论文信息 - Neutronic Studies in Support of Accelerator-Driven Systems: The MUSE Experiments in the MASURCA Facility - 字舞流文

Neutronic Studies in Support of Accelerator-Driven Systems: The MUSE Experiments in the MASURCA Facility

Abstract The MUSE program (multiplication with an external source) is in progress at the MASURCA critical facility at the Cadarache Research Center of the Commissariat à l’Energie Atomique in France. The program is dedicated to the physics studies of accelerator-driven systems in support of transmutation studies of minor actinides and long-lived fission products. It began in 1995 with the coupling of a Cf source in MASURCA and was followed by a commercial (d,T) source. In 2001, a specially constructed (d,D)/(d,T) neutron generator (GENEPI) was placed in MASURCA and the MUSE-4 program commenced. We describe the first phases of the MUSE-4 program, with data presented that were obtained up to about the summer of 2002. We present some results from the “reference” configuration, which can operate at critical. We present traverses of measured fission reaction rates, with comparison to calculations. Also in the reference configuration, we performed activation foil measurements and present these results compared to calculations. Because a major objective of the MUSE program is to test and qualify methods of subcritical reactivity measurement, we have devoted a major portion of our studies to this area. We have used classical methods (rod drop, source multiplication) to attempt to measure the subcritical level. In these early phases we studied core configurations of around keff = 0.995. Deeper subcriticality (keff = 0.96) was achieved by inserting a safety rod. In addition to the methods mentioned above, we have devoted a lot of effort to pulse neutron source, fluctuation (Rossi-α and Feynman-α), and transfer function methods (e.g., cross-power spectral density). We present our preliminary results of all the methods, with some discussion regarding cross comparison.

G. Rimpault | Y. Rugama | G. Imel | M. Kerveno | D. Villamarin | A. Billebaud | R. Brissot | E. Liatard | F. Perdu | E. Merle | D. Heuer | C. Jammes | F. Mellier | C. Destouches | G. Perret | W. Assal | M. Plaschy | J. Vollaire | C. Le Brun | R. Soule | P. Baeten | C. Domergue | R. Soulé | R. Chawla | G. Rimpault | J. Kloosterman | M. Kerveno | J. Loiseaux | D. Heuer | O. Méplan | P. Baeten | J. Laurens | C. Brun | E. González-Romero | D. Villamarín | Y. Rugama | J. Lebrat | O. Méplan | E. Gonzalez-Romero | G. Perret | A. Billebaud | R. Brissot | E. Liatard | F. Perdu | F. Mellier | C. Destouches | P. Chaussonnet | C. Jammes | J.-M. Loiseaux | J.-M. Laurens | J.-F. Lebrat | H. Servière | G. M. Thomas | R. Chawla | J. L. Klooster | G. Imel | J. Vollaire | P. Chaussonnet | W. Assal | E. Merle | C. Domergue | M. Plaschy | H. Servière | Gerard Thomas

[1] G. Rimpault,et al. Dynamic Measurements and Control of an Accelerator Driven System (ADS) , 2002 .

[2] A. Billebaud,et al. Prompt reactivity determination in a subcritical assembly through the response to a dirac pulse , 2003 .

[3] T. A. Daly,et al. FX2-TH : A Two-Dimensional Nuclear Reactor Kinetics Code with Thermal-Hydraulic Feedback , 1978 .

[4] C. B. Carrico,et al. VARIANT: VARIational Anisotropic Nodal Transport for Multidimensional Cartesian and Hexagonal Geometry Calculation , 1995 .

[5] Y. Rugama,et al. MEASUREMENT AND CALCULATION OF CONTROL ROD WORTHS IN MASURCA , 2002 .

[6] G. Aliberti. Caractérisation neutronique des systèmes hybrides en régimes stationnaire et transitoire , 2001 .

[7] Allan F. Henry,et al. Nuclear Reactor Analysis , 1977, IEEE Transactions on Nuclear Science.

[8] Investigation of neutron source effects in subcritical media and application to a model of the MUSE-4 experiments , 2001 .

[9] M. Kerveno,et al. THE MUSE-4 EXPERIMENT: PROMPT REACTIVITY AND NEUTRON SPECTRUM MEASUREMENTS , 2002 .

[10] J. Hoogenboom,et al. Neutron source strength determination for on-line reactivity measurements , 1988 .

[11] Y. Rugama,et al. Preliminary measurements of the prompt neutron decay constant in MASURCA , 2003 .

[12] C. A. Stapleton,et al. Random Noise Techniques in Nuclear Reactor Systems , 1975, IEEE Transactions on Nuclear Science.

[13] U. Broccoli,et al. Validation of Neutronic Methods Applied to the Analysis of Fast Subcritical Systems: the Muse-2 Experiments , 1997 .

[14] Richard Phillips Feynman,et al. Dispersion of the neutron emission in U-235 fission , 1956 .

[15] J. F. Briesmeister. MCNP-A General Monte Carlo N-Particle Transport Code , 1993 .

[16] G. Imel,et al. FIRST MUSE-4 EXPERIMENTAL RESULTS BASED ON TIME SERIES ANALYSIS , 2002 .

[17] H. Unesaki,et al. General formulae for the Feynman-α method with the bunching technique , 2000 .

[18] G. Rimpault,et al. FOIL ACTIVATION STUDIES OF SPECTRAL VARIATIONS IN THE MUSE4 CRITICAL CONFIGURATION , 2002 .

[19] G. I. Bell,et al. On the Stochastic Theory of Neutron Transport , 1965 .

[20] David L. Hetrick,et al. Introductory Nuclear Reactor Dynamics , 1987 .