19        File of FGR v.burn-up derived from internal pressure, rod 19
PF-18         File of rod internal pressure versus burn-up, rod 18
PF-19         File of rod internal pressure versus burn-up, rod 19
PIE.TXT      PIE data
PRE-CHAR.TXT  Pre characterisation data
README.TXT    Readme file
QA report for IFA-534.doc    QA report
SUMMARY.TXT   Text file giving a description of the irradiation and results
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17. CATEGORIES
  • Y. Integral Experiments Data, Databases, Benchmarks

Keywords: burnup, experimental data, fission gas release, fuels.