Reactive uptake of NO2 on volcanic particles: A possible source of HONO in the atmosphere

Manolis N. Romanias; Yangang Ren; Benoit Grosselin; Véronique Daële; Abdelwahid Mellouki; Pavla Dagsson-Waldhauserova; Frederic Thevenet

doi:10.1016/j.jes.2020.03.042

Reactive uptake of NO₂ on volcanic particles: A possible source of HONO in the atmosphere

Manolis N. Romanias
, Yangang Ren
, Benoit Grosselin
, Véronique Daële
, Abdelwahid Mellouki
, Pavla Dagsson-Waldhauserova
, Frederic Thevenet

Landbúnaðarháskóli Íslands - Agricultural University of Iceland

Agricultural University of Iceland, Other Icelandic Research Institutions

Research output: Contribution to journal › Article › peer-review

Abstract

The heterogeneous degradation of nitrogen dioxide (NO₂) on five samples of natural Icelandic volcanic particles has been investigated. Laboratory experiments were carried out under simulated atmospheric conditions using a coated wall flow tube (CWFT). The CWFT reactor was coupled to a blue light nitrogen oxides analyzer (NO_x analyzer), and a long path absorption photometer (LOPAP) to monitor in real time the concentrations of NO₂, NO and HONO, respectively. Under dark and ambient relative humidity conditions, the steady state uptake coefficients of NO₂ varied significantly between the volcanic samples probably due to differences in magma composition and morphological variation related with the density of surface OH groups. The irradiation of the surface with simulated sunlight enhanced the uptake coefficients by a factor of three indicating that photo-induced processes on the surface of the dust occur. Furthermore, the product yields of NO and HONO were determined under both dark and simulated sunlight conditions. The relative humidity was found to influence the distribution of gaseous products, promoting the formation of gaseous HONO. A detailed reaction mechanism is proposed that supports our experimental observations. Regarding the atmospheric implications, our results suggest that the NO₂ degradation on volcanic particles and the corresponding formation of HONO is expected to be significant during volcanic dust storms or after a volcanic eruption.

Original language	English
Pages (from-to)	155-164
Number of pages	10
Journal	Journal of Environmental Sciences (China)
Volume	95
DOIs	https://doi.org/10.1016/j.jes.2020.03.042
Publication status	Published - Sept 2020

Bibliographical note

Funding Information: This work was achieved in the frame of Labex chemical and physical properties of the atmosphere (Labex CaPPA) project, funded by agence nationale de la recherché (ANR) through the program d'investissements d'avenir (PIA) (No. ANR-11-LABX-0005-01), and contrat de plan état-région changement climatique dynamique de l'atmosphère impacts sur la biodiversité et la santé humaine (CPER CLIMIBIO) project, funded by the hauts-de-france regional council and the european regional development fund (ERDF). Work of Pavla Dagsson-Waldhauserova was partly funded by the Czech Science Foundation under the 'the role of high latitude dust in changing climate' (HLD-CHANGE) project (No. 20-06168Y ). Manolis N. Romanias is thankful to the INSU LEFE-CHAT program for financial support. Publisher Copyright: © 2020

Other keywords

HONO
Product yields
Simulated atmospheric conditions
Uptake coefficients
Volcanic dust

Access to Document

10.1016/j.jes.2020.03.042

Cite this

@article{57d3556aaa634f60a906f4622f841557,

title = "Reactive uptake of NO2 on volcanic particles: A possible source of HONO in the atmosphere",

abstract = "The heterogeneous degradation of nitrogen dioxide (NO2) on five samples of natural Icelandic volcanic particles has been investigated. Laboratory experiments were carried out under simulated atmospheric conditions using a coated wall flow tube (CWFT). The CWFT reactor was coupled to a blue light nitrogen oxides analyzer (NOx analyzer), and a long path absorption photometer (LOPAP) to monitor in real time the concentrations of NO2, NO and HONO, respectively. Under dark and ambient relative humidity conditions, the steady state uptake coefficients of NO2 varied significantly between the volcanic samples probably due to differences in magma composition and morphological variation related with the density of surface OH groups. The irradiation of the surface with simulated sunlight enhanced the uptake coefficients by a factor of three indicating that photo-induced processes on the surface of the dust occur. Furthermore, the product yields of NO and HONO were determined under both dark and simulated sunlight conditions. The relative humidity was found to influence the distribution of gaseous products, promoting the formation of gaseous HONO. A detailed reaction mechanism is proposed that supports our experimental observations. Regarding the atmospheric implications, our results suggest that the NO2 degradation on volcanic particles and the corresponding formation of HONO is expected to be significant during volcanic dust storms or after a volcanic eruption.",

keywords = "HONO, Product yields, Simulated atmospheric conditions, Uptake coefficients, Volcanic dust",

author = "Romanias, \{Manolis N.\} and Yangang Ren and Benoit Grosselin and V{\'e}ronique Da{\"e}le and Abdelwahid Mellouki and Pavla Dagsson-Waldhauserova and Frederic Thevenet",

