Your search keyword '"Xidan Feng"' showing total 11 results

1. Dual roles in interspecies electron transfer of carbon-based materials for accelerating anaerobic digestion of food waste

Author

Langxian, Song, Lintong, Zhong, Xin, Yang, Maoyou, Ye, Jialin, Liang, Minchun, Huang, Xidan, Feng, and Lianhua, Li

Published

2024

2. Amplification of fluorescence polarization signal based on specific recognition of aptamers combined with quantum quenching effect for ultrasensitive and simple detection of PCB-77

Author

Wenchao Jia, Xiangying Jin, Yuhua Wu, Danping Xie, Wenhua Yin, Bo Zhao, Zhonghui Huang, Lijun Liu, Yanyan Yang, Tonghui Cao, Xidan Feng, and Sheng Chang

Subjects

Silver, Limit of Detection, Metal Nanoparticles, Fluorescence Polarization, Biosensing Techniques, Aptamers, Nucleotide, Instrumentation, Polychlorinated Biphenyls, Spectroscopy, Atomic and Molecular Physics, and Optics, Analytical Chemistry, Fluorescent Dyes

Abstract

Here, we report a novel aptasensor based on decahedral silver nanoparticles (Ag

Published

2022

3. Impacts of Saharan Dust on Atlantic Regional Climate and Implications for Tropical Cyclones

Author

Xidan Feng, Yun Lin, Yuk L. Yung, Jiaxi Hu, Renyi Zhang, Jen-Shan Hsieh, Bowen Pan, Yuan Wang, Timothy Logan, and Jonathan H. Jiang

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Climatology, Radiative transfer, Environmental science, Mineral dust, Tropical cyclone, 010502 geochemistry & geophysics, 01 natural sciences, 0105 earth and related environmental sciences

Abstract

The radiative and microphysical properties of Saharan dust are believed to impact the Atlantic regional climate and tropical cyclones (TCs), but the detailed mechanism remains uncertain. In this study, atmosphere-only simulations are performed from 2002 to 2006 using the Community Atmospheric Model, version 5.1, with and without dust emission from the Sahara Desert. The Saharan dust exhibits noticeable impacts on the regional longwave and shortwave radiation, cloud formation, and the convective systems over West Africa and the tropical Atlantic. The African easterly jet and West African monsoon are modulated by dust, leading to northward shifts of the intertropical convergence zone and the TC genesis region. The dust events induce positive midlevel moisture and entropy deficit anomalies, enhancing the TC genesis. On the other hand, the increased vertical wind shear and decreased low-level vorticity and potential intensity by dust inhibit TC formation in the genesis region. The ventilation index shows a decrease in the intensification region and an increase in the genesis region by dust, corresponding to favorable and unfavorable TC activities, respectively. The comparison of nondust scenarios in 2005 and 2006 shows more favorable TC conditions in 2005 characterized by higher specific humidity and potential intensity, but lower ventilation index, wind shear, and entropy deficit. Those are attributable to the observed warmer sea surface temperature (SST) in 2005, in which dust effects can be embedded. Our results imply significant dust perturbations on the radiative budget, hydrological cycle, and large-scale environments relevant to TC activity over the Atlantic.

Published

2018

4. Reassessing the atmospheric oxidation mechanism of toluene

Author

Yixin Li, Lian Duan, Taicheng An, Yuemeng Ji, Nicholas P. Levitt, Mario J. Molina, Renyi Zhang, Hajime Terazono, Kentaro Misawa, Yuan Wang, Jeremiah Secrest, Yun Lin, Xidan Feng, Fang Zhang, Bowen Pan, Jun Zhao, Annie L. Zhang, Kazuhiko Shibuya, Wilmarie Marrero-Ortiz, and Jianfei Peng

Subjects

Multidisciplinary, Ozone, 010504 meteorology & atmospheric sciences, Radical, Cresol, 010501 environmental sciences, Photochemistry, Corrections, 01 natural sciences, Toluene, Toluene oxidation, Aerosol, Atmosphere, chemistry.chemical_compound, chemistry, medicine, Tropospheric ozone, 0105 earth and related environmental sciences, medicine.drug

Abstract

Photochemical oxidation of aromatic hydrocarbons leads to tropospheric ozone and secondary organic aerosol (SOA) formation, with profound implications for air quality, human health, and climate. Toluene is the most abundant aromatic compound under urban environments, but its detailed chemical oxidation mechanism remains uncertain. From combined laboratory experiments and quantum chemical calculations, we show a toluene oxidation mechanism that is different from the one adopted in current atmospheric models. Our experimental work indicates a larger-than-expected branching ratio for cresols, but a negligible formation of ring-opening products (e.g., methylglyoxal). Quantum chemical calculations also demonstrate that cresols are much more stable than their corresponding peroxy radicals, and, for the most favorable OH (ortho) addition, the pathway of H extraction by O_2 to form the cresol proceeds with a smaller barrier than O_2 addition to form the peroxy radical. Our results reveal that phenolic (rather than peroxy radical) formation represents the dominant pathway for toluene oxidation, highlighting the necessity to reassess its role in ozone and SOA formation in the atmosphere.

