Your search keyword '"Yuhang Wang"' showing total 16 results

1. Chemical Production of Oxygenated Volatile Organic Compounds Strongly Enhances Boundary-Layer Oxidation Chemistry and Ozone Production

Author

Ruixiong Zhang, Sebastian Broch, Xiaoxi Liu, Limin Zeng, Yuanhang Zhang, Steven Sjostedt, Tong Zhu, Hang Qu, Hendrik Fuchs, Min Shao, Andreas Wahner, Zhaofeng Tan, Yuhang Wang, Min Hu, Keding Lu, Yusheng Wu, and L. G. Huey

Subjects

Ozone, 010504 meteorology & atmospheric sciences, Radical, 010501 environmental sciences, 01 natural sciences, 7. Clean energy, Redox, Chemical production, chemistry.chemical_compound, 11. Sustainability, Environmental Chemistry, NOx, 0105 earth and related environmental sciences, Air Pollutants, Volatile Organic Compounds, Primary (chemistry), Photodissociation, General Chemistry, Boundary layer, chemistry, 13. Climate action, Environmental chemistry, ddc:333.7, Nitrogen Oxides, Environmental Monitoring

Abstract

Photolysis of oxygenated volatile organic compounds (OVOCs) produces a primary source of free radicals, including OH and inorganic and organic peroxy radicals (HO2 and RO2), consequently increasing photochemical ozone production. The amplification of radical cycling through OVOC photolysis provides an important positive feedback mechanism to accelerate ozone production. The large production of OVOCs near the surface helps promote photochemistry in the whole boundary layer. This amplifier effect is most significant in regions with high nitrogen oxides (NOx) and VOC concentrations such as Wangdu, China. Using a 1-D model with comprehensive observations at Wangdu and the Master Chemical Mechanism (MCM), we find that OVOC photolysis is the largest free-radical source in the boundary layer (46%). The condensed chemistry mechanism we used severely underestimates the OVOC amplifier effect in the boundary layer, resulting in a lower ozone production rate sensitivity to NOx emissions. Due to this underestimation, the model-simulated threshold NOx emission value, below which ozone production decreases with NOx emission decrease, is biased low by 24%. The underestimated OVOC amplifier effect in a condensed mechanism implies a low bias in the current 3-D model-estimated efficacy of NOx emission reduction on controlling ozone in polluted urban and suburban regions of China.

Published

2021

2. No Evidence for a Significant Impact of Heterogeneous Chemistry on Radical Concentrations in the North China Plain in Summer 2014

Author

Zhaofeng Tan, Andreas Hofzumahaus, Keding Lu, Steven S. Brown, Frank Holland, Lewis Gregory Huey, Astrid Kiendler-Scharr, Xin Li, Xiaoxi Liu, Nan Ma, Kyung-Eun Min, Franz Rohrer, Min Shao, Andreas Wahner, Yuhang Wang, Alfred Wiedensohler, Yusheng Wu, Zhijun Wu, Limin Zeng, Yuanhang Zhang, Hendrik Fuchs

Published

2020

3. Impacts of the Degradation of 2,3,3,3-Tetrafluoropropene into Trifluoroacetic Acid from Its Application in Automobile Air Conditioners in China, the United States, and Europe

Author

Boya Zhang, Jianxin Hu, Yuhang Wang, Jianfeng Li, Jianbo Zhang, Ziyuan Wang, and Stephan Henne

Subjects

China, 010504 meteorology & atmospheric sciences, Chemical transport model, Air pollution, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Refrigerant, chemistry.chemical_compound, Africa, Northern, 2,3,3,3-Tetrafluoropropene, Trifluoroacetic acid, medicine, Trifluoroacetic Acid, Environmental Chemistry, 0105 earth and related environmental sciences, Air Pollutants, Fluorocarbons, business.industry, General Chemistry, United States, Europe, chemistry, Air conditioning, Environmental chemistry, Degradation (geology), Environmental science, business, Automobiles, Environmental Monitoring

