摘要
Recirculation is prohibited in many coal mining countries because of the fear that the re-use of return air would allow the build-up of air contaminants at the workings. The incorrect design and location of a booster fan in any ventilation network can create unsafe condition due to recirculation. The current approach to investigating recirculation using simulation software requires manual effort which becomes tedious in a complex and a large network. An algorithm-based C++ program was designed to detect the recirculation in a booster fan ventilation networks. This program needed an input file prepared from output file generated by any ventilation simulator. This program created an output file for recirculation. This program demonstrated the strong capability to detect the recirculation in a sample network and a coal mine ventilation network. The outcomes of this program were documented in this paper.
Recirculation is prohibited in many coal mining countries because of the fear that the re-use of return air would allow the build-up of air contaminants at the workings, The incorrect design and location of a booster fan in any ventilation network can create unsafe condition due to recirculation, The current approach to investigating recirculation using simulation software requires manual effort which becomes tedious in a complex and a large network, An algorithm-based C++ program was designed to detect the recirculation in a booster fan ventilation networks, This program needed an input file prepared from output file generated by any ventilation simulator, This program created an output file for recirculation, This program demonstrated the strong capability to detect the recirculation in a sample network and a coal mine ventilation network, The outcomes of this program were documented in this paper.
基金
the National Institute for Occupational Safety and Health of USA for providing financial support for this project
