Your search keyword '"Durand, Amandine"' showing total 3 results

1. Direct formation of HONO through aqueous-phase photolysis of organic nitrates.

Author

González-Sánchez, Juan Miguel, Huix-Rotllant, Miquel, Brun, Nicolas, Morin, Julien, Demelas, Carine, Durand, Amandine, Ravier, Sylvain, Clément, Jean-Louis, and Monod, Anne

Subjects

ACETONE, NITROUS acid, NITRATES, QUANTUM chemistry, CONDENSED matter, AEROSOLS, PHOTODEGRADATION

Abstract

Organic nitrates (RONO 2) are secondary compounds whose fate is closely related to the transport and removal of NO x in the atmosphere. Despite their ubiquitous presence in submicron aerosols, the photochemistry of RONO 2 has only been investigated in the gas phase, leaving their reactivity in condensed phases poorly explored. This work aims to address this gap by investigating, for the first time, the reaction products and the mechanisms of aqueous-phase photolysis of four RONO 2 (i.e., isopropyl nitrate, isobutyl nitrate, α -nitrooxy acetone, and 1-nitrooxy-2-propanol). The results show that the reactivity of RONO 2 in the aqueous phase differs significantly from that in the gas phase. In contrast to the gas phase, where RONO 2 release NO x upon photolysis, the aqueous-phase photolysis of RONO 2 leads primarily to the direct formation of nitrous acid (HONO or HNO 2) , which was confirmed by quantum chemistry calculations. Hence, the aqueous-phase photolysis of RONO 2 represents both a NO x sink and a source of atmospheric nitrous acid, a significant precursor of ⋅ OH and ⋅ NO. These secondary radicals (⋅ OH and ⋅ NO) are efficiently trapped in the aqueous phase, leading to the formation of HNO 3 and functionalized RONO 2. This reactivity can thus potentially contribute to the aging of secondary organic aerosol (SOA) and serves as an additional source of aqueous-phase SOA. [ABSTRACT FROM AUTHOR]

Published

2023

2. Aerosol Plume Characterization From Multitemporal Hyperspectral Analysis

Author

Foucher, Pierre-Yves, Déliot, Philippe, Poutier, Laurent, Duclaux, Olivier, Raffort, Valentin, Roustan, Yelva, Temime-Roussel, Brice, Durand, Amandine, Wortham, Henri, ONERA / DOTA, Université de Toulouse [Toulouse], ONERA-PRES Université de Toulouse, TOTAL, Centre de recherche de Solaize (CReS), Centre d'Enseignement et de Recherche en Environnement Atmosphérique (CEREA), École des Ponts ParisTech (ENPC)-EDF R&D (EDF R&D), EDF (EDF)-EDF (EDF), Laboratoire Chimie de l'environnement (LCE), and Centre National de la Recherche Scientifique (CNRS)-Aix Marseille Université (AMU)-Institut de Chimie du CNRS (INC)

Subjects

MODEL, MODELE, AIRBORNE, AEROSOLS, HYPERSPECTRAL, [SDE.IE]Environmental Sciences/Environmental Engineering, MULTITEMPORAL, AEROPORTE, AEROSOL, MULTITEMPOREL, [SPI.SIGNAL]Engineering Sciences [physics]/Signal and Image processing

Abstract

International audience; In this paper we focus on airborne hyperspectral imaging methodology to characterize PM (Particulate Matter) near industrial emission sources. Two short-term intensive campaigns were carried out in the vicinity of a refinery in the South of France, in September 2015 and February 2016. Different protocols of in-situ PM measurements were performed, at stack measurements (flow rate and offline chemical analysis) and on-line measurement at the refinery border (size distribution, concentration and chemistry of aerosols). A multi temporal methodology to retrieve aerosol type, to map the aerosol concentration and to quantify mass flow rate from airborne hyperspectral data is described in this paper. This method applied to the refinery detected plume from the main stack yields a black carbon to sulfate ratio of 10/90 in mass inside the plume, with an average size distribution smaller than 100 nm. These results are in a good agreement with on-line analysis of aerosols at refinery border. The resulting quantitative map with a metric spatial resolution leads to a flow rate estimated of about 1g/s and is in a good agreement with in-situ stack measurements and modelling.; Ce papier propose une méthodologie de caractérisation des PM (Particulate Matter) proches des sources industrielles par imagerie hyperspectrale aéroportée. Il s’appuie sur deux campagnes de mesures réalisées autour d’une raffinerie dans le sud de la France en Septembre 2015 et Février 2016. Différents protocoles de mesures in-situ des PM ont été réalisées dans ce cadre, mesures au niveau de l’émissaire principal (debit et analyse chimique) et mesures on-line au voisinage de la raffinerie (distribution en taille, concentration et analyse chimique). Une méthodologie multi-temporelle dédiée à l’inversion des types d’aérosols présents dans le panache permettant de fournir une carte en concentration d’aérosols et d’estimer le débit est décrite dans ce papier. Appliquée à ce cas d’étude, les resultats hyperspectraux ont permis d’estimer un rapport suie/sulfate de 10/90 en masse dans le panache avec une distribution en taille inférieure à 100nm. Ces résultats sont en bon accord avec les mesures in-situ. Les cartes en concentration obtenue à une resolution métrique permettent d’estimer un debit de l’ordre de 1g/s en bon accord avec les mesures in-situ au niveau de l’émissaire et avec les résultats de modélisation de dispersion des aerosols.

Published

2019

3. Photolytic degradation of commonly used pesticides adsorbed on silica particles.

Author

Samia, Boulos, Socorro, Joanna, Durand, Amandine, Quivet, Etienne, and Wortham, Henri

Published

2024