Abstract

HFO-1234yf (2,3,3,3-tetrafluoropropene) was proposed as an automobile air conditioner (MAC) refrigerant worldwide. However, its atmospheric degradation product is the highly soluble and phytotoxic trifluoroacetic acid (TFA), which persists in aquatic environments. We used a global three-dimensional chemical transport model to assess the potential environmental effects resulting from complete future conversion of the refrigerant in all MAC to HFO-1234yf in China, the United States, and Europe. The annual mean atmospheric concentrations of HFO-1234yf were 2.62, 2.20, and 2.73 pptv, and the mean deposition rates of TFA were 0.96, 0.45, and 0.52 kg km–2 yr–1, in three regions. The regional TFA deposition sources mainly came from emissions within the same region. The annual TFA deposition in the North Pole region was lower than the global average and mainly originated from European emissions. A potential doubling in the future HFO-1234yf emissions in China mainly affected the local TFA depositions. The TFA con...

Published

2018

4. High Levels of Daytime Molecular Chlorine and Nitryl Chloride at a Rural Site on the North China Plain

Author

Hang Qu, Keding Lu, Min Shao, Limin Zeng, Yusheng Wu, Yuanhang Zhang, Min Hu, Steven Sjostedt, L. Gregory Huey, Yuhang Wang, Tong Zhu, and Xiaoxi Liu

Subjects

Air Pollutants, China, Daytime, Chemical ionization, Ozone, 010504 meteorology & atmospheric sciences, Inorganic chemistry, Diurnal temperature variation, chemistry.chemical_element, General Chemistry, 010501 environmental sciences, Noon, 01 natural sciences, chemistry.chemical_compound, chemistry, Environmental chemistry, Chlorine, Environmental Chemistry, Nitrites, Sulfur dioxide, Environmental Monitoring, 0105 earth and related environmental sciences, Morning

Abstract

Molecular chlorine (Cl2) and nitryl chloride (ClNO2) concentrations were measured using chemical ionization mass spectrometry at a rural site over the North China Plain during June 2014. High levels of daytime Cl2 up to ∼450 pptv were observed. The average diurnal Cl2 mixing ratios showed a maximum around noon at ∼100 pptv. ClNO2 exhibited a strong diurnal variation with early morning maxima reaching ppbv levels and afternoon minima sustained above 60 pptv. A moderate correlation (R2 = 0.31) between Cl2 and sulfur dioxide was observed, perhaps indicating a role for power plant emissions in the generation of the observed chlorine. We also observed a strong correlation (R2 = 0.83) between daytime (10:00–20:00) Cl2 and ClNO2, which implies that both of them were formed from a similar mechanism. In addition, Cl2 production is likely associated with a photochemical mechanism as Cl2 concentrations varied with ozone (O3) levels. The impact of Cl2 and ClNO2 as Cl atom sources is investigated using a photochemical...

Published

2017

5. Summertime Clean-Background Ozone Concentrations Derived from Ozone Precursor Relationships are Lower than Previous Estimates in the Southeast United States.

Author

Qiyang Yan, Yuhang Wang, Ye Cheng, and Jianfeng Li

Published

2021

6. NOx Emission Reduction and its Effects on Ozone during the 2008 Olympic Games

Author

William I. Gustafson, Chun Zhao, Min Shao, Zhen Liu, Yuhang Wang, and Qing Yang

Subjects

China, Time Factors, Ozone, Meteorology, Atmospheric sciences, chemistry.chemical_compound, Beijing, Humans, Environmental Chemistry, Human Activities, Nitrogen dioxide, Cities, Emission inventory, Nitrites, NOx, Ozone Monitoring Instrument, Control period, Nitrates, Geography, General Chemistry, chemistry, Temporal resolution, Environmental science, Environmental Pollutants, Sports

