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Advanced numerical simulation and modelling for reactor safety - contributions from the CORTEX, HPMC, McSAFE and NURESAFE projects

Christophe Demazière; Victor Hugo Sanchez-Espinoza; Bruno Chanaron


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    "description": "<p>Abstract. Predictive modelling capabilities have long represented one of the pillars of reactor safety. In this paper, an account of some projects funded by the European Commission within the seventh Framework Program (HPMC and NURESAFE projects) and Horizon 2020 Program (CORTEX and McSAFE) is given. Such projects aim at, among others, developing improved solution strategies for the modelling of neutronics, thermal-hydraulics, and/or thermo-mechanics during normal operation, reactor transients and/or situations involving stationary perturbations. Although the different projects have different focus areas, they all capitalize on the most recent advancements in deterministic and probabilistic neutron transport, as well as in DNS, LES, CFD and macroscopic thermal-hydraulics modelling. The goal of the simulation strategies is to model complex multi-physics and multi-scale phenomena specific to nuclear reactors.The use of machine learning combined with such advanced simulation tools is also demonstrated to be capable of providing useful information for the detection of anomalies during operation.</p>", 
    "language": "eng", 
    "title": "Advanced numerical simulation and modelling for reactor safety - contributions from the CORTEX, HPMC, McSAFE and NURESAFE projects", 
    "license": {
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      "volume": "6", 
      "issue": "Euratom Research and Training in 2019: challenges, achievements and future perspectives", 
      "title": "EPJ Nuclear Sci. Technol."
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        "code": "754316", 
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          "self": "https://zenodo.org/api/grants/10.13039/501100000780::754316"
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        "title": "Core monitoring techniques and experimental validation and demonstration", 
        "acronym": "CORTEX", 
        "program": "H2020", 
        "funder": {
          "doi": "10.13039/501100000780", 
          "acronyms": [], 
          "name": "European Commission", 
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        "title": "High-Performance Monte Carlo Methods for SAFEty Demonstration- From Proof of Concept to realistic Safety Analysis and Industry-like Applications", 
        "acronym": "McSAFE", 
        "program": "H2020", 
        "funder": {
          "doi": "10.13039/501100000780", 
          "acronyms": [], 
          "name": "European Commission", 
          "links": {
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      {
        "code": "295971", 
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          "self": "https://zenodo.org/api/grants/10.13039/501100000780::295971"
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        "title": "High performance Monte Carlo reactor core analysis", 
        "acronym": "HPMC", 
        "program": "FP7", 
        "funder": {
          "doi": "10.13039/501100000780", 
          "acronyms": [], 
          "name": "European Commission", 
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        "title": "NUCLEAR REACTOR SAFETY SIMULATION PLATFORM", 
        "acronym": "NURESAFE", 
        "program": "FP7", 
        "funder": {
          "doi": "10.13039/501100000780", 
          "acronyms": [], 
          "name": "European Commission", 
          "links": {
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    "publication_date": "2020-05-05", 
    "creators": [
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        "affiliation": "Chalmers University of Technology", 
        "name": "Christophe Demazi\u00e8re"
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      {
        "affiliation": "Karlsruhe Institute of Technology (KIT)", 
        "name": "Victor Hugo Sanchez-Espinoza"
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        "affiliation": "CEA", 
        "name": "Bruno Chanaron"
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