A new method for determination of trace lead and mercury by hydride generation atomic fluorescence spectrometry (HG-AFS) was established. Lead was determined in the medium of citric acid using potassium ferricyanide...A new method for determination of trace lead and mercury by hydride generation atomic fluorescence spectrometry (HG-AFS) was established. Lead was determined in the medium of citric acid using potassium ferricyanide (K3Fe(CN)6) as oxidant. Ni enhanced the fluorescence signals in this system. Mercury was determined in the medium of nitric acid using mixture of thiourea and ascorbic acid as masking reagent, sodium dioctylsulphosuccinate (SDSS) as enhancing reagent. The working mechanism of the hydride generation of lead and mercury was discussed. Interferences of some coexisting ions were studied systematically and the determination conditions were optimized. Under the optimized conditions, the detection limits of the method were 0.31μg.L^-1 for lead and 0.023 μg·L^-1 for mercury, and the relative standard deviations based on eleven determinations of 5.00 μg·L^-1 standard of Pb and Hg, were 2.6% for Pb and 2.2 % for Hg. This method was applied to the analysis of lead and mercury in four different diameter airborne particles after microwave digestion. Results suggested heavy metal elements easily concentrated in smaller particles.展开更多
Based on the real-time synchronous measurements of the wind velocity,temperature,the PM10 concentration at 16 m and 47 m during a dust storm event,in which Reynolds number Re exceeds 6×106,this study reveals the ...Based on the real-time synchronous measurements of the wind velocity,temperature,the PM10 concentration at 16 m and 47 m during a dust storm event,in which Reynolds number Re exceeds 6×106,this study reveals the existence of the very large scale motions(VLSMs) during the stable stage both in the stream velocity and the temperature field at the two heights,whose streamwise scales reach up to 10 times the thickness of the boundary layer.The streamwise velocity and the PM10 concentration display a similar frequency corresponding to the peaks of their energy spectra,which implies that the VLSMs of streamwise flow have a significant role in dust transportation.In contrast,the salient deviations of the PM10 concentration at 47 m from the Gaussian distribution are revealed,which means that 47 m is not in the dust transportation layer,but is a region where the dust transportation layer and the outer flow intersect each other.Analysis demonstrates that the energy spectra of the PM10 concentrations at 16 m and 47 m display the "-1" scaling law feature,which has the same frequency range(0.001-0.1 Hz) as that of the wind velocity.This provides a new paradigm for the existence of the self-similarity scaling region in turbulent flow.展开更多
Sun-photometer measurements at Hefei,an urban site located in central East China,were examined to investigate the variations of aerosol loading and optical properties.It is found that aerosol optical thickness(AOT)kee...Sun-photometer measurements at Hefei,an urban site located in central East China,were examined to investigate the variations of aerosol loading and optical properties.It is found that aerosol optical thickness(AOT)keeps higher in winter/spring and gets relatively lower in summer/autumn.The large AOT in winter is caused by anthropogenic sulfate/nitrate aerosols,while in spring dust particles elevate the background aerosol loading and the excessive fine-mode particles eventually lead to severe pollution.There is a dramatic decline of AOT during summer,with monthly averaged AOT reaching the maximum in June and soon the minimum in August.Meanwhile,aerosol size decreases consistently and single scattering albedo(SSA)reaches its minimum in July.During summertime large-sized particles play a key role to change the air from clean to mild-pollution situation,while the presence of massive small-sized particles makes the air being even more polluted.These complicated summer patterns are possibly related to the three key processes that are active in the high temperature/humidity environment concentrating on sulfate/nitrate aerosols,i.e.,gas-to-particle transformation,hygroscopic growth,and wet scavenging.Regardless of season,the increase of SSA with increasing AOT occurs across the visible and near-infrared bands,suggesting the dominant negative/cooling effect with the elevated aerosol loading.The SSA spectra under varying AOT monotonically decrease with wavelength.The relatively large slope arises in summer,reinforcing the dominance of sulfate/nitrate aerosols that induce severe pollution in summer season around this city.展开更多
文摘A new method for determination of trace lead and mercury by hydride generation atomic fluorescence spectrometry (HG-AFS) was established. Lead was determined in the medium of citric acid using potassium ferricyanide (K3Fe(CN)6) as oxidant. Ni enhanced the fluorescence signals in this system. Mercury was determined in the medium of nitric acid using mixture of thiourea and ascorbic acid as masking reagent, sodium dioctylsulphosuccinate (SDSS) as enhancing reagent. The working mechanism of the hydride generation of lead and mercury was discussed. Interferences of some coexisting ions were studied systematically and the determination conditions were optimized. Under the optimized conditions, the detection limits of the method were 0.31μg.L^-1 for lead and 0.023 μg·L^-1 for mercury, and the relative standard deviations based on eleven determinations of 5.00 μg·L^-1 standard of Pb and Hg, were 2.6% for Pb and 2.2 % for Hg. This method was applied to the analysis of lead and mercury in four different diameter airborne particles after microwave digestion. Results suggested heavy metal elements easily concentrated in smaller particles.
