Your search keyword '"Hu, Wei"' showing total 6 results

1. Impact of biogenic secondary organic aerosol (SOA) loading on the molecular composition of wintertime PM2.5 in urban Tianjin: an insight from Fourier transform ion cyclotron resonance mass spectrometry.

Author

Zhong, Shujun, Chen, Shuang, Deng, Junjun, Fan, Yanbing, Zhang, Qiang, Xie, Qiaorong, Qi, Yulin, Hu, Wei, Wu, Libin, Li, Xiaodong, Pavuluri, Chandra Mouli, Zhu, Jialei, Wang, Xin, Liu, Di, Pan, Xiaole, Sun, Yele, Wang, Zifa, Xu, Yisheng, Tong, Haijie, and Su, Hang

Subjects

ION cyclotron resonance spectrometry, FOURIER transforms, AEROSOLS, WINTER, BIOMASS burning

Abstract

Biomass burning is one of the key sources of urban aerosols in the North China Plain, especially during winter, when the impact of secondary organic aerosols (SOAs) formed from biogenic volatile organic compounds (BVOCs) is generally considered to be minor. However, little is known about the influence of biogenic SOA loading on the molecular composition of wintertime organic aerosols. Here, we investigated the water-soluble organic compounds in fine particulate matter (PM 2.5) from urban Tianjin by ultrahigh-resolution Fourier transform ion cyclotron resonanc mass spectrometry (FT-ICR MS). Our results show that most of the CHO and CHON compounds are derived from biomass burning which are poor in oxygen and contain aromatic rings that probably contribute to light-absorbing brown carbon (BrC) chromophores. Under moderate to high SOA-loading conditions, the nocturnal chemistry is more efficient than photooxidation to generate secondary CHO and CHON compounds with high oxygen content. Under low SOA loading, secondary CHO and CHON compounds with low oxygen content are mainly formed by photochemistry. Secondary CHO compounds are mainly derived from oxidation of monoterpenes. However, nocturnal chemistry may be more productive to sesquiterpene-derived CHON compounds. In contrast, the number- and intensity-weight of S-containing groups (CHOS and CHONS) increased significantly with the increase of biogenic SOA loading, which agrees with the fact that a majority of the S-containing groups are identified as organosulfates (OSs) and nitrooxy–organosulfates (nitrooxy–OSs) that are derived from the oxidation of BVOCs. Terpenes may be potential major contributors to organosulfates and nitrooxy–organosulfates. While the nocturnal chemistry is more beneficial to the formation of organosulfates and nitrooxy–organosulfates under low SOA loading. The SOA loading is an important factor that is associated with the oxidation degree, nitrate group content and chemodiversity of nitrooxy-organosulfates. Furthermore, our study suggests that the hydrolysis of nitrooxy-organosulfates is a possible pathway for the formation of organosulfates. [ABSTRACT FROM AUTHOR]

Published

2023

2. Measurement report: Optical properties and sources of water-soluble brown carbon in Tianjin, North China – insights from organic molecular compositions.

Author

Deng, Junjun, Ma, Hao, Wang, Xinfeng, Zhong, Shujun, Zhang, Zhimin, Zhu, Jialei, Fan, Yanbing, Hu, Wei, Wu, Libin, Li, Xiaodong, Ren, Lujie, Pavuluri, Chandra Mouli, Pan, Xiaole, Sun, Yele, Wang, Zifa, Kawamura, Kimitaka, and Fu, Pingqing

Subjects

CARBONACEOUS aerosols, OPTICAL measurements, OPTICAL properties, BIOMASS burning, LIGHT absorption, FLUORESCENCE spectroscopy

Abstract

Brown carbon (BrC) aerosols exert vital impacts on climate change and atmospheric photochemistry due to their light absorption in the wavelength range from near-ultraviolet (UV) to visible light. However, the optical properties and formation mechanisms of ambient BrC remain poorly understood, limiting the estimation of their radiative forcing. In the present study, fine particles (PM 2.5) were collected during 2016–2017 on a day/night basis over urban Tianjin, a megacity in northern China. Light absorption and fluorescence properties of water extracts of PM 2.5 were investigated to obtain seasonal and diurnal patterns of atmospheric water-soluble BrC. There were obvious seasonal, but no evident diurnal, variations in the light absorption properties of BrC. In winter, BrC showed much stronger light-absorbing ability, with a mass absorption efficiency at 365 nm (MAE 365) in winter (1.54±0.33 m 2 gC -1) that was 1.8 times larger than MAE 365 in summer (0.84±0.22 m 2 gC -1). Direct radiative effects by BrC absorption relative to black carbon in the UV range were 54.3±16.9 % and 44.6±13.9 % in winter and summer, respectively. In addition, five fluorescent components in BrC, including three humic-like fluorophores and two protein-like fluorophores were identified with excitation–emission matrix fluorescence spectrometry and parallel factor (PARAFAC) analysis. The less oxygenated components contributed more to winter and nighttime samples, while more oxygenated components increased in summer and daytime samples. The higher humification index (HIX), together with lower biological index (BIX) and fluorescence index (FI), suggests that the chemical compositions of BrC were associated with a high aromaticity degree in summer and daytime due to photobleaching. Fluorescent properties indicate that wintertime BrC were predominantly affected by primary emissions and fresh secondary organic aerosol (SOA), while summer ones were more influenced by aging processes. Results of source apportionments using organic molecular compositions of the same set of aerosols reveal that fossil fuel combustion and aging processes, primary bioaerosol emission, biomass burning, and biogenic and anthropogenic SOA formation were the main sources of BrC. Biomass burning contributed much more to BrC in winter and at nighttime, while biogenic SOA contributed more in summer and during the daytime. In particular, our study highlights that primary bioaerosol emission is an important source of BrC in urban Tianjin in summer. [ABSTRACT FROM AUTHOR]

