Poster Session
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Time: 8-9PM, 30 May |
Venue: Next to Lecture Hall A |
Staff-in-charge: Weijun HUANG |
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时间:30日晚上8-9点 |
地点:演讲厅A旁 |
会场负责人:黄炜俊 |
|
ID |
Name |
Organization |
Title |
|
1 |
Haohao JIA |
Hong Kong University of Science and Technology |
Assessment of systematic bias in Carbonaceous Aerosol Speciation System and Sunset OC/EC analyzer for carbonaceous components determination at a suburban site in Hong Kong |
|
2 |
Tong WU |
Hong Kong University of Science and Technology (Guangzhou) |
Simulating an ozone pollution episode using photochemical air quality models |
|
3 |
Yao CHEN |
Hong Kong University of Science and Technology |
Characteristics and photochemical impacts of atmospheric carbonyl compounds in Eastern China |
|
4 |
Anna Mae VORWERK |
Hong Kong University of Science and Technology |
A Novel Method for Calculating Ambient Aerosol Liquid Water Contents Based on Measurements of a Humidified Nephelometer System |
|
5 |
Yiheng LIU |
South China University of Technology |
Constructing vehicle VOC species emission model based on actual road testing and machine learning |
|
6 |
Puyu LIAN |
South China University of Technology |
AIRS and MODIS Satellite-based Assessment of Air Pollution in Southwestern China: Impact of Stratospheric Intrusions and Cross-Border Transport of Biomass Burning |
|
7 |
Xuelian ZHONG |
Shandong University |
Analysis of HONO Source and Sink Mechanisms Across Varied Atmospheric Environments |
|
8 |
Shu ZHANG |
South China University of Technology |
Using Ensemble Machine Learning Method to Make Long-term Projections of Tropospheric Ozone along Different Shared Socioeconomic Pathways in China |
|
9 |
Yu YANG |
Shandong University, Institute of Environmental Studies |
Unrevealing a missing source of atmospheric organic nitrates from the multiphase reactions between organic peroxides and nitrite |
|
10 |
Huanpeng WANG |
South China University of Technology |
Study on the characteristics of nocturnal ozone increase and the lower boundary layer ozone sources in Xinxiang, China |
|
12 |
Yanchen LI |
Southern University of Science and Technology |
The Roles of Sulfur Dioxide on the Optical Properties of Biogenic Secondary Organic Aerosol |
|
13 |
Yu LI |
Nanjing University of Information Science & Technology |
Volatility and oxygen-carbon ratio modeling of secondary organic aerosols in eastern China |
|
14 |
Landadi CHEN |
Guangzhou Institute of Geochemistry |
The effects of aminium and ammonium cations on the ice nucleation activity of K-feldspa |
|
15 |
Jiyuan GAO |
Nanjing University of Information Science and Technology |
Climate responses in China to domestic and foreign aerosol changes due to clean air actions during 2013– 2019 |
|
16 |
Huiling HE |
South China University of Technology |
基于机器学习的粤港澳大湾区臭氧生成敏感性空间特征识别和多维检验 |
|
17 |
Guowen HE |
Sun Yat-sen University |
The roles of nighttime residual layer on ozone air quality in urban area |
|
18 |
Jinlan LI |
Southern University of Science and Technology |
Ozone deterioration over North China plain caused by light absorption of black carbon and organic carbon |
|
19 |
Pengxiao LI |
Nanjing University of Information Science and Technology |
气溶胶混合状态的数值模拟研究 |
|
20 |
Penggang ZHENG |
Hong Kong University of Science and Technology |
Insights into the oxygenated organic molecules formation mechanism of aromatic photooxidation: molecular characterization and effects of NOx, relative humidity and seeds acidity |
|
21 |
Khalid MEHMOOD |
Jiangsu University |
Comparative analysis of CO2 emissions and economic performance in the United States and China: Navigating sustainable development in the climate change era |
|
22 |
Chenyu SONG |
Hongkong Baptist University |
Reevaluation of Source-Specific Health Risk and Contributing Factors of PM2.5 in Hong Kong Using Water-Soluble Metal Portion |
|
23 |
Hanzhe CHEN |
Hong Kong University of Science and Technology |
Examining Aerosol Acidity-Driven Oxidative Potential: Insights from Volcanic Emissions via Online Measurements |