基金supported by the National Natural Science Foundation of China (Grant Nos. 11232006,11121202,10972164,40830103,and 11072097)the State Key Dvelopment Program for Basic Research of China (Grant No. 2009CB421304)
文摘Based on the real-time synchronous measurements of the wind velocity,temperature,the PM10 concentration at 16 m and 47 m during a dust storm event,in which Reynolds number Re exceeds 6×106,this study reveals the existence of the very large scale motions(VLSMs) during the stable stage both in the stream velocity and the temperature field at the two heights,whose streamwise scales reach up to 10 times the thickness of the boundary layer.The streamwise velocity and the PM10 concentration display a similar frequency corresponding to the peaks of their energy spectra,which implies that the VLSMs of streamwise flow have a significant role in dust transportation.In contrast,the salient deviations of the PM10 concentration at 47 m from the Gaussian distribution are revealed,which means that 47 m is not in the dust transportation layer,but is a region where the dust transportation layer and the outer flow intersect each other.Analysis demonstrates that the energy spectra of the PM10 concentrations at 16 m and 47 m display the "-1" scaling law feature,which has the same frequency range(0.001-0.1 Hz) as that of the wind velocity.This provides a new paradigm for the existence of the self-similarity scaling region in turbulent flow.
基金support on PREDE data and the two reviewers for their valuable suggestionssupported by the National Natural Science Foundation of China(Grant Nos.41175032&41575019)
文摘Sun-photometer measurements at Hefei,an urban site located in central East China,were examined to investigate the variations of aerosol loading and optical properties.It is found that aerosol optical thickness(AOT)keeps higher in winter/spring and gets relatively lower in summer/autumn.The large AOT in winter is caused by anthropogenic sulfate/nitrate aerosols,while in spring dust particles elevate the background aerosol loading and the excessive fine-mode particles eventually lead to severe pollution.There is a dramatic decline of AOT during summer,with monthly averaged AOT reaching the maximum in June and soon the minimum in August.Meanwhile,aerosol size decreases consistently and single scattering albedo(SSA)reaches its minimum in July.During summertime large-sized particles play a key role to change the air from clean to mild-pollution situation,while the presence of massive small-sized particles makes the air being even more polluted.These complicated summer patterns are possibly related to the three key processes that are active in the high temperature/humidity environment concentrating on sulfate/nitrate aerosols,i.e.,gas-to-particle transformation,hygroscopic growth,and wet scavenging.Regardless of season,the increase of SSA with increasing AOT occurs across the visible and near-infrared bands,suggesting the dominant negative/cooling effect with the elevated aerosol loading.The SSA spectra under varying AOT monotonically decrease with wavelength.The relatively large slope arises in summer,reinforcing the dominance of sulfate/nitrate aerosols that induce severe pollution in summer season around this city.
