科研成果 by Year: 2016

2016
Yang W, Logan BE. Engineering a membrane based air cathode for microbial fuel cells via hot pressing and using multi-catalyst layer stacking. Environmental Science: Water Research & Technology. 2016;2(5):858-863.
Li J, Tan Y. Enhancing interaction in the fireworks algorithm by dynamic resource allocation and fitness-based crowdedness-avoiding strategy, in 2016 IEEE Congress on Evolutionary Computation (CEC). IEEE; 2016:4015–4021. 访问链接
Huang Z, Gao S, Qu T, Li L, Wu X. An environment adaptive loudspeaker calibration method for Ambisonics decoding system, in the 5th International Conference on Audio, Language and Image Processing. Shanghai, China; 2016:277.
Evans TG, Churchyard GJ, Penn-Nicholson A, Chen C, Gao X, Tait DR, Hatherill M. Epidemiologic studies and novel clinical research approaches that impact TB vaccine development. Tuberculosis (Edinb) [Internet]. 2016;99 Suppl 1:S21-5. 访问链接Abstract
The 4th Global Forum on TB Vaccines, convened in Shanghai, China, from 21 - 24 April 2015, brought together a wide and diverse community involved in tuberculosis vaccine research and development to discuss the current status of, and future directions for this critical effort. This paper summarizes the sessions on Developing TB Vaccines for Prevention of Disease, Prevention of Infection, and Immunotherapy Indications; Concepts and Approaches in Clinical Research & Development; and Epidemiological Research. Summaries of all sessions from the 4th Global Forum are compiled in a special supplement of Tuberculosis.
Li Z, Bie P, Wang Z, Zhang Z, Jiang H, Xu W, Zhang J, Hu J. Estimated HCFC-22 emissions for 1990–2050 in China and the increasing contribution to global emissions. Atmospheric EnvironmentAtmospheric Environment. 2016;132:77-84.
Estimating emissions from crop residue open burning in China based on statistics and MODIS fire products
Li J, Bo Y, Xie S. Estimating emissions from crop residue open burning in China based on statistics and MODIS fire products. Journal of Environmental Sciences [Internet]. 2016;44:158–170. 访问链接Abstract
With the objective of reducing the large uncertainties in the estimations of emissions from crop residue open burning, an improved method for establishing emission inventories of crop residue open burning at a high spatial resolution of 0.25° × 0.25° and a temporal resolutionof 1 month was established based on the moderate resolution imaging spectroradiometer(MODIS) Thermal Anomalies/Fire Daily Level3 Global Product (MOD/MYD14A1). Agriculture mechanization ratios and regional crop-specific grain-to-straw ratios were introduced to improve the accuracy of related activity data. Locally observed emission factors were used to calculate the primary pollutant emissionsMODIS satellite data were modified by combining them with county-level agricultural statistical data, which reduced the influence of missing fire counts caused by their small size and cloud cover. The annual emissions of CO2, CO, CH4, nonmethane volatile organic compounds (NMVOCs), N2O, NOx, NH3, SO2, fine particles (PM2.5), organic carbon (OC), and black carbon (BC) were 150.40, 6.70, 0.51, 0.88, 0.01, 0.13, 0.07, 0.43, 1.09, 0.34, and 0.06 Tg, respectively, in 2012. Crop residue open burning emissions displayed typical seasonal and spatial variation. The highest emission regions were the Yellow-Huai River and Yangtse-Huai River areas, and the monthly emissions were highest in June (37%). Uncertainties in the emission estimates, measured as 95% confidence intervals, range from a low of within ± 126% for N2O to a high of within ± 169% for NH3.
Xing Y(Master student), Fu Z, Wu X, Chen J *. Evaluation of Apple iOS-based automated audiometry, in 22nd International Congress on Acoustics. La Plate, Argentina; 2016.
