Effective utilization of tracer gas in characterization of underground mine ventilation networks

• Some practical aspects were provided for tracer gas application.
• The recommendations help to reduce the effort in conducting tracer gas experiments.
• Choice of tracer gases, release and sampling techniques are described and tested.
• Recommendations are given for the use of gas chromatography.
• Examples are shown on how CFD modeling can optimize tracer gas tests.

Tracer gases are an effective method for assessing mine ventilation systems, especially when other techniques are impractical. Based on previously completed laboratory and field experiments, this paper discusses some common and challenging issues encountered when using tracer gases in underground mines. The discussion includes tracer release methods, sampling and analysis techniques. Additionally, the use of CFD to optimize the design of tracer gas experiments is also presented. Finally, guidelines and recommendations are provided on the use of tracer gases in the characterization of underground mine ventilation networks. This work has informed the practical use of tracer gases in mines, and this body of knowledge is expected to contribute to more efficient and more common use of tracer gases by mine engineers, which will allow for better characterization of mine ventilation system and improved safety. The findings can also be used when using the tracer gas technique in the evaluation of atmospheric environment and air quality investigation in buildings.