| P01/1 |
EC cost-shared research activities
on severe accidents under the framework programme 1994-1998
G. Van Goethem, G. Keinhorst, J. Martin Bermejo and A. Zurita
|
| P01/2 |
Status of investigations on
hydrogen management measures in German light water reactors
Th. Fröhmel and J. Rohde
|
| P01/3 |
Large scale combustion tests
in the RUT facility: Experimental study, numerical simulations and analysis
on turbulent deflagration and DDT
S.B. Dorofeev, V.P. Sidorov, W. Breitung and A. Kotchourko
|
| P01/4 |
Physical analysis of combustion
tests in the RUT facility and simulation of the detonations
P. Armand, J. Vendel and P. Galon
|
| P01/5 |
Use
of RUT large scale combustion test results for reactor applications
E. Studer and M. Petit |
| P01/6 |
General
description of the great Devnya's accicent of a gas explosion
V.A. Dzhupanov |
| P02/1 |
Scaled experiments for a simple
deformable structure under liquid slug impact
T. Stach, T. Malmberg and R. Krieg
|
| P02/2 |
Analysis of slug impact against
the reactor pressure vessel head
B. Dolensky, B. Goller and R. Krieg
|
| P02/4 |
A steam explosion assessment
by thermal hydraulic and mechanical linked computations
N. Vivien, M.F. Robbe and M Valette
|
| P02/5 |
Steam explosion load capacity
VVER-1000 NPP reactor cavity
P. Varpasuo
|
| P02/6 |
LMR's
whole core accident. Validation of the PLEXUS code by comparison with MARS
test
Y. Cariou, M. Lepareux and H. Noe |
| P03/1 |
Thermomechanical analysis of
NPP core catchers behaviour using non-linear numerical models for concrete
at elevated temperatures
G. Heinfling, J.M. Reynouard, O. Merabet, C. Duval and Y. L'Huby
|
| P03/2 |
Experimental
results on concrete-melt-interaction within the large scale COMAS project
M. Sappok, W. Steinwarz, E.P. Warnke and G. Langer |
| P03/3 |
Development of a reactor vault
concrete structure able to withstand liquid sodium at high temperatures
J.F. Dirat, N. Badez, Ch. Casselman and J.M. Humbert
|
| P03/4 |
Thermo-mechanical properties
of concrete structures under high temperature conditions
I. Janotka and T. Javor
|
| P03/5 |
VVER 1000 containment behavior
under severe accident loading
L. de Marneffe, V. Morozov, I. Kalinkine and P. Vizir
|
| P03/6 |
Stability
evaluation of PWR containment steel liner for given flaws by use of 2D and
3D FEM computation
O. David, J.M. Humbert and C. Duval |
| P03/7 |
LMR large accident analysis
method
Y. Cariou, J.P. Purus and C. Avallet
|
| PW/1 |
Thermal loads on the RPV lower
head in case of severe accident with core melt relocation
C. Caroli and J.P. Magnaud
|
| PW/2 |
Crust instability effect on the
vessel thermomechanical behaviour during a PWR severe accident
J.M. Gatt and V. Diaz
|
| PW/3 |
Study of the mechanical stability
of a PWR vessel during a severe accident by a finite element method of
homogeneization
V. Diaz, J.M. Gatt and B. Peseux
|
| PW/4 |
Rupther - An original experimental
approach for creep failure study of RPV steel
C. Sainte Catherine, Ph. Mongabure, V. Cotoni, L. Nicolas,
J. Devos, Ph. Dupas and S. Bhandari
|
| PW/5 |
Lower head temperature fields for corvis experiments
with oxidic melt
J.H. Fokkens, G. Duijvestijn and H. Braam
|
| PW/6 |
Numerical simulation of a BWR
vessel lower head with penetration subjected to a postulated core damage
accident
D. Azodi and P. Gruner
|
| PW/9 |
Screening calculations on the
vessel lower head behaviour due to an in-vessel steam explosion
M.F. Robbe, M. Lepareux, N. Vivien and G. Cenerino
|
| PW/10 |
Mechanical behavior simulation
of TMI-2 lower head using LOHEY module
L.A. Bolshov, R.V. Arutyunan, V. Strizov, N. Yamshchikov and A.
Boldyrev
|
