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Numerical simulation to evaluate gas diffusion of turbulent flow in mine ventilation system 被引量:11
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作者 Arif Widiatmojo Kyuro Sasaki +4 位作者 Nuhindro Priagung Widodo Yuichi Sugai Johannes Sinaga Haris Yusuf 《International Journal of Mining Science and Technology》 SCIE EI 2013年第3期349-355,共7页
Tracer gas technique is a method to analyze the airflow path, measure the airflow quantity, and detect any recirculation or leakages in underground mine. In addition, it is also possible to evaluate the axial gas diff... Tracer gas technique is a method to analyze the airflow path, measure the airflow quantity, and detect any recirculation or leakages in underground mine. In addition, it is also possible to evaluate the axial gas diffusion of gas in turbulent bulk flow by utilizing the tracer gas data. This paper discussed about the measurement using tracer gas technique in Cibaliung Underground Mine, Indonesia and the evaluation of effective axial diffusion coefficient, E, by numerical simulation. In addition, a scheme to treat network flow in mine ventilation system was also proposed. The effective axial diffusion coefficient for each airway was evaluated based on Taylor's theoretical equation. It is found that the evaluated diffusion coefficient agrees well with Taylor's equation by considering that the wall friction factor, f, is higher than those for smooth pipe flow. It also shows that the value of effective diffusion coefficient can be inherently determined and the value is constant when matching with other measurements. Furthermore, there are possibilities to utilize the tracer gas measurement data to evaluate the airway friction factors. 展开更多
关键词 Tracer gas effective axial diffusion coefficient Mine ventilation Numerical simulation
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