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Laurence LE COQ
33%
Libre accès
6
Documents
Affiliations actuelles
- 481355
- 481157
Identifiants chercheurs
- laurence-le-coq
- IdRef : 088416151
- 0000-0002-9060-2755
- Google Scholar : https://scholar.google.fr/citations?user=26ttQqcAAAAJ&hl=fr&oi=ao
- ResearcherId : W-7345-2019
Site web
- https://www.imt-atlantique.fr/fr/personne/laurence-le-coq
Présentation
Laurence Le Coq is Professor in Environmental Engineering at IMT Atlantique. She is Dean for Research & Innovation of [IMT Atlantique](https://www.imt-atlantique.fr/fr).
From 2017 to 2019 she was Vice Dean for Research & Innovation of IMT Atlantique and Dean for Research & Innovation of Mines Nantes from 2015 to 2017. From 2008 to 2015, she was in charge of the *Energy system & environmental engineering* department at Mines Nantes, as well as deputy director of the Doctoral School in Engineering science. She was deputy director of [GEPEA](https://www.gepea.fr/) laboratory (UMR CNRS 6144) from 2012 to 2020.
Her research activitiy is conducted in [GEPEA](https://www.gepea.fr/) laboratory, a joint research unit merging CNRS, Nantes University, ONIRIS and IMT Atlantique. It deals with mass transfer and particle transport through porous media. She is author of more than 60 publications in international peer-review journals and more than 80 communications in international congress. Her scientific skills are related to :
\- Aerosol : Transport, capture et resuspension at fluid/solid (porous) interface – application to air depollution and gas separation for energy valorisation or environmental issues.
\- Gazeous pollutants : Transfer w/w.o. reaction at fluid/solid (porous) interface – application to COV, PAH and inorganic compounds adsorption for air, fumes and syngas treatment.
\- Pourous media : Structural and physico-chemical characterisation in relation with mass transfer / flow through porous media – application to new carboneceous adsorbant and filter clogging.
### **[Page perso](https://www.imt-atlantique.fr/fr/personne/laurence-le-coq)**
Publications
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Investigating the influence of local porosity variations and anisotropy effects on the permeability of fibrous media for air filtrationChemical Engineering Science, 2018, 180, pp.70 - 78. ⟨10.1016/J.CES.2018.01.035⟩
Article dans une revue
hal-01700159v1
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Characterization of the porous structure of a non-woven fibrous medium for air filtration at local and global scales using porosimetry and X-ray micro-tomographyPowder Technology, 2017, 320, pp.295-303. ⟨10.1016/j.powtec.2017.07.020⟩
Article dans une revue
hal-01700199v1
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Development of an analytical model to account for local porosity variations and anisotropy effects on the permeability of fibrous mediaFiltech 2018, Mar 2018, Cologne, Germany
Communication dans un congrès
hal-01830096v1
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Caractérisation de la structure poreuse d’un media fibreux pour la filtration d’air par porosimétrie et micro-tomographie XFRANCOFILT 2017, Aug 2017, Bordeaux, France
Communication dans un congrès
hal-01830054v1
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Structural characterization of a high performance air filtration composite media at local and global scalesWorld Filtration Congress 12, WFC12, Apr 2016, Taipei, Taiwan
Communication dans un congrès
hal-01383804v1
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Characterization of the porous structure of a fibrous medium used for air filtration by X-ray micro-tomographyJournées d'Etudes des Milieux Poreux, Oct 2018, Nantes, France
Poster de conférence
hal-01940702v1
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