Large-scale data emerge in food safety inspection and testing industry with the development of Internet technology in China.This paper was aimed at designing toxic and hazardous substance big data risk analysis algori...Large-scale data emerge in food safety inspection and testing industry with the development of Internet technology in China.This paper was aimed at designing toxic and hazardous substance big data risk analysis algorithm in food safety inspection and testing based on cloud computing^([1]).Cloud computing platform was set up to store the massive extensive data with geographical distribution,dynamic and high complexity from the Internet,and MapReduce^([2]) computational framework in cloud computing was applied to process and compute parallel data.The risk analysis results were obtained by analyzing 1000000 meat products testing data collected from the laboratory management information system based on web.The results show that food safety index IFS < 1,which proves that the food safety state is in good condition.展开更多
Industrial discharge water, and especially that from the surface treatment industry (ST), contains non-negligible amounts of pollutants even though the legislation is fully respected. In spite of this, no detailed stu...Industrial discharge water, and especially that from the surface treatment industry (ST), contains non-negligible amounts of pollutants even though the legislation is fully respected. In spite of this, no detailed studies list the exact chemical composition of these effluents. The present study reports the results of analyses performed over a 6-month period involving 15 standard water parameters. Over 160 substances including 33 metals, 58 volatile organic compounds (VOCs), 16 polycyclic aromatic hydrocarbons (PAHs), 24 chlorophenols (CPs), 16 alkylphenols (APs), 5 chloroanilines (CAs) and 7 polychlorobiphenyls (PCBs) were monitored. The industrial effluents presented polycontamination involving metals, minerals and organics with a high degree of qualitative and quantitative variability. Of the 160 substances monitored, 46 were regularly found: 25 inorganics including 8 metals (Co, Cr, Cu, Fe, Ni, Pb, Sn, Zn) and 21 organics (4 PAHs, 10 VOCs, 4 CPs and 3 APs). Eighteen were systematically presented at quantifiable levels.展开更多
This work consisted of a series of determinations performed in typical rooms of a building belonging to the Technical University of Lisbon,which is located in a central urban area of Lisbon.The main objective was to e...This work consisted of a series of determinations performed in typical rooms of a building belonging to the Technical University of Lisbon,which is located in a central urban area of Lisbon.The main objective was to evaluate the Indoor Air Quality(IAQ)of the rooms so that further corrective measures could be taken if unsatisfactory IAQ levels were to be found.Correlations were derived,between indoor and outdoor pollutant concentrations,in order to assess the existence of contaminations coming from outside.Also,correlations were derived between total volatile organic compounds(VOC)concentrations and specific individual organic species measured in the same room.The methodology recorded in this paper is effective to assess compliance analysis of total VOCs,however,it seems somewhat limited to determine specific individual chemical species responsible for obtaining high total VOC concentrations.展开更多
Photocatalytic oxidation of emerging contaminants(ECs) in water has recently gained extensive attentions. In this study, bismuth oxychloride-based plasmon photocatalysts(BiBiOCl) exhibiting high performance were succe...Photocatalytic oxidation of emerging contaminants(ECs) in water has recently gained extensive attentions. In this study, bismuth oxychloride-based plasmon photocatalysts(BiBiOCl) exhibiting high performance were successfully developed by reducing Bion the surface of BiOCl. Consequently, the photocatalysts were used to remove ECs from water.The effects of developmental process and Bi metal plasmon resonance on the photoelectric performances of Bi-BiOCl were investigated through a series of characterizations. The UV-vis diffuse reflection and photoluminescence spectra revealed that the light absorption range of the photocatalyst gradually increased and the electron recombination rate gradually decreased with the introduction of Bi metals. The optimal removal rates of ciprofloxacin and tetrabromobisphenol A by Bi-BiOCl were 93.8% and 96.4%;the respective reaction rate constants were 5.48 and 4.93 times higher than that of BiOCl. The mechanism study indicated that main reactants in the photocatalytic system were ·O-2radicals and photogenerated holes, and the existence of oxygen vacancies and Bi metals promoted electron transfer in photocatalyst. In conclusion, this research produces a novel, green, highly efficient, and stable visible light photocatalyst for the removal of ECs from water.展开更多
Conventional analytical methods,such as gas chromatography,high performance liquid chromatography(LC),ultra-violet,and others,are ineffective in addressing the increasing number of problems in forensic toxicology.Hyph...Conventional analytical methods,such as gas chromatography,high performance liquid chromatography(LC),ultra-violet,and others,are ineffective in addressing the increasing number of problems in forensic toxicology.Hyphenated analytical methods,wherein the separation method are coupled or combined with spectral methods,with the help of a proper interface,are the available alternative options.The key benefits of these methods are the requisites of low limits for detection,shorter analytical time,the possibility of automation,better reproducibility,and high precision and repeatability.This review discusses on some of the hyphenated analytical methods that involve LC as the separation tool,for their most recent applications in the area of forensic toxicology focusing on the screening of drugs of abuse,the usage of alternative matrices for monitoring drug abuse,analysis of chemical warfare agents,determination of doping agents and related substances,natural toxins,environmental poisons,and examination of food produce adulteration.The incorporation of the more user-friendly LC-interfaces,such as atmospheric pressure chemical ionization,and electrospray ionization in the LC-mass spectrometry has increased the popularity of this technique tremendously among scientists of different disciplines.Hyphenated approaches have extremely low constraints regarding the identification and quantification,and offer high reproducibility,with unparalleled potential.展开更多
文摘Large-scale data emerge in food safety inspection and testing industry with the development of Internet technology in China.This paper was aimed at designing toxic and hazardous substance big data risk analysis algorithm in food safety inspection and testing based on cloud computing^([1]).Cloud computing platform was set up to store the massive extensive data with geographical distribution,dynamic and high complexity from the Internet,and MapReduce^([2]) computational framework in cloud computing was applied to process and compute parallel data.The risk analysis results were obtained by analyzing 1000000 meat products testing data collected from the laboratory management information system based on web.The results show that food safety index IFS < 1,which proves that the food safety state is in good condition.
