High resolution measurements with miniature neutron scintillators in the SUR-100 zero power reactor

Brunetto, Edoardo Luciano; Vitullo, Fanny; Lamirand, Vincent; Ambrožič, Klemen; Godat, Daniel; Buck, M.; Pohlner, Georg; Starflinger, Jörg; Pautz, Andreas

doi:10.1051/epjconf/202125304029

Cited by 2 publications

(1 citation statement)

References 5 publications

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“…The millimetric size allowed measuring local interpin azimuthal gradients in an experimental channel [70], as well as the impact of fuel displacement using the COLIBRI fuel rods oscillator [71] (see Figure 7). They were also applied to measurements at the SUR-100 reactor of the University of Stuttgart, and for the second CORTEX modulation campaign at the AKR-2 reactor of TU Dresden [23], [72], [73].…”

Section: B Mimi Detectors: High-resolution Interpin Thermal Fluxmentioning

confidence: 99%

Ten springs of experiments in CROCUS

Lamirand

2023

EPJ Web Conf.

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Around a decade ago, a new team rebuilt experimental research at EPFL’s nuclear facilities, and in particular in the CROCUS nuclear reactor. After a broad investigation and open discussions with colleagues from the nuclear community, a number of experiments and research directions were selected. They range from reactor physics to nuclear data, with a focus on instrumentation. We present here the variety of experiments carried out and how instrumentation has been instrumental in these perspectives. Developments on branching or intrinsic reactor noise were made possible thanks to extensive theoretical investigation coupled with the developments of pulse and current modes neutron detection systems, as well as the LEAF gamma detection array. With regard to modulation or perturbation reactor noise, a study of fuel rods vibration was carried out thanks to the unique COLIBRI in-core fuel rods oscillation device; in the VOID experiments, a method was tested to measure the void coefficient with neutron modulation; in the APRHODITE project, the PISTIL rotating absorber, or absorber of variable strength, was used to determine the zero power reactor transfer function, in order to obtain feedback on kinetics nuclear data, particularly delayed neutrons. On the topic of nuclear data, the PETALE programme consisted on criticality and transmission experiments for the study of stainless steel, using instrumented metal reflectors. New dosimetry methodologies were developed for consistent and complete propagation of uncertainties, which also enabled experiments to be optimized. It will be continued in the HARVEST-X project, and its pile-oscillation program, BLOOM. Last but not least, developments in dosimetry as well as for a novel miniature neutron scintillation technology (MiMi detectors) allowed for interand intrapin (NECTAR) neutron measurements. 160 MiMi detectors have recently been distributed throughout the CROCUS core in a unique 3D detector array called SAFFRON, paving the way for novel high-resolution neutronics.

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Section: B Mimi Detectors: High-resolution Interpin Thermal Fluxmentioning

confidence: 99%

Ten springs of experiments in CROCUS

Lamirand

2023

EPJ Web Conf.

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Design of a 150-miniature detectors 3D core-mapping system for the CROCUS reactor

et al. 2021

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The present article provides an overview of the design of a three-dimensional (3D) full-core mapping system for the CROCUS reactor, operated at the École polytechnique fédérale de Lausanne (EPFL), Switzerland. The system is composed of 149 miniature neutron detectors distributed within the core double lattice at three main axial levels. The miniature detector technology is based on the optimization of the well-proven coupling of a miniature ZnS:6LiF(Ag) scintillator to a state-of-the-art silicon photomultiplier (SiPM) via jacketed optical fibers. The challenges in the mechanical design, the detector optimization, the core criticality, and the development of the acquisition electronics are strongly interconnected and their combination is addressed in this article. The 3D full-core mapping system is foreseen to be installed in CROCUS in autumn 2021 and it will pave the way for the investigation of 3D dynamic phenomena in nuclear reactor cores.

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High resolution measurements with miniature neutron scintillators in the SUR-100 zero power reactor

Cited by 2 publications

References 5 publications

Ten springs of experiments in CROCUS

Ten springs of experiments in CROCUS

Design of a 150-miniature detectors 3D core-mapping system for the CROCUS reactor

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