The dispersing process of the blasted smoke in underground mines by ventilation is very important for the safety of personnel,and its energy consumption is also worthy of concern. In this study,the impact of supply ai...The dispersing process of the blasted smoke in underground mines by ventilation is very important for the safety of personnel,and its energy consumption is also worthy of concern. In this study,the impact of supply air flow rate on the decay process of harmful gases and fan energy,and the role of harmful gases buried by blasted pile in the smoke dispersing process is analyzed with three-dimensional numerical simulation. According to the results,air flow facilitates quick smoke dispersion and the gas emits from the blasted pile is only significant at the beginning of ventilation. It is thus recommended that large amount of air supply is taken to disperse the smoke quickly until the concentration of harmful gases reaches relevant standards,and reduce the amount of air in the remain time with frequency conversion technology to save energy. In the given study,12 m / s air flow rate is taken for dispersing smoke and 3 m / s air flow rate is taken for the waiting time. The energy consumption for ventilation is reduced by about 50%. In addition,due to the gases in the blasted pile remains very high concentration after the dispersing process,it is recommended to keep suitable amount of ventilation in the consequent process.展开更多
The electrochemical reaction mechanism and electrocrystallization process of Cu on copper electrode in the eutectic NaC1-KC1-CuC1 molten salt were investigated by means of cyclic voltammetry, chronopotentiometry and c...The electrochemical reaction mechanism and electrocrystallization process of Cu on copper electrode in the eutectic NaC1-KC1-CuC1 molten salt were investigated by means of cyclic voltammetry, chronopotentiometry and chronoamperometry tech-nique at 710℃. The results show that the electrochemical reaction process of Cu is a quasi-reversible process mix-controlled by Cu+ diffusion rate and electron transport rate;the electrochemical reduction mechanism is Cu+e→Cu;the electrocrystallization process of copper is an instantaneous hemispheroid three-dimensional nucleation process; the Cu diffusino coefficient is 4.3×10^-4cm^2·s^-1 under the experimental conditions.展开更多
基金Sponsored by the 12th National Five-Year Science and Technology Support Program(Grant No.2012BAK09B07)
文摘The dispersing process of the blasted smoke in underground mines by ventilation is very important for the safety of personnel,and its energy consumption is also worthy of concern. In this study,the impact of supply air flow rate on the decay process of harmful gases and fan energy,and the role of harmful gases buried by blasted pile in the smoke dispersing process is analyzed with three-dimensional numerical simulation. According to the results,air flow facilitates quick smoke dispersion and the gas emits from the blasted pile is only significant at the beginning of ventilation. It is thus recommended that large amount of air supply is taken to disperse the smoke quickly until the concentration of harmful gases reaches relevant standards,and reduce the amount of air in the remain time with frequency conversion technology to save energy. In the given study,12 m / s air flow rate is taken for dispersing smoke and 3 m / s air flow rate is taken for the waiting time. The energy consumption for ventilation is reduced by about 50%. In addition,due to the gases in the blasted pile remains very high concentration after the dispersing process,it is recommended to keep suitable amount of ventilation in the consequent process.
基金supported by the National Natural Science Foundation of China (No.51074060)
文摘The electrochemical reaction mechanism and electrocrystallization process of Cu on copper electrode in the eutectic NaC1-KC1-CuC1 molten salt were investigated by means of cyclic voltammetry, chronopotentiometry and chronoamperometry tech-nique at 710℃. The results show that the electrochemical reaction process of Cu is a quasi-reversible process mix-controlled by Cu+ diffusion rate and electron transport rate;the electrochemical reduction mechanism is Cu+e→Cu;the electrocrystallization process of copper is an instantaneous hemispheroid three-dimensional nucleation process; the Cu diffusino coefficient is 4.3×10^-4cm^2·s^-1 under the experimental conditions.