Abstract

We applied a daily assimilated inversion method to estimate NO(x) (NO + NO(2)) emissions for June-September 2007 and 2008 on the basis of the Aura Ozone Monitoring Instrument (OMI) observations of nitrogen dioxide (NO(2)) and model simulations using the Regional chEmistry and trAnsport Model (REAM). This method allows for estimating emission changes with a finer temporal resolution than previous studies and shows that the progression of the emission reduction corresponds roughly to the scheduled implementation of emission controls over Beijing. OMI column NO(2) reductions are approximately 45%, 33%, and 14% over urban Beijing, rural Beijing, and the Huabei Plain, respectively, while the corresponding anthropogenic NO(x) emission reductions are only 28%, 24%, and 6%, during the full emission control period (July 20-Sep 20, 2008). Meteorological changes from summer 2007 to 2008 are the main factor contributing to the column NO(2) decreases not accounted for by the emission reduction. The surface ozone changes due to NO(x) emission reduction are negligible using a standard VOC emission inventory. When using enhanced VOC (particularly aromatics) emissions derived from in situ observations, urban Beijing shifted O(3) production from the VOC-limited regime toward the NO(x)-limited regime resulting in a more substantial ozone decrease (up to 10 ppbv).

Published

2011

7. East China Plains: A 'Basin' of Ozone Pollution

Author

Chun Zhao, Tao Zeng, and Yuhang Wang

Subjects

Pollution, China, Conservation of Natural Resources, Time Factors, Meteorology, Chemical transport model, media_common.quotation_subject, Population, Air pollution, Structural basin, medicine.disease_cause, Chine, Ozone, Air Pollution, medicine, Environmental Chemistry, education, media_common, Pollutant, Air Pollutants, Volatile Organic Compounds, education.field_of_study, General Chemistry, Models, Theoretical, Socioeconomic Factors, Environmental science, Physical geography, Maps as Topic

Abstract

Economic growth and associated pollution emissions in China are concentrated over three connected plains to the east In this work, we analyze an episode of highly elevated ozone over East China on June 9-14, 2004, using a 3-D chemical transport model. During this episode, the East China plains were under a high-pressure system, which suppressed the ventilation of pollutants from the boundary layer. Simulated ozone concentrations over a major fraction of East China reached high levels, all the way down to the Pearl River Delta region in the southern border. The convergence of pollutant emissions and population over the vast stretch of the geographically flat plains of East China makes the region susceptible to high-ozone exposure. During this episode, the high-03 region extended over an area >1 million km2, which hosts a population of >800 million people. Model results indicate that controlling anthropogenic NOx emissions effectively reduces the area with high-ozone exposure.

Published

2009

8. Air Quality Impacts from Prescribed Forest Fires under Different Management Practices

Author

Yuhang Wang, Armistead G. Russell, Yongtao Hu, Michelle S. Bergin, Di Tian, and Yongqiang Liu

Subjects

Air Pollutants, Georgia, Meteorology, Forest management, Air pollution, Forestry, General Chemistry, Models, Theoretical, medicine.disease_cause, Combustion, Atmospheric sciences, Fires, Ozone, Air pollutants, Biofuel, Air Pollution, medicine, Environmental Chemistry, Environmental science, Particulate Matter, Air quality index, Management practices

Abstract

Large amounts of air pollutants are emitted during prescribed forest fires. Such emissions and corresponding air quality impacts can be modulated by different forest management practices. The impacts of changing burning seasons and frequencies and of controlling emissions during smoldering on regional air quality in Georgia are quantified using source-oriented air quality modeling, with modified emissions from prescribed fires reflecting effects of each practice. Equivalent fires in the spring and winter are found to have a greater impact on PM2.5 than those in summer, though ozone impacts are larger from spring and summer fires. If prescribed fires are less frequent more biofuel is burnt in each fire, leading to larger emissions and air quality impacts per fire. For example, emissions from a fire with a 5-year fire return interval (FRI) are 72% larger than those from a fire of the same acreage with a 2-year FRI. However, corresponding long-term regional impacts are reduced with the longer FRI since the annual burned area is reduced. Total emissions for fires in Georgia with a 5-year FRI are 32% less than those with a 2-year FRI. Smoldering emissions can lead to approximately 1.0 or 1.9 microg/m3 of PM2.5 in the Atlanta PM2.5 nonattainment area during March 2002.

