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DTSTART;VALUE=DATE:20251013
DTEND;VALUE=DATE:20251018
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SUMMARY:Jules Horowitz Reactor (JHR) Advanced School
DESCRIPTION:The second edition of the Jules Horowitz Reactor (JHR) Advanced School will take place from 13 – 17 October 2025 in Marseille\, France. \nThe Jules Horowitz Reactor (JHR) Project began more than thirty years ago\, with a plan to build a modern Materials Testing Reactor (MTR) which would expand the diminishing international infrastructure for investigating radiation effects in materials of all kinds. From the outset\, the JHR was developed within a broad European partnership\, which later expanded into a wider international collaboration. \nOver the years\, JHR Consortium Members\, through dedicated Working Groups\, have fostered the growth of a large research community focused on identifying ways in which JHR can be used to meet the needs of research\, development and industrial activity. \nThe JHR Advanced School is a short but intensive educational event to introduce MTRs to a new audience. \nThe objective of the 2nd edition organised by UNIBO\, AMU\, CEA\, the JHR consortium and CONNECT-NM is to engage and prepare young researchers\, encouraging them to explore the opportunities offered by future JHR experimental activities and to ensure their results are organised and presented to the maximum benefit of the whole nuclear community. \nEvent topics include: \n\nMTR evolution and the JHR Project\nGoals for the coming decades: nuclear material and fuel qualification\, ageing\, incidental conditions\nThe JHR and related technologies\nComputational and modelling tools\nFrom theory to experiment and instrumentation in a MTR environment: problem setting and problem solving\nExperimental data organisation and management as a continuous learning activity\nCase studies\n\nThe trainees will have the opportunity to interact with members of three JHR working groups on fuels\, materials and technologies\, as well as to visit the JHR construction site at CEA Cadarache and the Joint LIMMEX Lab (AMU-CEA-CNRS) at AMU. \nThe deadline to apply is 31 July 2025. \nLearn full information here.
URL:https://snetp.eu/event/jules-horowitz-reactor-jhr-advanced-school/
LOCATION:Marseille\, France
CATEGORIES:Project events,Workshops, webinars & courses
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DTSTART;VALUE=DATE:20251016
DTEND;VALUE=DATE:20251018
DTSTAMP:20260501T071101
CREATED:20250610T090355Z
LAST-MODIFIED:20250610T090355Z
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SUMMARY:1st SASPAM-SA Training on LWR-SMR Safety: From DBA to Severe accident – Phenomena\, Experiments\, Mitigation Strategies\, and Code Application
DESCRIPTION:Light water cooled Small Modular Reactors (SMRs) are gaining significant attention as a near-term nuclear technology option due to their inherent safety features\, compact design\, modular construction potential\, and reduced capital and operational costs. These designs are largely based on proven large LWR technology\, offering opportunities for rapid deployment while maintaining high safety standards. \nThe 1st SASPAM-SA training aims to contribute to the capacity building needed to support the future licensing and deployment of SMRs in Europe. The training brings together researchers\, engineers\, and students to deepen their understanding of SMR-specific safety aspects\, with a focus on accident phenomenology\, mitigation strategies\, and the application of state-of-the-art computational tools. \nThis training event is organized within the framework of the Horizon Euratom SASPAM-SA project and complements the broader dissemination and knowledge-transfer activities ongoing in the European and international SMR community. \n  \nThe training is designed to provide a comprehensive introduction and hands-on insight into SMR-specific safety challenges\, leveraging the findings from SASPAM-SA and related European research initiatives. \nKey topics addressed include: \n\nAccident scenarios and relevant safety phenomena in LWR-SMRs;\nComparison of safety approaches in SMRs versus large LWRs;\nSevere accident mitigation strategies including In-Vessel Melt Retention (IVMR);\nUse of existing experimental databases to inform SMR safety;\nEmergency Planning Zones (EPZ) and regulatory perspectives for SMRs;\nApplication and demonstration of major computational tools (AC2\, ASTEC\, MAAP\, MELCOR\, containmentFOAM\, etc.) used in the SASPAM-SA project for SMR safety analysis;\nFuture perspectives for research and development in SMR safety and licensing support.\n\n  \nThe agenda spans theoretical lectures and applied case studies\, providing participants with both foundational knowledge and exposure to ongoing advanced research and practical tools.
URL:https://snetp.eu/event/1st-saspam-sa-training-on-lwr-smr-safety-from-dba-to-severe-accident-phenomena-experiments-mitigation-strategies-and-code-application/
LOCATION:Rome\, Italy
CATEGORIES:Project events
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DTSTART;VALUE=DATE:20251027
DTEND;VALUE=DATE:20251101
DTSTAMP:20260501T071101
CREATED:20250304T092741Z
LAST-MODIFIED:20250304T092741Z
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SUMMARY:Great Pioneer: Neutron transport at the fuel cell and assembly levels course
DESCRIPTION:Sign up for a course on “Neutron transport at the fuel cell and assembly levels” (3 ECTS). Registrations will open on June 23rd\, 2025.  \nThis course focuses on the study of the transport of neutrons at the fuel cell and assembly levels\, to provide useful information for the next steps of reactor physics analysis\, such as the full core simulation in steady-state and transient conditions.    \nThis course aims at providing the students with a sound understanding of the physical phenomena described by the neutron transport models\, as well as giving the participants the instruments to perform numerical simulations of neutron transport with state-of-the-art models and codes.  \nThe pedagogical format of the course is based on a hybrid flipped classroom. In this format\, you need to complete some preparatory work (representing about 40 hours of work) before attending interactive classes organized during 5 consecutive days (representing about 40 hours of work). Those classes are given in a hybrid set-up\, with participants following the classes either onsite or remotely on the web. Research in engineering education demonstrated that such a teaching format leads to better learning outcomes and increases the interactions between the students and the teachers.  \nOnline self-paced learning phase taking place between September 26th\, 2025\, and October 24th\, 2025. Synchronous activities offered between October 27th\, 2025\, and October 31st\, 2025 (those activities can be attended online or onsite at Chalmers University of Technology\, Gothenburg\, Sweden).  \nInterested? Head over to the Great-Pioneer website to learn more.
URL:https://snetp.eu/event/great-pioneer-neutron-transport-at-the-fuel-cell-and-assembly-levels-course/
LOCATION:Göteborg\, Sweden
CATEGORIES:Project events,Workshops, webinars & courses
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