Catalytic treatments of VOCs at normal temperature can greatly reduce the cost and temperature of processing,and improve the safety factor in line with the requirements of green chemistry.Activated carbon fiber(ACF)wa...Catalytic treatments of VOCs at normal temperature can greatly reduce the cost and temperature of processing,and improve the safety factor in line with the requirements of green chemistry.Activated carbon fiber(ACF)was pretreated with 10%H_(2)SO_(4)by single factor optimization to increase specific surface area and pore volume obviously.The catalytic ozonation performance of ACF loaded with Au,Ag,Pt and Pd noble metals on ethyl acetate was investigated and Pd/ACF was selected as the optimal catalyst which had certain stability.Pd is uniformly distributed on the surface of ACF,and Palladium mainly exists in the form of Pd0 with a amount of Pd+2.The specific surface area of the catalysts gradually decreases as the loading increases.The activation energy of ethyl acetate calculated by Arrhenius equation is 113 kJ mol 1.With 1%Pd loading and the concentration ratio of ozone to ethyl acetate is 3:1,catalytic ozonation performance is maximized and the conversion rate of ethyl acetate reached to 60%in 3050℃Cat 15,00030,000 h^1.展开更多
In order to study degradation capability and optimal condition of produced endoglucanase (CMCcase), the microbial community with efficient cellulose degrading ability in 28℃ was studied. Microbial community came fr...In order to study degradation capability and optimal condition of produced endoglucanase (CMCcase), the microbial community with efficient cellulose degrading ability in 28℃ was studied. Microbial community came from rotted rice straw which was enriched and domesticated by improved Mandels medium. The standard cellulase activity assays were used to determine cellulase activity, degradation products were analyzed by gas chromatography mass spectrometry (GC/MS), and denaturing gradient gel electrophoresis (DGGE) was used to identify the composition dynamic of the community. The results showed that the microbial community could degrade 39.6% of rice straw gross weight within 6 d. When culture medium volume was 1/5 and pH = 6 on day 5, the CMCcase activity reached the highest of 14 IU mL-L During the fermentation, more than ten products were detected using GCMS. The microbial changed lots in different fermentation periods which detected by DGGE. Phylogenetic tree derived from 16S rDNA sequence found that the community composed of bacteria, and the closest relative were belong to Clostridium sp., Brevibacillus sp. and Bacterium sp. This microbial community could accelerate rice straw rotting and decomposed products could promote organic matter increase of soil展开更多
The zonal averages of temperature (the so-called normal temperatures) for numerous parallels of latitude published between 1852 and 1913 by Dove, Forbes, Ferrel, Spitaler, Batchelder, Arrhenius, von Bezold, Hopfner, v...The zonal averages of temperature (the so-called normal temperatures) for numerous parallels of latitude published between 1852 and 1913 by Dove, Forbes, Ferrel, Spitaler, Batchelder, Arrhenius, von Bezold, Hopfner, von Hann, and Börnstein were used to quantify the global (spherical) and spheroidal mean near-surface temperature of the terrestrial atmosphere. Only the datasets of Dove and Forbes published in the 1850s provided global averages below 〈T〉=14°C, mainly due to the poor coverage of the Southern Hemisphere by observations during that time. The global averages derived from the distributions of normal temperatures published between 1877 and 1913 ranged from 〈T〉=14.0°C (Batchelder) to 〈T〉=15.1°C (Ferrel). The differences between the global and the spheroidal mean near-surface air temperature are marginal. To examine the uncertainty due to interannual variability and different years considered in the historic zonal mean temperature distributions, the historical normal temperatures were perturbed within ±2σ to obtain ensembles of 50 realizations for each dataset. Numerical integrations of the perturbed distributions indicate uncertainties in the global averages in the range of ±0.3°C to ±0.6°C and depended on the number of available normal temperatures. Compared to our results, the global mean temperature of 〈T〉=15.0°C published by von Hann in 1897 and von Bezold in 1901 and 1906 is notably too high, while 〈T〉=14.4°C published by von Hann in 1908 seems to be more adequate within the range of uncertainty. The HadCRUT4 record provided 〈T〉≌?13.7°C for 1851-1880 and 〈T〉=13.6°C for 1881-1910. The Berkeley record provided 〈T〉=13.6°C and 〈T〉≌?13.5°C for these periods, respectively. The NASA GISS record yielded 〈T〉=13.6°C for 1881-1910 as well. These results are notably lower than those based on the historic zonal means. For 1991-2018, the HadCRUT4, Berkeley, and NASA GISS records provided 〈T〉=14.4°C, 〈T〉=14.5°C, and 〈T〉=14.5°C, respectively. The comparison of the 1991-2018 globally averaged near-surface temperature with those derived from distributions of zonal temperature averages for numerous parallels of latitude suggests no change for the past 100 years.展开更多