Published

2008

9. Impacts of the Degradation of 2,3,3,3-Tetrafluoropropene into Trifluoroacetic Acid from Its Application in Automobile Air Conditioners in China, the United States, and Europe.

Author

Ziyuan Wang, Yuhang Wang, Jianfeng Li, Henne, Stephan, Boya Zhang, Jianxin Hu, and Jianbo Zhang

Subjects

*TRIFLUOROACETIC acid, *AUTOMOBILE air conditioning equipment, *AIR conditioning & the environment, *REFRIGERANTS, *HYDROFLUOROCARBONS

Abstract

HFO-1234yf (2,3,3,3-tetrafluoropropene) was proposed as an automobile air conditioner (MAC) refrigerant worldwide. However, its atmospheric degradation product is the highly soluble and phytotoxic trifluoroacetic acid (TFA), which persists in aquatic environments. We used a global three-dimensional chemical transport model to assess the potential environmental effects resulting from complete future conversion of the refrigerant in all MAC to HFO-1234yf in China, the United States, and Europe. The annual mean atmospheric concentrations of HFO-1234yf were 2.62, 2.20, and 2.73 pptv, and the mean deposition rates of TFA were 0.96, 0.45, and 0.52 kg km-2 yr-1, in three regions. The regional TFA deposition sources mainly came from emissions within the same region. The annual TFA deposition in the North Pole region was lower than the global average and mainly originated from European emissions. A potential doubling in the future HFO-1234yf emissions in China mainly affected the local TFA depositions. The TFA concentrations in rainwater were strongly affected by the regional precipitation rates. North Africa and the Middle East, regions with scant rainfall, had extremely high TFA concentrations. The rainwater concentrations of TFA during individual rain events can exceed the level considered to be safe, indicating substantial potential regional risks from future HFO-1234yf use. [ABSTRACT FROM AUTHOR]

Published

2018

10. Derivation of Hydroperoxyl Radical Levels at an Urban Site via Measurement of Pernitric Acid by Iodide Chemical Ionization Mass Spectrometry.

Author

Dexian Chen, Huey, L. Gregory, Tanner, David J., Jianfeng Li, Ng, Nga L., and Yuhang Wang

Published

2017

11. Evidence of Aerosols as a Media for Rapid Daytime HONO Production over China.

Author

Zhen Liu, Yuhang Wang, Costabile, Francesca, Amoroso, Antonio, Chun Zhao, Huey, L. Greg, Shekel, Robert, Jin Liao, and Tong Zhu

Subjects

*AEROSOLS & the environment, *NITROUS acid, *AIR pollution, *INORGANIC synthesis, *AEROSOL analysis, *AIR pollution control

Abstract

Current knowledge of daytime HONO sources remains incomplete. A large missing daytime HONO source has been found in many places around the world, including polluted regions in China. Conventional understanding and recent studies attributed this missing source mainly to ground surface processes or gas-phase chemistry, while assuming aerosols to be an insignificant media for HONO production. We analyze in situ observations of HONO and its precursors at an urban site in Beijing, China, and report an apparent dependence of the missing HONO source strength on aerosol surface area and solar ultraviolet radiation. Based on extensive correlation analysis and process-modeling, we propose that the rapid daytime HONO production in Beijing can be explained by enhanced hydrolytic disproportionation of NO2 on aqueous aerosol surfaces due to catalysis by dicarboxylic acid anions. The combination of high abundance of NO2, aromatic hydrocarbons, and aerosols over broad regions in China likely leads to elevated HONO levels, rapid OH production, and enhanced oxidizing capacity on a regional basis. Our findings call for attention to aerosols as a media for daytime heterogeneous HONO production in polluted regions like Beijing. This study also highlights the complex and uncertain heterogeneous chemistry in China, which merits future efforts of reconciling regional modeling and laboratory experiments, in order to understand and mitigate the regional particulate and O3 pollutions over China. [ABSTRACT FROM AUTHOR]