Published

2022

3. Large contributions of biogenic and anthropogenic sources to fine organic aerosols in Tianjin, North China.

Author

Fan, Yanbing, Liu, Cong-Qiang, Li, Linjie, Ren, Lujie, Ren, Hong, Zhang, Zhimin, Li, Qinkai, Wang, Shuang, Hu, Wei, Deng, Junjun, Wu, Libin, Zhong, Shujun, Zhao, Yue, Pavuluri, Chandra Mouli, Li, Xiaodong, Pan, Xiaole, Sun, Yele, Wang, Zifa, Kawamura, Kimitaka, and Shi, Zongbo

Subjects

AEROSOLS, CARBONACEOUS aerosols, BIOMASS burning, ALIPHATIC alcohols, SEA breeze, FATTY alcohols, FUNGAL spores, ALKANES

Abstract

In order to better understand the molecular composition and sources of organic aerosols in Tianjin, a coastal megacity in North China, ambient fine aerosol (PM 2.5) samples were collected on a day/night basis from November to December 2016 and from May to June 2017. The organic molecular composition of PM 2.5 components, including aliphatic lipids (n -alkanes, fatty acids, and fatty alcohols), sugar compounds, and photooxidation products from isoprene, monoterpene, β -caryophyllene, naphthalene, and toluene, was analysed using gas chromatography–mass spectrometry. Fatty acids, fatty alcohols, and saccharides were identified as the most abundant organic compound classes among all of the tracers detected in this study during both seasons. High concentrations of most organics at night in winter may be attributed to intensive residential activities such as house heating as well as the low nocturnal boundary layer height. Based on tracer methods, the contributions of the sum of primary and secondary organic carbon (POC and SOC respectively) to aerosol organic carbon (OC) were 24.8 % (daytime) and 27.6 % (night-time) in winter and 38.9 % (daytime) and 32.5 % (night-time) in summer. In detail, POC derived from fungal spores, plant debris, and biomass burning accounted for 2.78 %–31.6 % (12.4 %; please note that values displayed in parentheses in the following are average values) of OC during the daytime and 4.72 %–45.9 % (16.3 %) at night in winter, and 1.28 %–9.89 % (5.24 %) during the daytime and 2.08 %–47.2 % (10.6 %) at night in summer. Biomass-burning-derived OC was the predominant source of POC in this study, especially at night (16.0±6.88 % in winter and 9.62±8.73 % in summer). Biogenic SOC from isoprene, α - /β -pinene, and β -caryophyllene exhibited obvious seasonal and diurnal patterns, contributing 2.23±1.27 % (2.30±1.35 % during the daytime and 2.18±1.19 % at night) and 8.60±4.02 % (8.98±3.67 % and 8.21±4.39 %) to OC in winter and summer respectively. Isoprene and α - /β -pinene SOC were obviously elevated in summer, especially during the daytime, mainly due to strong photooxidation. Anthropogenic SOC from toluene and naphthalene oxidation showed higher contributions to OC in summer (21.0±18.5 %) than in winter (9.58±3.68 %). In summer, toluene SOC was the dominant contributor to aerosol OC, and biomass burning OC also accounted for a high contribution to OC, especially at night-time; this indicates that land/sea breezes also play an important role in the aerosol chemistry of the coastal city of Tianjin in North China. [ABSTRACT FROM AUTHOR]

Published

2020

4. Molecular characterization and spatial distribution of dicarboxylic acids and related compounds in fresh snow in China.

