Hydroelectric facilities impact water temperature; low velocities in a reservoir increase residence time and enhance heat exchange in surface layers. In this study, an unsteady three-dimensional model was developed to...Hydroelectric facilities impact water temperature; low velocities in a reservoir increase residence time and enhance heat exchange in surface layers. In this study, an unsteady three-dimensional model was developed to predict the temperatm'e dynamics in the McNary Dam forebay. The model is based on the open-source code OpenFOAM. RANS equations with the Boussinesq approximation were used to solve the flow field. A: realizable k-ε model that accounts for the production of wind turbulence was developed. Solar radiation and convective heat transfer at the free surface were included. The result of the model was compared with the field data collected on August 18, 2004. Changes in diurnal stratification were adequately predicted by the model. Observed vertical and lateral temperature distributions were accurately captured. Results indicate that the model can be used as a numerical tool to assess structural and operational alternatives to reduce the forebay temperature.展开更多
Tungsten is the most promising plasma-facing material(PFM)for future nuclear fusion reactors such as international thermonuclear experimental reactor(ITER)owing to its high melting temperature,high thermal conductivit...Tungsten is the most promising plasma-facing material(PFM)for future nuclear fusion reactors such as international thermonuclear experimental reactor(ITER)owing to its high melting temperature,high thermal conductivity and low hydrogen retention[1].Under ITER-relevant conditions,a large amount of helium from the fusion reactions will constantly bombard the PFM.Though the energies of helium atoms in different regions are different,the flux and展开更多
By controlling the feed ratio of CMS/styrene and the polymerization time, a series of hyperbranched copolystyrenes(HBCPS) were synthesized with comparable weight-averaged molecular weights(Mw) but different degree...By controlling the feed ratio of CMS/styrene and the polymerization time, a series of hyperbranched copolystyrenes(HBCPS) were synthesized with comparable weight-averaged molecular weights(Mw) but different degree of branching(DB) through atom transfer radical self-condensing vinyl copolymerization(ATR-SCVCP) with Cu Br/2,2?-bipyridyl as the catalyst. The resulting HBCPS samples were used to investigate the effect of branching architecture on their glass transition behavior. With the DB increased, the glass transition temperatures(Tg) of HBCPS samples measured by DMA and DSC both decreased. Their spin-lattice relaxation times(1H T1r) of protons displayed the same downtrend with increasing DB. Besides, a correlation between the Tgs and the DB was well established by all-atom molecular dynamics(MD) simulations. The values of MD-determined Tgs are little higher than the corresponding experimental ones. However, the dependence of Tgs on DB is in good agreement with the experimental results, i.e., Tg decreases both in experiments and simulations with increasing DB.展开更多
基金supported by Hydro Research Foundation (Grant No. DE-EE0002668)
文摘Hydroelectric facilities impact water temperature; low velocities in a reservoir increase residence time and enhance heat exchange in surface layers. In this study, an unsteady three-dimensional model was developed to predict the temperatm'e dynamics in the McNary Dam forebay. The model is based on the open-source code OpenFOAM. RANS equations with the Boussinesq approximation were used to solve the flow field. A: realizable k-ε model that accounts for the production of wind turbulence was developed. Solar radiation and convective heat transfer at the free surface were included. The result of the model was compared with the field data collected on August 18, 2004. Changes in diurnal stratification were adequately predicted by the model. Observed vertical and lateral temperature distributions were accurately captured. Results indicate that the model can be used as a numerical tool to assess structural and operational alternatives to reduce the forebay temperature.
基金supported by the National Natural Science Foundation of China (Grant No. 51671009)the China National Funds for Distinguished Young Scientists (Grant No.51325103)
文摘Tungsten is the most promising plasma-facing material(PFM)for future nuclear fusion reactors such as international thermonuclear experimental reactor(ITER)owing to its high melting temperature,high thermal conductivity and low hydrogen retention[1].Under ITER-relevant conditions,a large amount of helium from the fusion reactions will constantly bombard the PFM.Though the energies of helium atoms in different regions are different,the flux and
基金financially supported by the National Basic Research Program(Nos.2012CB821500 and 2013CB834506)the National Natural Science Foundation of China(Nos.9112704721174086 and 21274167)
文摘By controlling the feed ratio of CMS/styrene and the polymerization time, a series of hyperbranched copolystyrenes(HBCPS) were synthesized with comparable weight-averaged molecular weights(Mw) but different degree of branching(DB) through atom transfer radical self-condensing vinyl copolymerization(ATR-SCVCP) with Cu Br/2,2?-bipyridyl as the catalyst. The resulting HBCPS samples were used to investigate the effect of branching architecture on their glass transition behavior. With the DB increased, the glass transition temperatures(Tg) of HBCPS samples measured by DMA and DSC both decreased. Their spin-lattice relaxation times(1H T1r) of protons displayed the same downtrend with increasing DB. Besides, a correlation between the Tgs and the DB was well established by all-atom molecular dynamics(MD) simulations. The values of MD-determined Tgs are little higher than the corresponding experimental ones. However, the dependence of Tgs on DB is in good agreement with the experimental results, i.e., Tg decreases both in experiments and simulations with increasing DB.