Published

2014

12. Reduction in NOx Emission Trends over China: Regional and Seasona Variations.

Author

Dasa Gu, Yuhang Wang, Smeltzer, Charles, and Zhen Liu

Subjects

*NITROGEN dioxide, *EMISSIONS (Air pollution), *NITROGEN oxides, *MEGALOPOLIS, ECONOMIC conditions in China, 2000-

Abstract

We analyzed satellite observations of nitrogen dioxide (NO,) columns by the Ozone Monitoring Instrument (OMI) over China from 2005 to 2010 in order to estimate the top-down anthropogenic nitrogen oxides (NOiV) emission trends. Since NOv emissions were affected by the economic slowdown in 2009, we removed one year of abnormal data in the analysis. The estimated average emission trend is 4.01 ± 1.39% yr-1, which is slower than the trend of 5.8-10.8% yr-1 reported for previous years. We find large regional, seasonal, and urban-rural variations in emission trends. The average NOx emission trend of 3-47 ± 1.07% yr-1 in warm season (June-September) is less than the trend of 5.03 ± 1.92% yr-1 in cool season (October-May). The regional annual emission trends decrease from 4.76 + 1.61% yr-1 in North China Plain to 3.11 ± 0.98% yr-1 in Yangtze River Delta and further down to -4.39 ± 1.81% yr-1 in Pearl River Delta. The annual emission trends of the four largest megacities, Shanghai, Beijing, Guangzhou, and Shenzhen are -0.76 ± 0.29%, 0.69 ± 0.27%, -4.46 ± 1.22%, and -7.18 ± 2.88% yr-1, considerably lower than the regional averages or surrounding rural regions. These results appear to suggest that a number of factors, including emission control measures of thermal power plants, increased hydro-power usage, vehicle emission regulations, and closure or migration of high-emission industries, have significantly reduced or even reversed the increasing trend of NOA. emissions in more economically developed megacities and southern coastal regions, but their effects are not as significant in other major cities or less economically developed regions. [ABSTRACT FROM AUTHOR]

Published

2013

13. Evidence of Reactive Aromatics As a Major Source of Peroxy Acetyl Nitrate over China.

Author

ZHEN LIU, YUHANG WANG, DASA GU, CHUN ZHAO, HUEY, L. GREGORY, STICKEL, ROBERT, JIN LIAO, MIN SHAO, TONG ZHU, LIMIN ZENG, SHAW-CHEN LIU, CHIH-CHUNG CHANG, AMOROSO, ANTONIO, and COSTABILE, FRANCESCA

Subjects

*AIR pollution, *PEROXYACETYL nitrate, *AROMATIC compounds, *OXIDATION-reduction reaction, *OZONE, *PHOTOCHEMISTRY

Abstract

We analyze the observations of near-surface peroxy acetyl nitrate (PAN) and its precursors in Beijing, China in August of 2007. The levels of PAN are remarkably high (up to 14 ppbv), surpassing those measured over other urban regions in recent years. Analyses employing a 1-D version of a chemical transport model (Regional chEmical and trAnsport Model, REAM) indicate that aromatic non-methane hydrocarbons (NMHCs) are the dominant (55-75%) PAN source. The major oxidation product of aromatics that produces acetyl peroxy radicals is methylglyoxal (MGLY). PAN and O3 in the observations are correlated at daytime; aromatic NMHCs appear to play an important role in O3 photochemistry. Previous NMHC measurements indicate the presence of reactive aromatics at high levels over broad polluted regions of China. Aromatics are often ignored in global and (to a lesser degree) regional 3D photochemical transport models; their emissions over China as well as photochemistry are quite uncertain. Our findings suggest that critical assessments of aromatics emissions and chemistry (such as the yields of MGLY) are necessary to understand and assess ozone photochemistry and regional pollution export in China. [ABSTRACT FROM AUTHOR]

