Modeling secondary organic aerosol formation from volatile chemical products
Abstract µ g m- 3 - - 58 % when compared to observations in Los Angeles in 2010. While oxygenated and nonoxygenated intermediate-volatility VCP species are emitted in similar quantities, SOA formation is dominated by the nonoxygenated IVOCs. Formaldehyde and SOA show similar relationships to temperature and bias signatures, indicating common sources and/or chemistry. This work suggests that VCPs contribute up to half of anthropogenic SOA in Los Angeles and models must better represent SOA precursors from VCPs to predict the urban enhancement of SOA.
- Location
-
Deutsche Nationalbibliothek Frankfurt am Main
- Extent
-
Online-Ressource
- Language
-
Englisch
- Bibliographic citation
-
Modeling secondary organic aerosol formation from volatile chemical products ; volume:21 ; number:24 ; year:2021 ; pages:18247-18261 ; extent:15
Atmospheric chemistry and physics ; 21, Heft 24 (2021), 18247-18261 (gesamt 15)
- Creator
-
Pennington, Elyse A.
Seltzer, Karl M.
Murphy, Benjamin N.
Qin, Momei
Seinfeld, John H.
Pye, Havala O. T.
- DOI
-
10.5194/acp-21-18247-2021
- URN
-
urn:nbn:de:101:1-2021122304364505475196
- Rights
-
Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
-
15.08.2025, 7:21 AM CEST
Data provider
This object is provided by:
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Pennington, Elyse A.
- Seltzer, Karl M.
- Murphy, Benjamin N.
- Qin, Momei
- Seinfeld, John H.
- Pye, Havala O. T.
Other Objects (12)
Modeling secondary organic aerosol formation from volatile chemical products
Reactive oxidation products promote secondary organic aerosol formation from green leaf volatiles
Volatile chemical emissions from fragranced baby products
Reactive organic carbon emissions from volatile chemical products
Volatile Oxidation Products and Secondary Organosiloxane Aerosol from D<sub>5</sub> + OH at Varying OH Exposures
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Changes in Aerosol/Gas-Phase Distribution Ratio of Semi-Volatile Products Affect Secondary Organic Aerosol Formation with NOx from α-Pinene Photooxidation
The role of low volatile organics on secondary organic aerosol formation
Volatile oxidation products and secondary organosiloxane aerosol from D<sub>5</sub> + OH at varying OH exposures
Chemical oxidative potential of secondary organic aerosol (SOA) generated from the photooxidation of biogenic and anthropogenic volatile organic compounds
Chemical specication of biofuel combustion aerosol an their secondary organic aerosol formation potential
Modeling secondary organic aerosol formation from volatile chemical products
Reactive oxidation products promote secondary organic aerosol formation from green leaf volatiles
Volatile chemical emissions from fragranced baby products
Reactive organic carbon emissions from volatile chemical products
Volatile Oxidation Products and Secondary Organosiloxane Aerosol from D<sub>5</sub> + OH at Varying OH Exposures
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Changes in Aerosol/Gas-Phase Distribution Ratio of Semi-Volatile Products Affect Secondary Organic Aerosol Formation with NOx from α-Pinene Photooxidation
The role of low volatile organics on secondary organic aerosol formation
Volatile oxidation products and secondary organosiloxane aerosol from D<sub>5</sub> + OH at varying OH exposures
Chemical oxidative potential of secondary organic aerosol (SOA) generated from the photooxidation of biogenic and anthropogenic volatile organic compounds
Chemical specication of biofuel combustion aerosol an their secondary organic aerosol formation potential
Modeling secondary organic aerosol formation from volatile chemical products
Reactive oxidation products promote secondary organic aerosol formation from green leaf volatiles
Volatile chemical emissions from fragranced baby products
Reactive organic carbon emissions from volatile chemical products
Volatile Oxidation Products and Secondary Organosiloxane Aerosol from D<sub>5</sub> + OH at Varying OH Exposures
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Secondary organic aerosol production from pinanediol, a semi-volatile surrogate for first-generation oxidation products of monoterpenes
Changes in Aerosol/Gas-Phase Distribution Ratio of Semi-Volatile Products Affect Secondary Organic Aerosol Formation with NOx from α-Pinene Photooxidation
The role of low volatile organics on secondary organic aerosol formation
Volatile oxidation products and secondary organosiloxane aerosol from D<sub>5</sub> + OH at varying OH exposures
Chemical oxidative potential of secondary organic aerosol (SOA) generated from the photooxidation of biogenic and anthropogenic volatile organic compounds