|
24 |
Yihao WANG |
Chinese Academy of Environmental Planning |
基于健康效益的多污染物优化调控路径 |
|
25 |
Guochen WANG |
Zhejiang University |
Response of PM2.5-bound elemental species to emission variations and associated health risk assessment during the COVID-19 pandemic in a coastal megacity |
|
26 |
Mingyun HU |
Hong Kong University of Science and Technology |
High Spatiotemporal Resolution Estimation and Analysis of Global Surface CO Concentrations Using a Deep Learning Model |
|
27 |
Bin ZHANG |
Xi’an Jiaotong University |
Long term historical daily PM2.5 concentrations estimation (1973 - 2021) for three Chinese megacities using random forest model |
|
28 |
Wenjing ZHANG |
Nanjing University of Information Science and Technology |
Commute exposure to ultrafine particles, black carbon and particulate matters in a suburb from Yangtze River Delta, China |
|
29 |
Han WANG |
Hong Kong University of Science and Technology |
Urban heat mitigation by electrifying vehicle fleet: the case of Hong Kong |
|
30 |
Haobo LI |
Hong Kong University of Science and Technology |
LLM-Driven Visual Analytics for Heat Risk Management |
|
31 |
Yitong GUO |
Chinese University of Hong Kong |
Socioeconomic and age disparities in hospitalization risks associated with hot nights and nighttime heat excess: a time-series study in Hong Kong, 2000-2019 |
|
32 |
Xue ZHANG |
Guangzhou Institute of Tropical and Marine Meteorology |
The influence of lightning activity on NOx and O3 in the Pearl River Delta region |
|
33 |
Shanshan OUYANG |
Jinan University |
Impact of a subtropical high and a typhoon on a severe ozone pollution episode in the Pearl River Delta, China |
|
34 |
Yiang CHEN |
Hong Kong University of Science and Technology |
Temporal Source Apportionment of Ozone Pollution over the Greater Bay Area |
|
35 |
Yaxuan ZHANG |
Hong Kong University of Science and Technology |
Natural Language Processing for Identification of Climate Change Tertiary Risks |
|
36 |
Yingchao GUO |
Nanjing University |
Simulation of maximum urban canopy temperature with a machine learning emulator |
|
37 |
Hao ZHANG |
Nanjing University |
Numerical study of fine-scale urban meteorological environment and human comfort simulation in East China with CLM-LCZs |
|
38 |
Haoyuan YU |
Hong Kong University of Science and Technology (Guangzhou) |
Streamflow and Flood Projection in the Pearl River Basin in the context of climate change |
|
39 |
Bo LIANG |
Chinese Academy of Meteorological Sciences |
Analysis of global tropospheric ozone concentration variation characteristics from 1980 to 2020. |
|
40 |
Peng XUAN |
Peking University Shenzhen Graduate School |
Analysis of the Characteristics of New Particle Generation in Autumn in Shenzhen |
|
41 |
Ning YANG |
Jinan University |
Intermediate volatility organic compounds (IVOCs) emissions based on source-specific emission ratios relative to non-methane volatile organic compounds (NMVOCs) give better representation of the spatial distribution of IVOCs in China |
|
42 |
Dong LI |
Jinan University |
Real-world Greenhouse Gas Emission Characteristics from In-use Light-duty Diesel Trucks in China |
|
43 |
Boyang JIAO |
Peking University Shenzhen Graduate School |
深圳大气气态硝酸变化规律及研究 |
|
44 |
Jin MA |
Utrecht University |
Investigations of the Global Budget of Carbonyl Sulfide Using Data Assimilation of Surface and Satellite Observations |
|
45 |
Hongyu GONG |
Hong Kong University of Science and Technology (Guangzhou) |
Emissions of the volatile pollutants from MSW transfer stations: Odor impact assessment |
|
46 |
Yifan ZHUO |
Hong Kong University of Science and Technology (Guangzhou) |
Solar Energy-Regenerated MOF-74@SBA-15 Adsorbents for Indoor Carbon Dioxide Capture |
|
47 |
Jiashu YE |
Hong Kong University of Science and Technology (Guangzhou) |
Characterisation and estimation of industrial near real- time emissions using multiple satellite retrievals and base-year emission inventories |
|
48 |
Zhilin WANG |
Nanjing University of Information Science & Technology |
Assessment of the Impact of Assimilating Himawari and MODIS AOD on Aerosol AOD Simulation |
|
49 |