Gao X, Hu Y, Li C, Dai C, Li L, Ou X, Wang Y*. Evaluation of fluorine release from air deposited coal spoil piles: A case study at Yangquan city, northern China. Science of The Total Environment [Internet]. 2016;545-546:1-10. LinkAbstract
The fluorine content of coal has been well documented, while such data of coal spoil are limited. In the present paper, fluorine in coal spoils and its releasing behavior were studied via leaching and combustion tests, as well as field investigation. Fluoride pollution in groundwater and soil occurred in the air depositing areas of coal spoils. The average content of fluorine in coal spoils was 525mg/kg with the highest value of 1885mg/kg. The only XRD detectable inorganic fluorine phase was fluorphlogopite. The absence of major fluorine bearing minerals in coal spoils suggested that bulk fluorine, rather than trace phases, resided in the mineral matrix. The major extracted species were water soluble fluorine and exchangeable fluorine in the coal spoils. Batch leaching tests illustrated that the leachable fluoride in coal spoils was widely distributed, ranging from 2.0 to 108.4mg/kg. Column leaching tests showed a clear pH-dependent leaching behavior of fluorine: lower pH situation led to fluorine release from the mineral matrix; the loosely bound or easily exchangeable fluorine was also flushed out of the column. The higher ion strength or alkaline bicarbonate/carbonate rich leaching solution tended to free more fluorine into the acidic aqueous solution. The leachable fluorine in coal spoils was estimated as ca. 6%, based on the results of leaching tests. Also, our research found that over 90% of fluorine in coal spoils could be released into the atmosphere as a result of spontaneous combustion, accounting for over 40% of the total atmospheric fluorine emissions in northern China. Our investigation suggests that it is urgent to conduct comprehensive studies to assist the management and control of fluorine pollution at coal spoil banks.
Bu H, Hopkins H, Zhang D, Li S, Wang R, Yao M, Wang D. An evaluation of hair-snaring devices for small-bodied carnivores in Southwest China. Journal of Mammalogy. 2016;97:589–598.
Zhao Y, Yang Y, Chen S. Evolution of material surfaces in the temporal transition in channel flow. J. Fluid Mech. 2016;793:840–876.
Peng JF, Hu M, Gong ZH, Tian XD, Wang M, Zheng J, Guo QF, Cao W, Lv W, Hu WW, et al. Evolution of secondary inorganic and organic aerosols during transport: A case study at a regional receptor site. Environmental PollutionEnvironmental PollutionEnvironmental Pollution. 2016;218:794-803.Abstract
Understanding the evolution of aerosols in the atmosphere is of great importance for improving air quality and reducing aerosol-related uncertainties in global climate simulations. Here, a unique haze episode at a regional receptor site near the East China Sea was examined as a case study of the aging process of atmospheric aerosols during transport. An increase in photochemical age from 5 h. to more than 25 h and a progressive increase in the fitted mean particle diameter from 70 nm to approximately 300 nm were observed. According to the pollution features and meteorology conditions involved, pollution accumulation (PA), sea breeze (SB), and land breeze (LB) periods were identified. Concentrations of black carbon (BC), hydrocarbon-like organic aerosols (HOA), semi-volatile oxidized organic aerosols (SV-OOA), and nitrate increased by 7-fold up to 39-fold when the air masses passed through Taizhou, a nearby city. In addition, nitrate and SV-OOA dominated the aerosol composition in the urban outflow plumes (52% and 18%, respectively), yet they gradually decreased in concentration during transport. In contrast, sulfate and the low-volatile oxidized organic aerosols (LV-OOA) exhibited more regional footprints and potentially have similar formation mechanisms. The atomic oxygen-to-carbon (O/C) ratio also increased from 0.45 to 0.9, thereby suggesting that rapid formation of highly oxidized secondary organic aerosols (SOA) occurred during transport. Overall, these results provide valuable insight into the evolution of the chemical and physical features of aerosol pollution during transport and also highlight the need for regulatory controls of nitrogen oxides, sulfur dioxide, and VOCs to improve air quality on different scales. (C) 2016 Published by Elsevier Ltd.
