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Efficient dechlorination of chlorinated solvent pollutants under UV irradiation by using the synthesized TiO2 nano-sheets in aqueous phase 总被引:1,自引:0,他引:1
Landry Biyoghe Bi Ndong Murielle Primaelle Ibondou Zhouwei Miao Xiaogang Gu Shuguang Lu Zhaofu Qiu Qian Sui Serge Maurice Mbadinga 《环境科学学报(英文版)》2014,26(5):1188-1194
Titanium dioxide(TiO2), which is the widely used photo-catalyst, has been synthesized by simple hydrothermal solution containing tetrabutyl titanate and hydrofluoric acid. The synthesized product has been applied to photo-degradation in aqueous phase of chlorinated solvents, namely tetrachloroethene(PCE), trichloroethene(TCE) and 1,1,1-trichloroethane(TCA). The photo-degradation results revealed that the degradation of these harmful chemicals was better in UV/synthesized TiO2 system compared to UV/commercial P25 system and UV only system. The photo-catalytic efficiency of the synthesized TiO2 was 1.4, 1.8 and 3.0 folds higher compared to the commercial P25 for TCA, TCE and PCE degradation, respectively. Moreover, using nitrobenzene(NB) as a probe of hydroxyl radical(.OH), the degradation rate was better over UV/synthesized TiO2, suggesting the high concentration of.OH generated in UV/synthesized TiO2system. In addition,.OH concentration was confirmed by the strong peak displayed in EPR analysis over UV/synthesized TiO2system. The characterization result using XRD and TEM showed that the synthesized TiO2 was in anatase form and consisted of well-defined sheet-shaped structures having a rectangular outline with a thickness of 4 nm, side length of 50 nm and width of 33 nm and a surface 90.3 m2/g. XPS analysis revealed that ≡Ti-F bond was formed on the surface of the synthesized TiO2. The above results on both photocatalytic activity and the surface analysis demonstrated the good applicability of the synthesized TiO2 nano-sheets for the remediation of chlorinated solvent contaminated groundwater. 相似文献
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Removal of PCBs from wastewater using fly ash 总被引:23,自引:0,他引:23
Liquids and sludges containing polychlorinated biphenyls (PCBs) can be treated to concentrate the PCBs in a solid residue. The latter can then be handled to destroy the PCBs. A study on sorption kinetics of PCBs on fly ash was conducted in controlled batch systems. TCB and HeCB are removed at 25 degrees C by adsorption on fly ash up to 97% at pH 7, with an adsorbent dose of 5 g/l. An examination of the thermodynamic parameters shows that the adsorption of TCB and HeCB by fly ash is a process occurring spontaneously at ambient conditions. Activation energies for the sorption process ranged between 5.6 and 49.1 kJ/mol. It was observed that the rate at which TCB and HeCB are adsorbed onto fly ash showed a diffusion limitation. The uptake rate of TCB and HeCB increases with increasing initial concentration and gradually tends to a constant value. A decrease in the adsorption of TCB and HeCB was observed when interfering ions and other PCB congeners were present. Changing the pH in the aqueous solution from 2 to 10 had no effect on the adsorption process. Overall, fly ash can be used for an efficient removal of PCBs from several aqueous solutions. 相似文献
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Danielle Bonenfant Lynda Kharoune Sébastien Sauvé Robert Hausler Patrick Niquette Murielle Mimeault Mourad Kharoune 《International Journal of Greenhouse Gas Control》2009,3(1):20-28
This review presents a summary of the main interactions that occur during the carbon dioxide (CO2) adsorption at the surface of steel slags with basic (CaO, MgO), amphoteric (Al2O3, Cr2O3, TiO2, MnO, iron oxides) and acidic (SiO2) oxides. The high content of metal oxides in steel slags gives them a great potential to adsorb CO2, reaching a saturation value of about 0.25 kg of CO2/kg of slag. CO2 is physisorbed and chemisorbed on the most of metal oxide types. Generally, the CO2 physisorption on the basic and amphoteric metal oxides involves an electrostatic interaction between the CO2 and the cation from the oxides while the CO2 chemisorption rather implicates the basic sites that acts as the electron donor, and which are associated with O2? ions localized at surface defects. These interactions result in the formation of carbonates (monodentates or unidentates and bidentates). The affinity of oxides for the CO2 and the carbonate formation principally depend of the strength and number of basic sites at their surface and varies as following: basic oxides > amphoteric oxides > acidic oxides. The basic metal oxides generally represent the best electron donors and thus the best CO2 adsorbents due to the high basicity and their great number of reaction sites. Hence, it appears that the surface structure of basic and amphoteric metal oxides which may favour their interaction with the CO2, as well as their basicity is the determinant factor contributing to the formation of carbonate species. The molecular analysis of CO2 adsorption on steel slag metal oxides will provide useful data to identify rate-controlling mechanisms and should be considered for the development of new effective methods for the capture of atmospheric CO2 emissions released from industries. 相似文献
4.
