Thermomechanical Model developed for the Pebble Bed ......CBBI-14 20060907 JHF 1 Thermomechanical...
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CBBI-14 20060907 JHF 1 Thermomechanical Model developed for the Pebble Bed Assembly applied to other Pebble Bed Mock-Up Tests J.H. Fokkens NRG PPT
Transcript of Thermomechanical Model developed for the Pebble Bed ......CBBI-14 20060907 JHF 1 Thermomechanical...
CBBI-14 20060907 JHF 1
Thermomechanical Model developed for the Pebble Bed Assembly applied to other Pebble Bed
Mock-Up Tests
J.H. FokkensNRG PPT
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• thermomechanical pebble bed model
• application to HCPB in-pile test element
• results HELICA analyses
• next steps
Contents _______________________________________________________________________________________________________________________
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• reliable temperature prediction- feasibility in-pile test module- determination test matrix
• engineering tool- lay-out in-pile test module- determination of gas gap dimensions- determination of pre-compaction procedure- safety evaluation
Thermomechanical Pebble Bed Model (1) _______________________________________________________________________________________________________________________
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• describe observed behaviour- non-linear elasticity- initial compaction behaviour- creep compaction behaviour- strain dependent thermal conductivity of pebble bed
• based on available test data- oedometer experiments
Thermomechanical Pebble Bed Model (2) _______________________________________________________________________________________________________________________
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Thermomechnical Pebble Bed Model (3) _______________________________________________________________________________________________________________________
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HCPB In-Pile Test Element _______________________________________________________________________________________________________________________
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HCPB In-Pile Test Element _______________________________________________________________________________________________________________________
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HELICA Geometry and FE-model _______________________________________________________________________________________________________________________
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HELICA Thermal boundary conditions (1) _______________________________________________________________________________________________________________________
h = 10 W/m2K Tsink = 20oC
h = 145 W/m2K Tsink = 250oC
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HELICA Thermal boundary condition (2) _______________________________________________________________________________________________________________________
h = 84 W/m2K Tsink = 250oC
h = 84 W/m2K Tsink = 250oC
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HELICA Mechanical boundary conditions _______________________________________________________________________________________________________________________
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HELICA Loading conditions _______________________________________________________________________________________________________________________
Schnorr springs (p = 0.09 MPa)
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• thermomechanical model for pebble bed- non-linear elasticity- initial compaction- creep compaction
• generalized plane strain• MSC.Marc Version 2005• gap development at interfaces pebble bed - solids• heat transfer through gaps by purge gas conduction• analysis of complete loading cycles
HELICA Summary of analysis _______________________________________________________________________________________________________________________
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HELICA TC-positions (1) _______________________________________________________________________________________________________________________
2.70
16.5
102.70
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HELICA Results (1) _______________________________________________________________________________________________________________________
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HELICA Results (2) _______________________________________________________________________________________________________________________
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HELICA Results (3) _______________________________________________________________________________________________________________________
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HELICA Results (4) _______________________________________________________________________________________________________________________
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HELICA Results (5) _______________________________________________________________________________________________________________________
mean initial compaction strain
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HELICA Results (6) _______________________________________________________________________________________________________________________
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HELICA Results (7) _______________________________________________________________________________________________________________________
mean creep compaction strain
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HELICA Results (8) _______________________________________________________________________________________________________________________
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HELICA Results (9) _______________________________________________________________________________________________________________________
mean total compaction strain
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HELICA Results (10) _______________________________________________________________________________________________________________________
gap development after cooldown
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HELICA Results (11) _______________________________________________________________________________________________________________________
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• comparison calculated results with TC measurements
• comparison calculated results with deformation measurements
• optimisation of boundary conditions
• improvement of thermomechanical pebble bed model
HELICA Next steps _______________________________________________________________________________________________________________________
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