Methodology for qualifying monitoring components

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

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Methodology for qualifying monitoring components. / Matray, J.M.; Bohnert, E.; Raunio, Kalle; Delépine-Lesoille, Sylvie; Landolt, Marcel; Bertrand, Johan; Kronberg, Magnus; Johannesson, Lars-Erik; Verstricht, Jan; Mégret, Patrice; Martinot, François; Rey, Maria; García-Siñeriz, J.L.

Modern2020 Final Conference Proceedings: Second International Conference on Monitoring in geological disposal of radioactive waste: Strategies, technologies, decision-making and public involvement. EC - European Commission, 2019. p. 165-176.

Research output: Contribution to report/book/conference proceedingsIn-proceedings paper

Harvard

Matray, JM, Bohnert, E, Raunio, K, Delépine-Lesoille, S, Landolt, M, Bertrand, J, Kronberg, M, Johannesson, L-E, Verstricht, J, Mégret, P, Martinot, F, Rey, M & García-Siñeriz, JL 2019, Methodology for qualifying monitoring components. in Modern2020 Final Conference Proceedings: Second International Conference on Monitoring in geological disposal of radioactive waste: Strategies, technologies, decision-making and public involvement. EC - European Commission, pp. 165-176, 2nd Modern2020 international conference on Monitoring in Geological Disposal of Radioactive Waste, Paris, France, 2019-04-09.

APA

Matray, J. M., Bohnert, E., Raunio, K., Delépine-Lesoille, S., Landolt, M., Bertrand, J., ... García-Siñeriz, J. L. (2019). Methodology for qualifying monitoring components. In Modern2020 Final Conference Proceedings: Second International Conference on Monitoring in geological disposal of radioactive waste: Strategies, technologies, decision-making and public involvement (pp. 165-176). EC - European Commission.

Vancouver

Matray JM, Bohnert E, Raunio K, Delépine-Lesoille S, Landolt M, Bertrand J et al. Methodology for qualifying monitoring components. In Modern2020 Final Conference Proceedings: Second International Conference on Monitoring in geological disposal of radioactive waste: Strategies, technologies, decision-making and public involvement. EC - European Commission. 2019. p. 165-176

Author

Matray, J.M. ; Bohnert, E. ; Raunio, Kalle ; Delépine-Lesoille, Sylvie ; Landolt, Marcel ; Bertrand, Johan ; Kronberg, Magnus ; Johannesson, Lars-Erik ; Verstricht, Jan ; Mégret, Patrice ; Martinot, François ; Rey, Maria ; García-Siñeriz, J.L. / Methodology for qualifying monitoring components. Modern2020 Final Conference Proceedings: Second International Conference on Monitoring in geological disposal of radioactive waste: Strategies, technologies, decision-making and public involvement. EC - European Commission, 2019. pp. 165-176

Bibtex - Download

@inproceedings{ec33cf650f5849f7a2d6fd276a098c0d,
title = "Methodology for qualifying monitoring components",
abstract = "This paper summarizes the work performed in Task 3.6, Reliability and Qualification of components, of the EU H2020 project Modern2020. It synthezises progress made by eight expert organisations on a common multi-stage methodology for qualifying monitoring components (MC) of the measurement chain (sensor, connecting cable and/or wireless system/controller) at a Deep Geological Repository (DGR). This study was reported as document D3.6 [1] in the Modern2020 project and results from a multi-stage analysis including: i) the study of transferable experience gained from the energy and space fields, ii) the feed back of long-term and demonstration experiments operating in conditions close to those expected in repositories at Underground Research Laboratories (URLs) or at large mock-up, iii) the initiatives for the development of a qualification process for selecting and testing the monitoring components and at last, iv) the proposal for a global protocol appropriate to all monitoring contexts.",
keywords = "Monitoring , Geological Disposal , Radioactive Waste , MODERN2020",
author = "J.M. Matray and E. Bohnert and Kalle Raunio and Sylvie Del{\'e}pine-Lesoille and Marcel Landolt and Johan Bertrand and Magnus Kronberg and Lars-Erik Johannesson and Jan Verstricht and Patrice M{\'e}gret and Fran{\cc}ois Martinot and Maria Rey and J.L. Garc{\'i}a-Si{\~n}eriz",
note = "Score=2",
year = "2019",
month = "7",
day = "22",
language = "English",
pages = "165--176",
booktitle = "Modern2020 Final Conference Proceedings",
publisher = "EC - European Commission",

}

RIS - Download

TY - GEN

T1 - Methodology for qualifying monitoring components

AU - Matray, J.M.

AU - Bohnert, E.

AU - Raunio, Kalle

AU - Delépine-Lesoille, Sylvie

AU - Landolt, Marcel

AU - Bertrand, Johan

AU - Kronberg, Magnus

AU - Johannesson, Lars-Erik

AU - Verstricht, Jan

AU - Mégret, Patrice

AU - Martinot, François

AU - Rey, Maria

AU - García-Siñeriz, J.L.

N1 - Score=2

PY - 2019/7/22

Y1 - 2019/7/22

N2 - This paper summarizes the work performed in Task 3.6, Reliability and Qualification of components, of the EU H2020 project Modern2020. It synthezises progress made by eight expert organisations on a common multi-stage methodology for qualifying monitoring components (MC) of the measurement chain (sensor, connecting cable and/or wireless system/controller) at a Deep Geological Repository (DGR). This study was reported as document D3.6 [1] in the Modern2020 project and results from a multi-stage analysis including: i) the study of transferable experience gained from the energy and space fields, ii) the feed back of long-term and demonstration experiments operating in conditions close to those expected in repositories at Underground Research Laboratories (URLs) or at large mock-up, iii) the initiatives for the development of a qualification process for selecting and testing the monitoring components and at last, iv) the proposal for a global protocol appropriate to all monitoring contexts.

AB - This paper summarizes the work performed in Task 3.6, Reliability and Qualification of components, of the EU H2020 project Modern2020. It synthezises progress made by eight expert organisations on a common multi-stage methodology for qualifying monitoring components (MC) of the measurement chain (sensor, connecting cable and/or wireless system/controller) at a Deep Geological Repository (DGR). This study was reported as document D3.6 [1] in the Modern2020 project and results from a multi-stage analysis including: i) the study of transferable experience gained from the energy and space fields, ii) the feed back of long-term and demonstration experiments operating in conditions close to those expected in repositories at Underground Research Laboratories (URLs) or at large mock-up, iii) the initiatives for the development of a qualification process for selecting and testing the monitoring components and at last, iv) the proposal for a global protocol appropriate to all monitoring contexts.

KW - Monitoring

KW - Geological Disposal

KW - Radioactive Waste

KW - MODERN2020

UR - http://ecm.sckcen.be/OTCS/llisapi.dll/open/36846770

M3 - In-proceedings paper

SP - 165

EP - 176

BT - Modern2020 Final Conference Proceedings

PB - EC - European Commission

ER -

ID: 5942756