Loading...
Welcome on DEEP laboratory website (Déchets Eaux Environnement Pollutions / Wastes Water Environment Pollutions).
DEEP laboratory (Wastes Water Environment Pollutions) conducts multidisciplinary research in environmental engineering, from pilot-scale experimentation to the long-term monitoring on real sites in industrial and urban environments. The knowledge, methods, processes and models produced by the laboratory allow concrete actions to preserve or restore the environment, in two areas of application: (1) urban water and hydrosystems, (2) solid waste, polluted sediments and soils.
Last publications
-
M Brossat, Maria Lupsea-Toader, D Blanc, Elodie Prud'Homme, Christine de Brauer. Incorporation de la fraction fine de Mâchefers d'Incinération des Déchets Non-Dangereux (MIDND) dans des mortiers aérés. NOMAD 2022 - 4e conférence internationale francophone Nouveaux Matériaux et Durabilité, IMT Mines Alès; LMGC; LIFAM, Nov 2022, Montpellier, France. ⟨hal-03881321⟩
-
Pernin Noémie, Pierre Benoit, Dominique Patureau, Laure Wiest, Jean-Luc Bertrand-Krajewski. PHARMACEUTICALS RESIDUES AND BIOCIDES FROM BIOSOLIDS AND MANURE SPREAD AS FERTILIZERS: FIRST RESULTS AFTER ONE YEAR FIELD STUDY. 4th IWA Regional Conference on Diffuse Pollution & Eutrophication (DIPCON 2022 )), Oct 2022, Istanbul, Turkey. ⟨hal-03843198⟩
-
-
-
Sofia Licci, Pierre Marmonier, Geraldene Wharton, Cécile Delolme, Florian Mermillod-Blondin, et al.. Scale-dependent effects of vegetation on flow velocity and biogeochemical conditions in aquatic systems. Science of the Total Environment, 2022, 833, pp.155123. ⟨10.1016/j.scitotenv.2022.155123⟩. ⟨hal-03652218⟩
-
-
Maxime Brandely, Samuel Coussy, Denise Blanc-Biscarat, Remy Gourdon, Gaëtan Blanck. Chemical Stabilization Used to Reduce Geogenic Selenium, Molybdenum, Sulfates and Fluorides Mobility in Rocks and Soils from the Parisian Basin. Environments, 2022, 9 (7), pp.78. ⟨10.3390/environments9070078⟩. ⟨hal-03748025⟩
-
-
Vincent Pons, Rasmus Benestad, Edvard Sivertsen, Tone Merete Muthanna, Jean-Luc Bertrand-Krajewski. Forecasting green roof detention performance by temporal downscaling of precipitation time-series projections. Hydrology and Earth System Sciences, 2022, 26, pp.2855 - 2874. ⟨10.5194/hess-26-2855-2022⟩. ⟨hal-03717452⟩
-
Keywords
Wastewater treatment
Biofilm
Composting
Green roof
Biomasse
Kinetics
Fumier
Orage
Geochemical modelling
Mineralization
Ecotoxicological risk assessment
Métaux
Methane potential
Modélisation
Gasification
Characterization
Sediment
Modeling
Digestion anaerobie
Modelling
Mechanical biological treatment
Mass transfer
MICROPOLLUANT
Biogas purification
Autosurveillance
Stormwater
Biodegradation
Hydrologie urbaine
Biomass
Enzymatic hydrolysis
Biochemical methane potential
Sludge
Ecotoxicity
Combined sewer overflow
Biogas
POLLUANT
Cattle manure
Traitement des eaux usées
Micropollutants
Methane
Micropolluants
Organic matter
Ensiling
Pharmaceuticals
Mineral trace elements
Réseau d'assainissement
Eaux pluviales
Modélisation numérique
Ferric chloride coagulation
Méthanisation
Métrologie
Anaerobic digestion
Monitoring
Emerging contaminants
Déchets
Environment
Hydrogen sulfide H2S
EAU PLUVIALE
Biomethane potential
Trickling filter
Infiltration
Modélisation géochimique
Pollution
Assainissement
Nitrification
Environmental impact
Eaux usées
Wastewater treatment plant
Geochemical modeling
Phosphorus retention
Mechanical pretreatment
Pollutant
Biogaz
Digestion anaérobie
Leaching
Hydrogen sulfide
Numerical modeling
Agricultural waste
Environnement
Compostage
Station d'épuration
Epuration
Adsorption
Hospital wastewater
Valorisation
MONITORING
Design
Biowaste
Agricultural wastes
Biomass characterization
Stormwater management
Techniques alternatives
Storage
Municipal solid waste
Speciation
Impact environnemental
Constructed wetland
Urban sediments
Matière organique
Vertical flow constructed wetland
Search
References429 |
FullText233 |
Deposits evolution by documents
Deposits evolution
International collaborations