Published

2017

5. Bioleaching for detoxification of waste flotation tailings: Relationship between EPS substances and bioleaching behavior

Author

Xidan Feng, Siyu Zhou, Jialin Liang, Shuiyu Sun, Xiaojian Liao, Lili Li, Wei Qian, and Maoyou Ye

Subjects

Environmental Engineering, Extracellular Polymeric Substance Matrix, Chemistry, Acidithiobacillus, Microorganism, 0208 environmental biotechnology, Extraction (chemistry), Environmental pollution, 02 engineering and technology, General Medicine, 010501 environmental sciences, Management, Monitoring, Policy and Law, Pulp and paper industry, 01 natural sciences, Tailings, 020801 environmental engineering, Extracellular polymeric substance, Metals, Bioleaching, Dissolved organic carbon, Leachate, Waste Management and Disposal, 0105 earth and related environmental sciences

Abstract

The production of large volumes of waste flotation tailings results in environmental pollution and presents a major ecological and environmental risk. This study investigates bioleaching of waste flotation tailings using Acidithiobacillus ferrooxidans. The experiments were performed with 5.00% solid concentration, pH 2.0 with 100 mL medium for 25 d in the lab. The pH, OPR, metal concentration, dissolved organic matter (DOM) in leachate and extracellular polymeric substances (EPS) were recorded. Bioleaching tailing materials were finally characterized. Results showed that microorganisms, acclimating with mine tailings, effectively accelerated the bioleaching process, achieving maximum Zn and Fe extraction efficiencies of 95.45% and 83.98%, respectively, after 25 days. Compared with raw mine tailings, bioleaching could reduce 96.36% and 95.84% leachable Zn and Pb, and Pb presented a low risk (4.13%), while Zn, Cu, and Cr posed no risk (0.34%, 0.64%, and 0%). Toxicity and environmental risk analysis revealed bioleaching process significantly reduced the environmental risk associated with mine tailings. EPS analysis indicated that the loosely-bound EPS (LB-EPS) and tightly-bound EPS (TB-EPS) fractions contained different organic substances, which played different roles in the bioleaching process. Pearson correlation analysis revealed that EPS was highly correlated with bioleaching behavior (p 0.05), and EPS was the main factor affecting the bioleaching process, promoting bioleaching in the LB-EPS and TB-EPS fractions.

Published

2021

6. Isolation of a non-fermentative bacterium, Pseudomonas aeruginosa, using intracellular carbon for denitrification and phosphorus-accumulation and relevant metabolic mechanisms

Author

Jun Li, Kangqun Zhou, Hui Liu, Jian-Jun Du, Qian Lu, Wen Liu, Caibing Ming, Xiaoshan Jia, Wang Qin, Xidan Feng, and Yanfu Sun

Subjects

Environmental Engineering, Denitrification, Nitrogen, 0208 environmental biotechnology, chemistry.chemical_element, Bioengineering, 02 engineering and technology, Wastewater, 010501 environmental sciences, Biology, 01 natural sciences, Phosphates, Water Purification, Denitrifying bacteria, Bioreactors, Nutrient, Bioreactor, Waste Management and Disposal, 0105 earth and related environmental sciences, Renewable Energy, Sustainability and the Environment, Phosphorus, General Medicine, Metabolism, biology.organism_classification, Anoxic waters, Carbon, 020801 environmental engineering, chemistry, Biochemistry, Pseudomonas aeruginosa, Bacteria

Abstract

A newly designed pilot-scale system was developed to enrich denitrifying phosphate-accumulating organisms (DNPAOs) for nitrogen and phosphorus nutrient removal synchronously. A strain of DNPAOs was isolated and its biochemical characteristics and metabolic mechanisms of this bacterial strain were analyzed. The results showed that compared with previously reported system, this newly designed system has higher removal rates of nutrients. Removal efficiencies of NH3-N, TN, TP, and COD in actual wastewater were 82.64%, 79.62%, 87.22%, and 90.41%, respectively. Metabolic activity of DNPAOs after anoxic stage in this study even reached 94.64%. Pseudomonas aeruginosa is a strain of non-fermentative DNPAOs with strong nitrogen and phosphorus removal abilities. Study on the metabolic mechanisms suggested that intracellular PHB of P. aeruginosa plays dual roles, supplying energy for phosphorus accumulation and serving as a major carbon source for denitrification.

