A strategy of intensifying the visible light harvesting ability of anatase Ti02 hollow spheres(HSs)was developed,in which both sides of Ti02 HSs were utilised for stabilising Au nanoparticles(NPs)through the sacrifici...A strategy of intensifying the visible light harvesting ability of anatase Ti02 hollow spheres(HSs)was developed,in which both sides of Ti02 HSs were utilised for stabilising Au nanoparticles(NPs)through the sacrificial templating method and convex surface-induced confinement.The composite structure of single Au NP yolk-Ti02 shell-Au NPs,denoted as Au@Au(Ti02,was rendered and confirmed by the transmission electron microscopy analysis.Au@Au(Ti02 showed enhanced photocatalytic activity in the degradation of methylene blue and phenol in aqueous phase under visible light surpassing that of other reference materials such as Au(Ti02 by 77%and Au@P25 by 52%,respectively,in phenol degradation.展开更多
The present study aims to investigate the effectiveness of effusion film cooling on an adiabatic flat plate.Cylindrical holes of 301 inclination are used for supplying cold air to the hot primary flow.A non-dimensiona...The present study aims to investigate the effectiveness of effusion film cooling on an adiabatic flat plate.Cylindrical holes of 301 inclination are used for supplying cold air to the hot primary flow.A non-dimensional parameter called the film cooling effectiveness is calculated for studying the influence of the velocity ratio for a continuous array of cooling holes.A new approach by splitting the full coverage of film holes into two zones of cooling rows is presented in this paper.The computational results from the investigation show that there exists strong relationship between velocity ratio and adiabatic film cooling effectiveness.The simulations of two zones indicate that a careful analysis of the distribution of cooling holes can significantly reduce the demand for the supply of cold air.展开更多
文摘A strategy of intensifying the visible light harvesting ability of anatase Ti02 hollow spheres(HSs)was developed,in which both sides of Ti02 HSs were utilised for stabilising Au nanoparticles(NPs)through the sacrificial templating method and convex surface-induced confinement.The composite structure of single Au NP yolk-Ti02 shell-Au NPs,denoted as Au@Au(Ti02,was rendered and confirmed by the transmission electron microscopy analysis.Au@Au(Ti02 showed enhanced photocatalytic activity in the degradation of methylene blue and phenol in aqueous phase under visible light surpassing that of other reference materials such as Au(Ti02 by 77%and Au@P25 by 52%,respectively,in phenol degradation.
文摘The present study aims to investigate the effectiveness of effusion film cooling on an adiabatic flat plate.Cylindrical holes of 301 inclination are used for supplying cold air to the hot primary flow.A non-dimensional parameter called the film cooling effectiveness is calculated for studying the influence of the velocity ratio for a continuous array of cooling holes.A new approach by splitting the full coverage of film holes into two zones of cooling rows is presented in this paper.The computational results from the investigation show that there exists strong relationship between velocity ratio and adiabatic film cooling effectiveness.The simulations of two zones indicate that a careful analysis of the distribution of cooling holes can significantly reduce the demand for the supply of cold air.