Peng JF, Hu M, Gong ZH, Tian XD, Wang M, Zheng J, Guo QF, Cao W, Lv W, Hu WW, et al. Evolution of secondary inorganic and organic aerosols during transport: A case study at a regional receptor site. Environmental Pollution. 2016;218:794-803.Abstract
Understanding the evolution of aerosols in the atmosphere is of great importance for improving air quality and reducing aerosol-related uncertainties in global climate simulations. Here, a unique haze episode at a regional receptor site near the East China Sea was examined as a case study of the aging process of atmospheric aerosols during transport. An increase in photochemical age from 5 h. to more than 25 h and a progressive increase in the fitted mean particle diameter from 70 nm to approximately 300 nm were observed. According to the pollution features and meteorology conditions involved, pollution accumulation (PA), sea breeze (SB), and land breeze (LB) periods were identified. Concentrations of black carbon (BC), hydrocarbon-like organic aerosols (HOA), semi-volatile oxidized organic aerosols (SV-OOA), and nitrate increased by 7-fold up to 39-fold when the air masses passed through Taizhou, a nearby city. In addition, nitrate and SV-OOA dominated the aerosol composition in the urban outflow plumes (52% and 18%, respectively), yet they gradually decreased in concentration during transport. In contrast, sulfate and the low-volatile oxidized organic aerosols (LV-OOA) exhibited more regional footprints and potentially have similar formation mechanisms. The atomic oxygen-to-carbon (O/C) ratio also increased from 0.45 to 0.9, thereby suggesting that rapid formation of highly oxidized secondary organic aerosols (SOA) occurred during transport. Overall, these results provide valuable insight into the evolution of the chemical and physical features of aerosol pollution during transport and also highlight the need for regulatory controls of nitrogen oxides, sulfur dioxide, and VOCs to improve air quality on different scales. (C) 2016 Published by Elsevier Ltd.
Peng JF, Hu M*, Gong ZH, Tian XD, Wang M, Zheng J, Guo QF, Cao W, Lv W, Hu W. Evolution of secondary inorganic and organic aerosols during transport: A case study at a regional receptor site. Environmental Pollution. 2016;218:794-803.
Evolution process and sources of ambient volatile organic compounds during a severe haze event in Beijing, China
Wu R, Li J, Hao Y, Li Y, Zeng L, Xie S. Evolution process and sources of ambient volatile organic compounds during a severe haze event in Beijing, China. Science of the Total Environment [Internet]. 2016;560:62–72. 访问链接Abstract
108 ambient volatile organic compounds (VOCs) were measured continuously at a time resolution of an hour using an online gas chromatography–frame ionization detector/mass spectrometry (GC–FID/MS) in October 2014 in Beijing, and positive matrix factorization (PMF) was performed with online data. The evolution process and causes for high levels of VOCs during a haze event were investigated through comprehensive analysis. Results show that mixing ratios of VOCs during the haze event (89.29 ppbv) were 2 to 5 times as that in non-haze days, There was a distinct accumulation process of VOCs at the beginning of the haze event, and the mixing ratios of VOCs maintained at the high levels until to the end of pollution when the mixing ratios of ambient VOCs recovered to the normal concentration levels in a few hours. Some reactive and toxic species increased remarkably as well, which indicates a potential health risk to the public in terms of VOCs. Eight sources were resolved by PMF, and results revealed gasoline exhaust was the largest contributor (32–46%) to the ambient VOCs in Beijing. Emissions of gasoline exhaust surged from 13.46 to 40.36 ppbv, with a similar variation pattern to total VOCs, indicating that high levels of VOCs were largely driven to by expanded vehicular emissions. Emissions of biomass burning also increased noticeably (from 2.32 to 11.12 ppbv), and backward trajectories analysis indicated regional transport of biomass burning emissions. Our findings suggested that extremely high levels of VOCs during the haze event was primarily attributed to vehicular emissions, biomass burning and regional transport, as well as stationary synoptic conditions.
Li A, Broom M, Du J, Wang L. Evolutionary dynamics of general group interactions in structured populations. Physical Review E [Internet]. 2016;93(2):022407. 访问链接
Zhou X, Zhang P, Wang J. Examining task relationships in multitasking consumer search sessions: A query log analysis. Proceedings of the Association for Information Science and Technology. 2016;53(1):1-5.
Wang Z, Zhang P. Examining user roles in social Q&A: The case of health topics in Zhihu. com. Proceedings of the Association for Information Science and Technology. 2016;53(1):1-6.
Tang H-H, Ma T-J, Liu* P-K. Experimental demonstration of ultra-wideband and high-efficiency terahertz spoof surface plasmon polaritons coupler. Applied Physics Letters. 2016;108:191903.
Deng K, Wan G, Deng P, Zhang K, Ding S, Wang E, Yan M, Huang H, Zhang H, Xu Z, et al. Experimental observation of topological Fermi arcs in type-II Weyl semimetal MoTe2. Nature Physics. 2016;12:1105.
Yuan X, Liu K, Xu Y, Wang W, Ma Y, Zhang F, Yan Z, Vijay R, Sun L, Ma X. Experimental quantum randomness processing using superconducting qubits. Physical Review Letters. 2016;117(1):010502.

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