Published

2016

7. Effects of fermentative and non-fermentative additives on silage quality and anaerobic digestion performance of Pennisetum purpureum

Author

Peiwen Wu, Yongming Sun, Lianhua Li, Junfeng Jiang, Zhenhong Yuan, Yufang Guo, and Xidan Feng

Subjects

0106 biological sciences, Pennisetum, Environmental Engineering, Silage, Bioengineering, 010501 environmental sciences, 01 natural sciences, chemistry.chemical_compound, Acetic acid, 010608 biotechnology, Lactobacillus, Hemicellulose, Anaerobiosis, Pennisetum purpureum, Food science, Waste Management and Disposal, 0105 earth and related environmental sciences, biology, Renewable Energy, Sustainability and the Environment, food and beverages, General Medicine, Enterobacter, biology.organism_classification, Lactic acid, Anaerobic digestion, chemistry, Fermentation, Methane

Abstract

The effect of additives on the silage quality, microbial community, and anaerobic digestion performance of Pennisetum purpureum with high moisture content was studied. The sample treated with a mixed additive had best silage quality with the lowest pH and highest lactic acid/acetic acid ratio. Different additives influenced the dominant desirable bacteria. Correspondingly, Enterobacter was the dominant bacterial genus for sample with non-fermentative additives, whereas for the samples with fermentative or mixed additives, both Enterobacter and Lactobacillus had high relative abundance. The parameters of NH3-N, hemicellulose and lactic acid were positively correlated with the specific methane yield, while the lignin content was inversely correlated with the specific methane yield. The higher specific methane yield of 293.81 ± 0.15–334.69 ± 22.75 mL/g VS was obtained for samples treated with fermentative additive. Therefore, the mixed additive and fermentative additive are recommended for the silage of material with high-moisture content to improve the silage quality and methane yield.

Published

2020

8. Microscopic morphology and size distribution of particles in PM2.5 of Guangzhou City

Author

Zhi Dang, Xidan Feng, Longyi Shao, Weilin Huang, and Weijun Li

Subjects

Atmospheric Science, Range (particle radiation), Materials science, Particle number, Energy-dispersive X-ray spectroscopy, Mineralogy, medicine.disease_cause, Soot, Aerosol, Volume (thermodynamics), Fly ash, Particle-size distribution, medicine, Environmental Chemistry

Abstract

Samples of airborne PM2.5 particles in Guangzhou urban area were collected during the autumn of 2006 and the spring of 2007. The morphologies and elemental compositions of individual particles were determined by Scanning Electron Microscopy coupled with Energy Dispersive X-ray Spectrometer (SEM-EDX). The obtained images were further analyzed for size distribution by an image analysis system. Based on the morphology, particles in PM2.5 were classified into four groups: soot aggregates, minerals, fly ash and others. The amount of soot aggregates and minerals were higher than that of fly ashes. The distributions of particles by number and size in two seasons were bimodal with 90% less than 1.0 μm in diameter. The primary peak from the autumn samples was in the size range of 0.4 ~ 0.5 μm, and 0.3 ~ 0.4 μm for the spring samples. More soot aggregates (36.1%) and minerals (61.5%) were found than fly ash (2.4%) in autumn, but soot aggregates (89.9%) was the dominant particle type in spring. The size distribution of particles according to the volume was generally opposite to that according to the number. Particles less than 1.0 μm were as high as 89.5% in number but contributed only 18.9% in volume, indicating that fine particles contributed relatively little in volume although existing in large numbers.

Published

2009

9. Chemical speciation of fine particle bound trace metals

Author

Weilin Huang, C. Yang, Xidan Feng, and Zhi Dang

Subjects

inorganic chemicals, Cadmium, Environmental Engineering, Trace element, chemistry.chemical_element, Manganese, Zinc, Chromium, chemistry, Environmental chemistry, Environmental Chemistry, Ecotoxicology, General Agricultural and Biological Sciences, Cobalt, Arsenic

