Laboratoire Eau Environnement et Systèmes Urbains (Leesu)

Recent publications

--> Url version détaillée , Url version formatée Structure name contains or id is : "409065;155441;135971;102266;212248;578082", Publication type : "('ART')"
934.
titre
Improving monitoring of dissolved organic matter from the wastewater treatment plant to the receiving environment: A new high-frequency in situ fluorescence sensor capable of analyzing 29 pairs of Ex/Em wavelengths
auteur
Angélique Goffin, Gilles Varrault, Nadège Musabimana, Antoine Raoult, Metehan Yilmaz, Sabrina Guérin-Rechdaoui, Vincent Rocher
article
, 2025, 325, pp.125153. ⟨10.1016/j.saa.2024.125153⟩
titre
arcMS: transformation of multi-dimensional high-resolution mass spectrometry data to columnar format for compact storage and fast access
auteur
Julien Le Roux, Julien Sade
article
, 2024, 4 (1), ⟨10.1093/bioadv/vbae160⟩
titre
Litter in French urban areas—part 1: composition, sources, and spatio-temporal variations on urban surfaces
auteur
Lauriane Ledieu, Romain Tramoy, David Mabilais, Sophie Ricordel, Zoé Bridant, Eric Bouchet, Clémence Bruttin, Bruno Tassin, Johnny Gasperi
article
, 2024, ⟨10.1007/s11356-024-35203-8⟩
titre
Unraveling Lake Geneva's hypoxia crisis in the Anthropocene
auteur
Laura M V Soares, Olivia Desgué‐itier, Cécilia Barouillet, Céline Casenave, Isabelle Domaizon, Victor Frossard, Nelson G Hairston, Andrea Lami, Bruno J Lemaire, Georges‐marie Saulnier, Frédéric Soulignac, Brigitte Vinçon‐leite, Jean‐philippe Jenny
article
, 2024, ⟨10.1002/lol2.10435⟩
titre
Quantification Approaches in Non-Target LC/ESI/HRMS Analysis: An Interlaboratory Comparison
auteur
Louise Malm, Jaanus Liigand, Reza Aalizadeh, Nikiforos Alygizakis, Kelsey Ng, Emil Egede Fro̷kjær, Mulatu Yohannes Nanusha, Martin Hansen, Merle Plassmann, Stefan Bieber, Thomas Letzel, Lydia Balest, Pier Paolo Abis, Michele Mazzetti, Barbara Kasprzyk-Hordern, Nicola Ceolotto, Sangeeta Kumari, Stephan Hann, Sven Kochmann, Teresa Steininger-Mairinger, Coralie Soulier, Giuseppe Mascolo, Sapia Murgolo, Manuel Garcia-Vara, Miren López de Alda, Juliane Hollender, Katarzyna Arturi, Gianluca Coppola, Massimo Peruzzo, Hanna Joerss, Carla van der Neut-Marchand, Eelco N Pieke, Pablo Gago-Ferrero, Ruben Gil-Solsona, Viktória Licul-Kucera, Claudio Roscioli, Sara Valsecchi, Austeja Luckute, Jan H Christensen, Selina Tisler, Dennis Vughs, Nienke Meekel, Begoña Talavera Andújar, Dagny Aurich, Emma L Schymanski, Gianfranco Frigerio, André Macherius, Uwe Kunkel, Tobias Bader, Pawel Rostkowski, Hans Gundersen, Belinda Valdecanas, W Clay Davis, Bastian Schulze, Sarit Kaserzon, Martijn Pijnappels, Mar Esperanza, Aurélie Fildier, Emmanuelle Vulliet, Laure Wiest, Adrian Covaci, Alicia Macan Schönleben, Lidia Belova, Alberto Celma, Lubertus Bijlsma, Emilie Caupos, Emmanuelle Mebold, Julien Le Roux, Eugenie Troia, Eva de Rijke, Rick Helmus, Gaëla Leroy, Niels Haelewyck, David Chrastina, Milan Verwoert, Nikolaos S Thomaidis, Anneli Kruve
article
, 2024, 96, pp.16215 - 16226. ⟨10.1021/acs.analchem.4c02902⟩

Supervisory authorities

Member of

Séminaire de Samuel Davoust le 29 mars 2013

published on , updated on

Le prochain séminaire du LEESU aura lieu le vendredi 29 mars 2013 à l’École des Ponts ParisTech (plan d’accès), à 15h00 en salle B005. Il sera constitué d’une intervention de Samuel Davoust (Avent Lidar Technology) dont le résumé est :

" The wind industry is striving to develop new technologies to improve the economic performance and reliability of wind turbines and wind farms. The Lidar (Light Detection and Ranging) technology is a promising tool to reduce uncertainties on annual energy production, reduce O&M costs and optimize power performance.

Introduced commercially by Leosphere in 2004, ground-based pulsed Lidars are remote wind measurement sensors which have now become a cost saving alternative to met. mast measurements. Lidar technology is now quite mature and wind energy industry standards are being revised to include such measurements. By measuring the complete vertical wind profiles and up to 10km in range, Lidars provide crucial additional information which further reduce uncertainties for wind resource assessment, power curve measurements, and even improve short term wind forecast.

Nacelle-mounted Lidars are now a new tool available to the wind energy market : Avent Lidar Technology, part of the Leosphere group, manufactures and sells the Wind Iris, a two beam Lidar which is mounted on the top of wind turbine nacelles. This technology measures the horizontal wind speed and direction at 10 distances from 40m to 400m upwind of the wind turbine. As a result, power performance analysis applications can now be extended in previously inaccessible areas and performed at a reduced cost, including offshore. Also, new power performance optimization applications are emerging, by accurately detecting and correcting sources for wind turbine under-performance.

Finally, Lidar allows to forecast very short-term wind fluctuation. In a later stage, retrofitting wind turbines with Lidar-assisted feed-forward control will bring adaptive solutions for under-performing wind farms in difficult sites, until a new generation of wind turbines integrating Lidar as a core component will emerge".

La présentation est disponible en cliquant ici (il faut être connecté à l’intranet pour que le lien fonctionne).