Author

Zhang, Zhimin, Zhao, Wanyu, Hu, Wei, Deng, Junjun, Ren, Lujie, Wu, Libin, Chen, Shuang, Meng, Jingjing, Pavuluri, Chandra Mouli, Sun, Yele, Wang, Zifa, Kawamura, Kimitaka, and Fu, Pingqing

Subjects

DICARBOXYLIC acids, DISSOLVED organic matter, SOLAR radiation, FOSSIL fuels, ORGANIC compounds, PHTHALIC acid

Abstract

Low molecular weight organic compounds are ubiquitous in the atmosphere. However, knowledge on their concentrations and molecular distribution in fresh snow remains limited. Here, twelve fresh snow samples collected at eight sites in China were investigated for dicarboxylic acids and related compounds (DCRCs) including oxocarboxylic acids and α-dicarbonyls. Dissolved organic carbon (DOC) concentrations in the snow samples ranged from 0.99 to 14.6 mg C L−1. Concentrations of total dicarboxylic acids were from 225 to 1970 μg L−1 (av. 650 μg L−1), while oxoacids (28.3–173, av. 68.1 μg L−1) and dicarbonyls (12.6–69.2, av. 31.3 μg L−1) were less abundant, accounting for 4.6–8.5% (6.2%), 0.45–1.4% (0.73%), and 0.12–0.88% (0.46%) of DOC, respectively. Molecular patterns of dicarboxylic acids are characterized by a predominance of oxalic acid (C 2) (95.0–1030, av. 310 μg L−1), followed by phthalic (Ph) (9.69–244, av. 69.9 μg L−1) or succinic (C 4) (23.8–163, av. 63.7 μg L−1) acid. Higher concentrations of Ph in snow from Beijing and Tianjin than other urban and rural regions suggest significant emissions from vehicular exhausts and other fossil fuel combustion sources in megacities. C 2 constituted 40–54% of total diacids, corresponding to 1.5–2.6% of snow DOC. The total measured DCRCs represent 5.5–10% of snow DOC, which suggests that there are large amounts of unknown organics requiring further investigations. The spatial distributions of diacids exhibited higher loadings in megacities than rural and island sites. Molecular distributions of diacids indicated that the photochemical modification was restrained under the weak solar radiation during the snow events, while anthropogenic primary sources had a more significant influence in megacities than rural areas and islands. • Dicarboxylic acids and related compounds were analyzed in urban, rural and island snow samples. • Total measured dicarboxylic acids and related compounds represent 5.5–10% of snow DOC. • High abundance of phthalic acid in urban snow suggests strong emission from fossil fuel combustion. [ABSTRACT FROM AUTHOR]

Published

2021

5. Phytochemical Investigation of Hydroalcoholic Extractives from Branches of Fraxinus velutina.

Author

Si, Chuan-Ling, Xu, Guang-Hui, Huang, Xiao-Feng, Du, Zhen-Guo, Wu, Lei, and Hu, Wei-Cheng

Subjects

CHEMICAL composition of plants, PHYTOCHEMICALS, VELVET ash, ASH (Tree)

Abstract

The article presents a study that determines the phytochemical components of hydroalcoholic extracts from the branches of Fraxinus velutina collected from Tianjin, China. It offers details of the method of the study that observes, samples obtained by professor Dan Wang of the Institute of Chemical industry of Forest Products. The result of the study shows the main constituents of the species and they were in good accordance with those of other species of the genus Fraxinus.

Published

2016

6. Occurrence and behavior of four of the most used sunscreen UV filters in a wastewater reclamation plant

Author

Li, Weihong, Ma, Yongmin, Guo, Changsheng, Hu, Wei, Liu, Keming, Wang, Yuqiu, and Zhu, Tan

Subjects

*WATER reuse, *WATER filtration, *COAGULATION (Sewage purification), *FLOCCULATION in sewage purification, *INDUSTRIAL waste purification, *INDUSTRIAL waste & the environment, *SEWAGE filtration, *ORGANIC compounds, *SEWAGE disposal plants, *SEDIMENTATION & deposition

Abstract

Four UV filters, benzophenone-3 (BP-3), 4-methylbenzylidence camphor (4-MBC), ethylhexyl methoxycinnamate (EHMC), and octocrylene (OC), have been examined along the different units of a wastewater reclamation plant (WWRP) located in Tianjin, North China. The analytical procedure included solid-phase extraction and gas chromatographic/mass spectrometric analyses. All four UV filters were detected in the influent during the three sampling campaigns (February, July, and September), and the concentrations ranged from 34 to 2128ngL−1. The concentrations of the four UV filters were higher in hot weather (July and September) than in cool weather (February). The monthly average removal ranged from 7.6% to 21% for the selected UV filters during coagulation–flocculation (C–F) treatment. The ozonation treatment achieved the maximum removal (16–28%); on the contrary, the continuous microfiltration (CMF) achieved the lowest removal (3.6–8.2%). The total removal efficiencies along the plant varied from 28% to 43%. These results indicate that the UV filters are not completely removed during WWRP treatment and may be carried over into the environment during the reuse applications. [Copyright &y& Elsevier]

Published

2007