Articles | Volume 22, issue 7
https://doi.org/10.5194/acp-22-4929-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
https://doi.org/10.5194/acp-22-4929-2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.
the Creative Commons Attribution 4.0 License.
Direct measurements of ozone response to emissions perturbations in California
Shenglun Wu
Department of Civil and Environmental Engineering, University of
California Davis, 1 Shields Ave, Davis, CA 95616, USA
Hyung Joo Lee
Division of Environmental Science and Engineering, Pohang University
of Science and Technology (POSTECH), Pohang, Gyeongbuk 37673, South Korea
Andrea Anderson
Department of Chemistry, University of California Irvine, Irvine, CA
92697, USA
previously published under the name Rohrbacher
Shang Liu
Research Division, California Air Resources Board, 1001 I Street,
Sacramento, CA 95814, USA
Toshihiro Kuwayama
Research Division, California Air Resources Board, 1001 I Street,
Sacramento, CA 95814, USA
John H. Seinfeld
Department of Chemical Engineering, California Institute of
Technology, 1200 E. California Blvd, Pasadena, CA 91125, USA
Michael J. Kleeman
CORRESPONDING AUTHOR
Department of Civil and Environmental Engineering, University of
California Davis, 1 Shields Ave, Davis, CA 95616, USA
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Cited
14 citations as recorded by crossref.
- Modeling Ground Ozone Concentration Changes after Variations in Precursor Emissions and Assessing Their Benefits in the Kanto Region of Japan J. Vazquez Santiago et al. 10.3390/atmos13081187
- Source apportionment of Volatile Organic Compounds (VOCs) in the South Coast Air Basin (SoCAB) During RECAP-CA S. Wu et al. 10.1016/j.atmosenv.2024.120847
- Separately resolving NOx and VOC contributions to ozone formation Y. Zhao et al. 10.1016/j.atmosenv.2022.119224
- Direct evaluation of the ozone production regime in smog chamber experiments Y. Morino et al. 10.1016/j.atmosenv.2023.119889
- Drought and ozone air quality in California: Identifying susceptible regions in the preparedness of future drought H. Lee et al. 10.1016/j.envres.2022.114461
- Simultaneous decreases in NO2 levels and disparities in California during the COVID-19 pandemic H. Lee et al. 10.1016/j.atmosenv.2023.120214
- O3 Sensitivity to NOx and VOC During RECAP-CA: Implication for Emissions Control Strategies S. Wu et al. 10.1021/acsestair.4c00026
- Composition and reactivity of volatile organic compounds in the South Coast Air Basin and San Joaquin Valley of California S. Liu et al. 10.5194/acp-22-10937-2022
- Satellite remote-sensing capability to assess tropospheric-column ratios of formaldehyde and nitrogen dioxide: case study during the Long Island Sound Tropospheric Ozone Study 2018 (LISTOS 2018) field campaign M. Johnson et al. 10.5194/amt-16-2431-2023
- Responses of surface ozone under the tropical cyclone circulations: Case studies from Fujian Province, China K. Wang et al. 10.1016/j.apr.2024.102323
- Evaluating the Applicability of a Real-Time Highly Oxygenated Organic Molecule (HOM)-Based Indicator for Ozone Formation Sensitivity at a Boreal Forest Station J. Zhang et al. 10.1021/acs.estlett.4c00733
- Ozone response modeling to NOx and VOC emissions: Examining machine learning models C. Kuo & J. Fu 10.1016/j.envint.2023.107969
- Solitons and traveling waves structure for the Schrödinger–Hirota model in fluids F. Badshah et al. 10.1142/S0219887824501457
- High-Resolution Modeling of Summertime Biogenic Isoprene Emissions in New York City D. Wei et al. 10.1021/acs.est.4c00495
14 citations as recorded by crossref.
- Modeling Ground Ozone Concentration Changes after Variations in Precursor Emissions and Assessing Their Benefits in the Kanto Region of Japan J. Vazquez Santiago et al. 10.3390/atmos13081187
- Source apportionment of Volatile Organic Compounds (VOCs) in the South Coast Air Basin (SoCAB) During RECAP-CA S. Wu et al. 10.1016/j.atmosenv.2024.120847
- Separately resolving NOx and VOC contributions to ozone formation Y. Zhao et al. 10.1016/j.atmosenv.2022.119224
- Direct evaluation of the ozone production regime in smog chamber experiments Y. Morino et al. 10.1016/j.atmosenv.2023.119889
- Drought and ozone air quality in California: Identifying susceptible regions in the preparedness of future drought H. Lee et al. 10.1016/j.envres.2022.114461
- Simultaneous decreases in NO2 levels and disparities in California during the COVID-19 pandemic H. Lee et al. 10.1016/j.atmosenv.2023.120214
- O3 Sensitivity to NOx and VOC During RECAP-CA: Implication for Emissions Control Strategies S. Wu et al. 10.1021/acsestair.4c00026
- Composition and reactivity of volatile organic compounds in the South Coast Air Basin and San Joaquin Valley of California S. Liu et al. 10.5194/acp-22-10937-2022
- Satellite remote-sensing capability to assess tropospheric-column ratios of formaldehyde and nitrogen dioxide: case study during the Long Island Sound Tropospheric Ozone Study 2018 (LISTOS 2018) field campaign M. Johnson et al. 10.5194/amt-16-2431-2023
- Responses of surface ozone under the tropical cyclone circulations: Case studies from Fujian Province, China K. Wang et al. 10.1016/j.apr.2024.102323
- Evaluating the Applicability of a Real-Time Highly Oxygenated Organic Molecule (HOM)-Based Indicator for Ozone Formation Sensitivity at a Boreal Forest Station J. Zhang et al. 10.1021/acs.estlett.4c00733
- Ozone response modeling to NOx and VOC emissions: Examining machine learning models C. Kuo & J. Fu 10.1016/j.envint.2023.107969
- Solitons and traveling waves structure for the Schrödinger–Hirota model in fluids F. Badshah et al. 10.1142/S0219887824501457
- High-Resolution Modeling of Summertime Biogenic Isoprene Emissions in New York City D. Wei et al. 10.1021/acs.est.4c00495
Latest update: 20 Nov 2024
Short summary
An ozone control experiment usually conducted in the laboratory was installed in a trailer and moved to the outdoor environment to directly confirm that we are controlling the right sources in order to lower ambient ozone concentrations. Adding small amounts of precursor oxides of nitrogen and volatile organic compounds to ambient air showed that the highest ozone concentrations are best controlled by reducing concentrations of oxides of nitrogen. The results confirm satellite measurements.
An ozone control experiment usually conducted in the laboratory was installed in a trailer and...
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