Published

2010

14. Assessment of Biomass Burning Emissions and Their Impacts on Urban and Regional PM2.5: A Georgia Case Study.

Author

DI TIAN, YONGTAO HU, YUHANG WANG, BOYLAN, JAMES W., MEI ZHENG, and RUSSELL, ARMISTEAD G.

Published

2009

15. Impacts of Prescribed Fires on Air auality over the Southeastern United States in Spring Based on Modeling and Ground/Satellite Measurements.

Author

TAO ZENG, YUHANG WANG, YOSHIDA, YASUKO, DI TIAN, RUSSELL, AMISTEAD G., and BARNARD, WILLIAM R.

Subjects

*PRESCRIBED burning, *EMISSIONS (Air pollution), *EMISSION inventories, *AIR quality, *SPECTROPHOTOMETERS, *SPECTRORADIOMETER

Abstract

Prescribed burning is a large aerosol source in the southeastern United States. Its air quality impact is investigated using 3-D model simulations and analysis of ground and satellite observations. Fire emissions for 2002 are calculated based on a recently developed VISTAS emission inventory. March was selected for the investigation because it is the most active prescribed fire month. Inclusion of fire emissions significantly improved model performance. Model results show that prescribed fire emissions lead to ∼50% enhancements of mean OC and EC concentrations in the Southeast and a daily increase of PM2.5 up to 25 μg m-3, indicating that fire emissions can lead to PM2.5 nonattainment in affected regions. Surface enhancements of CO up to 200 ppbv are found. Fire count measurements from the moderate resolution imaging spectroradiometer (MODIS) onboard the NASA Terra satellite show large springtime burning in most states, which is consistent with the emission inventory. These measurements also indicate that the inventory may underestimate fire emissions in the summer. [ABSTRACT FROM AUTHOR]

Published

2008

16. Air Quality Impacts from Prescribed Forest Fires under Different Management Practices.

Author

Di Tian, Yuhang Wang, Bergin, Michelle, Yongtao Hu, Yongqiang Liu, and Russell, Armistead G.

Subjects

*FOREST fire management, *FOREST fire prevention & control, *AIR pollution monitoring, *AIR quality, *EMISSIONS trading, *EMISSION standards, *ENVIRONMENTAL quality

Abstract

Large amounts of air pollutants are emitted during prescribed forest fires. Such emissions and corresponding air quality impacts can be modulated by different forest management practices. The impacts of changing burning seasons and frequencies and of controlling emissions during smoldering on regional air quality in Georgia are quantified using source-oriented air quality modeling, with modified emissions from prescribed fires reflecting effects of each practice. Equivalent fires in the spring and winter are found to have a greater impact on PM2.5 than those in summer, though ozone impacts are larger from spring and summer fires. If prescribed fires are less frequent more biofuel is burnt in each fire, leading to larger emissions and air quality impacts per fire. For example, emissions from a fire with a 5-year fire return interval (FRI) are 72% larger than those from a fire of the same acreage with a 2-year FRI. However, corresponding long-term regional impacts are reduced with the longer FRI since the annual burned area is reduced. Total emissions for fires in Georgia with a 5-year FRI are 32% less than those with a 2-year FRI. Smoldering emissions can lead to approximately 1.0 or 1.9 µg/m³ of PM2.5 in the Atlanta PM2.5 nonattainment area during March 2002. [ABSTRACT FROM AUTHOR]

Published

2008