Fanglin WANG |
Chinese University of HongKong |
Source Apportionment of Volatile Organic Compounds (VOCs) through Field Observations and Laboratory Studies |
|
50 |
Wenlin CHEN |
Hong Kong University of Science and Technology |
Spatiotemporal Characteristics and Source Analysis of an Ozone Episode based on Low-cost Sensor Network |
|
51 |
Zhenxing LIANG |
Hong Kong University of Science and Technology |
Diurnal carbon monoxide retrieved from FY-4B/GIIRS using a novel machine learning method |
|
52 |
Ya WANG |
Hong Kong University of Science and Technology |
Characteristics of Microscale Air Pollutants from Traffic Emission and Its Response to the Change of Traffic and Built Environment |
|
53 |
Jiaxin CAO |
South China University of technology |
Apportionment of VOCs in the Guangdong-Hong Kong- Macao Greater Bay Area Based on Gridded Sampling and Integration Verification with Emission Inventory |
|
54 |
Weitao FU |
Southern University of Science and Technology |
Diurnal HCHO Observations from GEMS Satellite: Validation and Inversion of Hourly Production |
|
55 |
Naveed AHMAD |
Hong Kong University of Science and Technology |
Satellite-derived ground-level NO2 concentrations in China: Spatio-temporal distributions for 2021 and policy implications |
|
56 |
Tingting WANG |
China University of Geosciences |
Unveiling the Elemental Ratios, Formation Mechanism, and Impact on the Atmospheric Environment of Primary Aerosols Using an Offline Aerosol Mass Spectrometer |
|
57 |
Tianle ZHANG |
Peking University |
Contribution of Dust and Anthropogenic Emission Sources to Fe in Atmospheric PM2.5 in Beijing |
|
58 |
Xuan LI |
Nanjing University of Information Science & Technology |
Modelling of Atmospheric Oxygenated Volatile Organic Compounds in the Yangtze River Delta Region |
|
59 |
Zheng XIAO |
East China University of Science and Technology |
Characterization and sources of volatile organic compounds (VOCs) during 2022 summer ozone pollution control in Shanghai, China |
|
60 |
Zehao WU |
Hainan University |
Study on the Relationship Between Ozone Concentrations and Meteorological Conditions in Haikou |
|
61 |
Tao LI |
Hong Kong University of Science and Technology |
Impacts of COVID-19 lockdown on chemical composition, sources and oxidative potential of PM2.5 in Nansha, Guangzhou |
|
66 |
Yansu HE |
Chinese University of Hong Kong |
Association between BTEX and cardiovascular disease, dyslipidemia and leukocytosis in national US population |
|
68 |
Chenchen ZHANG |
Hong Kong University of Science and Technology |
Assessing and forecasting traffic emissions in the era of electric vehicle proliferation, China: A spatial heterogeneity perspective |
|
69 |
Han MEI |
Hong Kong University of Science and Technology |
Application of high-density air and meteorological sensor network for environmental management and policy intervention |
|
70 |
Pei LI |
Guangzhou University |
Maximum July-August temperatures for the middle of the southern Tien Shan inferred from tree-ring latewood maximum densities |
|
71 |
Yan CHENG |
Xi’an Jiaotong University |
Spatiotemporal characteristics of ozone and the formation sensitivity over the Fenwei Plain |
|
72 |
Yanan WANG |
Hong Kong Polytechnic University |
Establishment of national soil nitrousacid emissions network: parameterization and its effect on air quality |
|
73 |
Tong WU |
Hong Kong University of Science and Technology (Guangzhou) |
Simulating an ozone pollution episode using photochemical air quality models |
|
74 |
Yongjian DENG |
Hong Kong University of Science and Technology (Guangzhou) |
Untargeted Metabolomics Reveal the Bioaccessibility and Compositional Changes of PM2.5 in Two Simulated Lung Fluids |
|
75 |
Yuting SHEN |
Hong Kong University of Science and Technology (Guangzhou) |
Assessment of ROS Generated by Macrophages Exposed to Organics and Metal Mixtures |
|
76 |
Jianing LIU |
Hong Kong University of Science and Technology (Guangzhou) |
Development and evaluation of an automated online system to assess the oxidative potential of particles in aqueous extracts through the dithiothreitol (DTT) assay |