Abstract

This study reported quantifications of fine particle bound trace metals and their potential health risks for residents in Guangzhou, a rapidly developing and most populated city in South China. The fine particle samples were collected from October 29 th. to November 8 th. of 2006 at two different elevations in a mainly residential area and analyzed for the total concentration of aluminum, iron, zinc, lead, manganese, copper, arsenic, chromium, nickel, cadmium, molybdenum and cobalt. Results showed that the fine particle concentrations ranged from 95.8 µg/m 3 to 194.7 µg/m 3 at the ground and 83.3-190.0 µg/m 3 on the roof, which were much higher than the 24 h fine particle standard (35 µg/m 3 ) recommended by USEPA. The total concentrations of zinc, lead, arsenic, chromium and cadmium in fine particle were 504.8, 201.6, 24.3, 7.7 and 4.4 ng/m 3 , respectively, which were comparable to other major cities of China, but much higher than major cities outside of China. A sequential extraction procedure was used to fractionate these fine particle bound metals into four different fractions. Results indicated that most toxic metals were mainly distributed in bioavailable fractions. For instance, about 91 % of cadmium, 85 % of lead and 74 % of arsenic were in bioavailable forms. Risk calculations with a simple exposure assessment model showed that the cancer risks of the bioavailable fractions of arsenic, chromium and cadmium were 3 to 33 times greater than usual goal, indicating serious health risks to the residents in this urban area.

Published

2009

10. Impacts of Saharan Dust on Atlantic Regional Climate and Implications for Tropical Cyclones.

Author

BOWEN PAN, YUAN WANG, JIAXI HU, YUN LIN, JEN-SHAN HSIEH, LOGAN, TIMOTHY, XIDAN FENG, JIANG, JONATHAN H., YUNG, YUK L., and RENYI ZHANG

Subjects

TROPICAL cyclones, DUST & the environment, ATMOSPHERIC aerosols, HYDROLOGIC cycle, VERTICAL wind shear, METEOROLOGICAL precipitation

Abstract

The radiative and microphysical properties of Saharan dust are believed to impact the Atlantic regional climate and tropical cyclones (TCs), but the detailed mechanism remains uncertain. In this study, atmosphereonly simulations are performed from 2002 to 2006 using the Community Atmospheric Model, version 5.1, with and without dust emission from the Sahara Desert. The Saharan dust exhibits noticeable impacts on the regional longwave and shortwave radiation, cloud formation, and the convective systems over West Africa and the tropical Atlantic. The African easterly jet and West African monsoon are modulated by dust, leading to northward shifts of the intertropical convergence zone and the TC genesis region. The dust events induce positive midlevel moisture and entropy deficit anomalies, enhancing the TC genesis. On the other hand, the increased vertical wind shear and decreased low-level vorticity and potential intensity by dust inhibit TC formation in the genesis region. The ventilation index shows a decrease in the intensification region and an increase in the genesis region by dust, corresponding to favorable and unfavorable TC activities, respectively. The comparison of nondust scenarios in 2005 and 2006 shows more favorable TC conditions in 2005 characterized by higher specific humidity and potential intensity, but lower ventilation index, wind shear, and entropy deficit. Those are attributable to the observed warmer sea surface temperature (SST) in 2005, in which dust effects can be embedded. Our results imply significant dust perturbations on the radiative budget, hydrological cycle, and large-scale environments relevant to TC activity over the Atlantic. [ABSTRACT FROM AUTHOR]

Published

2018

11. Reassessing the atmospheric oxidation mechanism of toluene.

Author

Yuemeng Ji, Jun Zhao, Hajime Terazono, Kentaro Misawa, Levitt, Nicholas P., Yixin Li, Yun Lin, Jianfei Peng, Yuan Wang, Lian Duan, Bowen Pan, Fang Zhang, Xidan Feng, Taicheng Ana, Marrero-Ortiz, Wilmarie, Secrest, Jeremiah, Zhang, Annie L., Kazuhiko Shibuya, Molina, Mario J., and Renyi Zhang

Subjects

TOLUENE, AROMATIC compounds, TROPOSPHERIC ozone, AIR quality, ATMOSPHERIC models

Abstract

Photochemical oxidation of aromatic hydrocarbons leads to tropospheric ozone and secondary organic aerosol (SOA) formation, with profound implications for air quality, human health, and climate. Toluene is the most abundant aromatic compound under urban environments, but its detailed chemical oxidation mechanism remains uncertain. From combined laboratory experiments and quantum chemical calculations, we show a toluene oxidation mechanism that is different from the one adopted in current atmospheric models. Our experimental work indicates a larger-than-expected branching ratio for cresols, but a negligible formation of ring-opening products (e.g., methylglyoxal). Quantum chemical calculations also demonstrate that cresols are much more stable than their corresponding peroxy radicals, and, for the most favorable OH (ortho) addition, the pathway of H extraction by O2 to form the cresol proceeds with a smaller barrier than O2 addition to form the peroxy radical. Our results reveal that phenolic (rather than peroxy radical) formation represents the dominant pathway for toluene oxidation, highlighting the necessity to reassess its role in ozone and SOA formation in the atmosphere. [ABSTRACT FROM AUTHOR]

Published

2017