基金the Agence de l’Eau Rhone-Mediter-ranee&Corse for financial support(NIRHOFEX 2013-2016 Program:“Extraction,Quantification,Removal and Risk Evaluation of Emerging Compounds in Water Discharge from Treatment Surface Industries”).
文摘Industrial discharge water, and especially that from the surface treatment industry (ST), contains non-negligible amounts of pollutants even though the legislation is fully respected. In spite of this, no detailed studies list the exact chemical composition of these effluents. The present study reports the results of analyses performed over a 6-month period involving 15 standard water parameters. Over 160 substances including 33 metals, 58 volatile organic compounds (VOCs), 16 polycyclic aromatic hydrocarbons (PAHs), 24 chlorophenols (CPs), 16 alkylphenols (APs), 5 chloroanilines (CAs) and 7 polychlorobiphenyls (PCBs) were monitored. The industrial effluents presented polycontamination involving metals, minerals and organics with a high degree of qualitative and quantitative variability. Of the 160 substances monitored, 46 were regularly found: 25 inorganics including 8 metals (Co, Cr, Cu, Fe, Ni, Pb, Sn, Zn) and 21 organics (4 PAHs, 10 VOCs, 4 CPs and 3 APs). Eighteen were systematically presented at quantifiable levels.
文摘This work consisted of a series of determinations performed in typical rooms of a building belonging to the Technical University of Lisbon,which is located in a central urban area of Lisbon.The main objective was to evaluate the Indoor Air Quality(IAQ)of the rooms so that further corrective measures could be taken if unsatisfactory IAQ levels were to be found.Correlations were derived,between indoor and outdoor pollutant concentrations,in order to assess the existence of contaminations coming from outside.Also,correlations were derived between total volatile organic compounds(VOC)concentrations and specific individual organic species measured in the same room.The methodology recorded in this paper is effective to assess compliance analysis of total VOCs,however,it seems somewhat limited to determine specific individual chemical species responsible for obtaining high total VOC concentrations.
基金supported by project of Shenzhen Science and Technology Innovation Commission (No. KJYY20180206180737010)university-level supporting projects by Shenzhen polytechnic (No. 6020320003K)+2 种基金Department of Education of Guangdong Province – Urban smart water pollution prevention and control technology development center (No. 2019GGCZX007)Natural Science Foundation of Hebei Province (No. B2021202051)Key R&D Program of Hebei Province (No. 21373601D)。
文摘Photocatalytic oxidation of emerging contaminants(ECs) in water has recently gained extensive attentions. In this study, bismuth oxychloride-based plasmon photocatalysts(BiBiOCl) exhibiting high performance were successfully developed by reducing Bion the surface of BiOCl. Consequently, the photocatalysts were used to remove ECs from water.The effects of developmental process and Bi metal plasmon resonance on the photoelectric performances of Bi-BiOCl were investigated through a series of characterizations. The UV-vis diffuse reflection and photoluminescence spectra revealed that the light absorption range of the photocatalyst gradually increased and the electron recombination rate gradually decreased with the introduction of Bi metals. The optimal removal rates of ciprofloxacin and tetrabromobisphenol A by Bi-BiOCl were 93.8% and 96.4%;the respective reaction rate constants were 5.48 and 4.93 times higher than that of BiOCl. The mechanism study indicated that main reactants in the photocatalytic system were ·O-2radicals and photogenerated holes, and the existence of oxygen vacancies and Bi metals promoted electron transfer in photocatalyst. In conclusion, this research produces a novel, green, highly efficient, and stable visible light photocatalyst for the removal of ECs from water.
文摘Conventional analytical methods,such as gas chromatography,high performance liquid chromatography(LC),ultra-violet,and others,are ineffective in addressing the increasing number of problems in forensic toxicology.Hyphenated analytical methods,wherein the separation method are coupled or combined with spectral methods,with the help of a proper interface,are the available alternative options.The key benefits of these methods are the requisites of low limits for detection,shorter analytical time,the possibility of automation,better reproducibility,and high precision and repeatability.This review discusses on some of the hyphenated analytical methods that involve LC as the separation tool,for their most recent applications in the area of forensic toxicology focusing on the screening of drugs of abuse,the usage of alternative matrices for monitoring drug abuse,analysis of chemical warfare agents,determination of doping agents and related substances,natural toxins,environmental poisons,and examination of food produce adulteration.The incorporation of the more user-friendly LC-interfaces,such as atmospheric pressure chemical ionization,and electrospray ionization in the LC-mass spectrometry has increased the popularity of this technique tremendously among scientists of different disciplines.Hyphenated approaches have extremely low constraints regarding the identification and quantification,and offer high reproducibility,with unparalleled potential.