Haussard M Gaballah I de Donato P Barrès O Mourey A 《Journal of the Air & Waste Management Association (1995)》2002,52(1):76-83
Raw, biologically treated bark and bark impregnated with transition metal ions were used to retain the lipids from synthetic emulsions. Several experimental parameters affecting the lipid removal efficiency (RE) were studied (initial concentration of lipids, temperature, time, pH, carboxylic acid chain length, etc.). Saturated bark was characterized using Fourier transform infrared (FTIR) spectroscopy and light microscopy, and the treated bark wetting index was determined. Results show that lipid removal can exceed 95% of the initial concentration at a pH lower than 7. The uptake of lipids by these sorbents varied from 0.2 to 2.5 g/g of dry bark. Trials for regenerating the sorbent saturated by lipids allowed the recovery of approximately 95% of lipids. The calorific value of the saturated bark was approximately 79% that of domestic fuel and can be considered as an energy source, thus avoiding its waste disposal. These results may upgrade the treatment of wastewater generated by several industrial sectors, such as the food industry, surface treatment, and so on. 相似文献
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Fabrice Helfenstein Murielle Podevin Heinz Richner 《Behavioral ecology and sociobiology》2010,64(4):557-565
Sperm competition exerts strong selection on males to produce spermatozoa with an optimal morphology that maximizes their
fertilization success. Long sperm were first suggested to be favored because they should swim faster. However, studies that
investigated the relationship between sperm length and sperm competitive ability or sperm swimming velocity yielded contradictory
results. More recently, ratios of the different sections of a spermatozoon (the head, midpiece, and flagellum) were suggested
to be more crucial in determining swimming velocity. Additionally, sperm ability to remain and survive in the female storage
organs may also influence fertilization success, so that optimal sperm morphology may rather maximize sperm longevity than
velocity. In this study, we investigated how sperm morphology is related to sperm velocity and sperm longevity in the house
sparrow Passer domesticus. Sperm velocity was found to be correlated with head/flagellum ratio. Sperm with small heads relative to their flagellum showed
higher swimming velocity. Additionally, shorter sperm were found to live longer. Finally, we found sperm morphological traits
to vary substantially within males and the head/flagellum ratio to be unrelated to total sperm length. We discuss the hypothesis
that the substantial within-male variation in sperm morphology reflects a male strategy to produce a diversity of sperm from
long, fast-swimming to short, long-living sperm to maximize their fertilization success in a context of sperm competition. 相似文献
6.
Murielle Haussard Ibrahim Gaballah Philipe de Donato Odile Barrès André Mourey 《Journal of the Air & Waste Management Association (1995)》2013,63(9):1351-1358
ABSTRACT This paper explores the possibility of removing hydrocarbons (HCs) and trace elements from synthetic and industrial effluents using treated bark as biosorbent. Coniferous bark was treated either chemically (Tc) or biologically (Tb) to eliminate soluble organic compounds of bark. The removal efficiency (RE) of the HCs from a synthetic oil-water mixture containing spent diesel motor oil exceeds 95% using 2 g/L of treated bark mixed with a synthetic oil-water mixture containing 2 g/L of spent oil. Under these conditions, the retention capacity (RC) was ~1 g HC/g dry substrate. The sorption reaction seems to be quasi-instantaneous, and the retention capacity of spent oil on treated bark increases as the temperature augments. This implies that the retention mechanism is related to the capillary action. Results of Fourier transform infrared (FTIR) spectros-copy indicate that spent oil is mainly composed of al-kanes. They also suggest that no chemical bonds between Tc and spent oil were established. Measurement of the surface tension of spent oil and the wetting index of the bark suggests that only spent oil will be retained by the substrate. Treatment of an industrial effluent containing 14.4 g/L of total HCs was performed using Tc. It was possible to remove 97% of HCs and retain some trace elements such as Al, Ca, Fe, Mg, S, and so on. 相似文献
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