note = "Funding Information: This work was achieved in the frame of Labex chemical and physical properties of the atmosphere (Labex CaPPA) project, funded by agence nationale de la recherch{\'e} (ANR) through the program d'investissements d'avenir (PIA) (No. ANR-11-LABX-0005-01), and contrat de plan {\'e}tat-r{\'e}gion changement climatique dynamique de l'atmosph{\`e}re impacts sur la biodiversit{\'e} et la sant{\'e} humaine (CPER CLIMIBIO) project, funded by the hauts-de-france regional council and the european regional development fund (ERDF). Work of Pavla Dagsson-Waldhauserova was partly funded by the Czech Science Foundation under the 'the role of high latitude dust in changing climate' (HLD-CHANGE) project (No. 20-06168Y ). Manolis N. Romanias is thankful to the INSU LEFE-CHAT program for financial support. Publisher Copyright: {\textcopyright} 2020",

year = "2020",

month = sep,

doi = "10.1016/j.jes.2020.03.042",

language = "English",

volume = "95",

pages = "155--164",

journal = "Journal of Environmental Sciences (China)",

issn = "1001-0742",

publisher = "Chinese Academy of Sciences",

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TY - JOUR

T1 - Reactive uptake of NO2 on volcanic particles

T2 - A possible source of HONO in the atmosphere

AU - Romanias, Manolis N.

AU - Ren, Yangang

AU - Grosselin, Benoit

AU - Daële, Véronique

AU - Mellouki, Abdelwahid

AU - Dagsson-Waldhauserova, Pavla

AU - Thevenet, Frederic

N1 - Funding Information: This work was achieved in the frame of Labex chemical and physical properties of the atmosphere (Labex CaPPA) project, funded by agence nationale de la recherché (ANR) through the program d'investissements d'avenir (PIA) (No. ANR-11-LABX-0005-01), and contrat de plan état-région changement climatique dynamique de l'atmosphère impacts sur la biodiversité et la santé humaine (CPER CLIMIBIO) project, funded by the hauts-de-france regional council and the european regional development fund (ERDF). Work of Pavla Dagsson-Waldhauserova was partly funded by the Czech Science Foundation under the 'the role of high latitude dust in changing climate' (HLD-CHANGE) project (No. 20-06168Y ). Manolis N. Romanias is thankful to the INSU LEFE-CHAT program for financial support. Publisher Copyright: © 2020

PY - 2020/9

Y1 - 2020/9

N2 - The heterogeneous degradation of nitrogen dioxide (NO2) on five samples of natural Icelandic volcanic particles has been investigated. Laboratory experiments were carried out under simulated atmospheric conditions using a coated wall flow tube (CWFT). The CWFT reactor was coupled to a blue light nitrogen oxides analyzer (NOx analyzer), and a long path absorption photometer (LOPAP) to monitor in real time the concentrations of NO2, NO and HONO, respectively. Under dark and ambient relative humidity conditions, the steady state uptake coefficients of NO2 varied significantly between the volcanic samples probably due to differences in magma composition and morphological variation related with the density of surface OH groups. The irradiation of the surface with simulated sunlight enhanced the uptake coefficients by a factor of three indicating that photo-induced processes on the surface of the dust occur. Furthermore, the product yields of NO and HONO were determined under both dark and simulated sunlight conditions. The relative humidity was found to influence the distribution of gaseous products, promoting the formation of gaseous HONO. A detailed reaction mechanism is proposed that supports our experimental observations. Regarding the atmospheric implications, our results suggest that the NO2 degradation on volcanic particles and the corresponding formation of HONO is expected to be significant during volcanic dust storms or after a volcanic eruption.

AB - The heterogeneous degradation of nitrogen dioxide (NO2) on five samples of natural Icelandic volcanic particles has been investigated. Laboratory experiments were carried out under simulated atmospheric conditions using a coated wall flow tube (CWFT). The CWFT reactor was coupled to a blue light nitrogen oxides analyzer (NOx analyzer), and a long path absorption photometer (LOPAP) to monitor in real time the concentrations of NO2, NO and HONO, respectively. Under dark and ambient relative humidity conditions, the steady state uptake coefficients of NO2 varied significantly between the volcanic samples probably due to differences in magma composition and morphological variation related with the density of surface OH groups. The irradiation of the surface with simulated sunlight enhanced the uptake coefficients by a factor of three indicating that photo-induced processes on the surface of the dust occur. Furthermore, the product yields of NO and HONO were determined under both dark and simulated sunlight conditions. The relative humidity was found to influence the distribution of gaseous products, promoting the formation of gaseous HONO. A detailed reaction mechanism is proposed that supports our experimental observations. Regarding the atmospheric implications, our results suggest that the NO2 degradation on volcanic particles and the corresponding formation of HONO is expected to be significant during volcanic dust storms or after a volcanic eruption.

KW - HONO

KW - Product yields

KW - Simulated atmospheric conditions

KW - Uptake coefficients

KW - Volcanic dust

UR - https://www.scopus.com/pages/publications/85085011403

U2 - 10.1016/j.jes.2020.03.042

DO - 10.1016/j.jes.2020.03.042

M3 - Article

C2 - 32653175

SN - 1001-0742

VL - 95

SP - 155

EP - 164

JO - Journal of Environmental Sciences (China)

JF - Journal of Environmental Sciences (China)

ER -