Falling Barometer Nullifies Rock Sealant Effectiveness

The flow of gases, particularly radon and methane, into the mine atmosphere is a problem traditionally controlled by ventilation-dilution techniques. More recently, a preventative approach has been to seal underground surfaces with a polymeric coating to act as a barrier against the influx of dangerous gases. H However, a study by the Israel Government Research Station indicates that unless the rock surface is perfectly sealed, much of the labor to reduce interstitial gas flow is lost to the effects of barometric "breathing" from the rock pores. Previous research has reported the increased frequency of coal mine explosions during periods of barometric pressure minima,1 and the phenomena has been explained through correlation of the observed increase in mine gas concentrations during periods of low barometric pressure with the connective flow of interstitial gases from rock pores into the arsine atmosphere when pressure was actually falling.234 While changes ill barometric pressure arc rapidly transmitted to the mine atmosphere, response in the rock interstices is sluggish, momentarily creating a pressure differential between the mine atmosphere and the interstitial gases. Responding to the pressure gradient, this interstitial gas flows until pressures are equalized.