A new hydrometallurgical process for the refractory gold arsenosulfideconcentrates under normal temperature and pressure was presented. The experimental results of arefractory gold concentrate show that the total cons...A new hydrometallurgical process for the refractory gold arsenosulfideconcentrates under normal temperature and pressure was presented. The experimental results of arefractory gold concentrate show that the total consumption of NaOH in alkaline leaching is only 40%of those theoretically calculated under the conditions of full oxidization at the same oxidation ofarsenic to ar-senate and sulfur to sulfate. After alkaline leaching, cyanidation and adsorptionwere carried out for 24 h. The dissolution of gold by NaCN is increased to 95.3% from 12.8% beforepretreatment, and meanwhile 99.3% of the adsorption of gold by activated charcoal. The consumptionof NaCN for one ton ore is 10 kg, which is 1.2 times less than that before pretreatment. As it iscarried out under normal temperature and pressure, the investment of installations is alsodecreased.展开更多
Degradation of polyethylene terephthalate(PET)plastics by the traditional technologies usually requires high energy consumption and encounters poor product selectivity.Herein,we report the photoconversion of PET into ...Degradation of polyethylene terephthalate(PET)plastics by the traditional technologies usually requires high energy consumption and encounters poor product selectivity.Herein,we report the photoconversion of PET into carbon dioxide with 100%selectivity by in-plane heterostructured NiO/Fe_(2)O_(3) nanosheets in pure water under normal temperature and pressure.High-resolution transmission electron microscopy,X-ray absorption near-edge spectroscopy and X-ray photoelectron spectra demonstrate the construction of the Z-scheme heterojunction,which can help to accelerate the separation of electron-hole pairs for enhanced PET conversion property.Various in-situ characterization techniques and experiments unveil that PET is photodegraded into carbon dioxide by the photogenerated holes,while oxygen is photoreduced into water by the photoexcited electrons.This work will open new avenues toward resolving the white pollution crisis.展开更多
基金the National Key R&D Program of the Ministry of Science and Technology,China(Grant No.2018YFC0705304)and the Key Scientific and Technological Support Projects,Tianjin City,China(Grant No.19YFZCSF01090).
文摘Catalytic treatments of VOCs at normal temperature can greatly reduce the cost and temperature of processing,and improve the safety factor in line with the requirements of green chemistry.Activated carbon fiber(ACF)was pretreated with 10%H_(2)SO_(4)by single factor optimization to increase specific surface area and pore volume obviously.The catalytic ozonation performance of ACF loaded with Au,Ag,Pt and Pd noble metals on ethyl acetate was investigated and Pd/ACF was selected as the optimal catalyst which had certain stability.Pd is uniformly distributed on the surface of ACF,and Palladium mainly exists in the form of Pd0 with a amount of Pd+2.The specific surface area of the catalysts gradually decreases as the loading increases.The activation energy of ethyl acetate calculated by Arrhenius equation is 113 kJ mol 1.With 1%Pd loading and the concentration ratio of ozone to ethyl acetate is 3:1,catalytic ozonation performance is maximized and the conversion rate of ethyl acetate reached to 60%in 3050℃Cat 15,00030,000 h^1.
基金supported by the Key Technologies Research and Development Program of China during the11th Five-Year Plan period (2006BAD07A01,2007BAD89B07)the National Commonweal Scientific Research Found (200803033-B0502)the Center College Basic Scientific Research Fund, China(DL09BA31)
文摘In order to study degradation capability and optimal condition of produced endoglucanase (CMCcase), the microbial community with efficient cellulose degrading ability in 28℃ was studied. Microbial community came from rotted rice straw which was enriched and domesticated by improved Mandels medium. The standard cellulase activity assays were used to determine cellulase activity, degradation products were analyzed by gas chromatography mass spectrometry (GC/MS), and denaturing gradient gel electrophoresis (DGGE) was used to identify the composition dynamic of the community. The results showed that the microbial community could degrade 39.6% of rice straw gross weight within 6 d. When culture medium volume was 1/5 and pH = 6 on day 5, the CMCcase activity reached the highest of 14 IU mL-L During the fermentation, more than ten products were detected using GCMS. The microbial changed lots in different fermentation periods which detected by DGGE. Phylogenetic tree derived from 16S rDNA sequence found that the community composed of bacteria, and the closest relative were belong to Clostridium sp., Brevibacillus sp. and Bacterium sp. This microbial community could accelerate rice straw rotting and decomposed products could promote organic matter increase of soil
文摘The zonal averages of temperature (the so-called normal temperatures) for numerous parallels of latitude published between 1852 and 1913 by Dove, Forbes, Ferrel, Spitaler, Batchelder, Arrhenius, von Bezold, Hopfner, von Hann, and Börnstein were used to quantify the global (spherical) and spheroidal mean near-surface temperature of the terrestrial atmosphere. Only the datasets of Dove and Forbes published in the 1850s provided global averages below 〈T〉=14°C, mainly due to the poor coverage of the Southern Hemisphere by observations during that time. The global averages derived from the distributions of normal temperatures published between 1877 and 1913 ranged from 〈T〉=14.0°C (Batchelder) to 〈T〉=15.1°C (Ferrel). The differences between the global and the spheroidal mean near-surface air temperature are marginal. To examine the uncertainty due to interannual variability and different years considered in the historic zonal mean temperature distributions, the historical normal temperatures were perturbed within ±2σ to obtain ensembles of 50 realizations for each dataset. Numerical integrations of the perturbed distributions indicate uncertainties in the global averages in the range of ±0.3°C to ±0.6°C and depended on the number of available normal temperatures. Compared to our results, the global mean temperature of 〈T〉=15.0°C published by von Hann in 1897 and von Bezold in 1901 and 1906 is notably too high, while 〈T〉=14.4°C published by von Hann in 1908 seems to be more adequate within the range of uncertainty. The HadCRUT4 record provided 〈T〉≌?13.7°C for 1851-1880 and 〈T〉=13.6°C for 1881-1910. The Berkeley record provided 〈T〉=13.6°C and 〈T〉≌?13.5°C for these periods, respectively. The NASA GISS record yielded 〈T〉=13.6°C for 1881-1910 as well. These results are notably lower than those based on the historic zonal means. For 1991-2018, the HadCRUT4, Berkeley, and NASA GISS records provided 〈T〉=14.4°C, 〈T〉=14.5°C, and 〈T〉=14.5°C, respectively. The comparison of the 1991-2018 globally averaged near-surface temperature with those derived from distributions of zonal temperature averages for numerous parallels of latitude suggests no change for the past 100 years.
基金This project is jointly supported by the Creative Foundation of the National Northeast Research and Developing Base of High-Performance and New Materials of China (No.CX9906-3)the Natural Science Foundation of Liaoning Province of China (No.200110101
文摘A new hydrometallurgical process for the refractory gold arsenosulfideconcentrates under normal temperature and pressure was presented. The experimental results of arefractory gold concentrate show that the total consumption of NaOH in alkaline leaching is only 40%of those theoretically calculated under the conditions of full oxidization at the same oxidation ofarsenic to ar-senate and sulfur to sulfate. After alkaline leaching, cyanidation and adsorptionwere carried out for 24 h. The dissolution of gold by NaCN is increased to 95.3% from 12.8% beforepretreatment, and meanwhile 99.3% of the adsorption of gold by activated charcoal. The consumptionof NaCN for one ton ore is 10 kg, which is 1.2 times less than that before pretreatment. As it iscarried out under normal temperature and pressure, the investment of installations is alsodecreased.
基金financially supported by the National Key R&D Program of China(2019YFA0210004,2017YFA0207301)the National Natural Science Foundation of China(22125503,21975242,U2032212,21890754)+8 种基金the Strategic Priority Research Program of Chinese Academy of Sciences(CAS,XDB36000000)the Youth Innovation Promotion Association of CAS(CX2340007003)the Major Program of Development Foundation of Hefei Center for Physical Science and Technology(2020HSC-CIP003)the Key Research Program of Frontier Sciences of CAS(QYZDYSSW-SLH011)the Fok Ying-Tong Education Foundation(161012)the Users with Excellence Program of Hefei Science Center(2020HSC-UE001)the University Synergy Innovation Program of Anhui Province(GXXT-2020-001)Anhui Provincial Natural Science Foundation(2108085QB69)the Fundamental Research Funds for the Central Universities(WK2060000006)。
文摘Degradation of polyethylene terephthalate(PET)plastics by the traditional technologies usually requires high energy consumption and encounters poor product selectivity.Herein,we report the photoconversion of PET into carbon dioxide with 100%selectivity by in-plane heterostructured NiO/Fe_(2)O_(3) nanosheets in pure water under normal temperature and pressure.High-resolution transmission electron microscopy,X-ray absorption near-edge spectroscopy and X-ray photoelectron spectra demonstrate the construction of the Z-scheme heterojunction,which can help to accelerate the separation of electron-hole pairs for enhanced PET conversion property.Various in-situ characterization techniques and experiments unveil that PET is photodegraded into carbon dioxide by the photogenerated holes,while oxygen is photoreduced into water by the photoexcited electrons.This work will open new avenues toward resolving the white pollution crisis.
