Stationary and transient thermal states of barometric pumping in the access pit of an underground quarry

The transition zone between free and underground atmospheres hosts spectacular phenomena, as demonstrated by temperature measurements performed in the 4.6m diameter and 20m deep vertical access pit of an abandoned underground quarry located in Vincennes, near Paris. In summer, a stable stratificatio...

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Bibliographic Details
Published in:The Science of the total environment 2016-04, Vol.550, p.1044-1056
Main Authors: Perrier, Frédéric, Le Mouël, Jean-Louis
Format: Article
Language:English
Subjects:
Atmospheric tides
Cave breathing
Cave conservation
Contaminant transport
Heat transfer
Temperature
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Summary:The transition zone between free and underground atmospheres hosts spectacular phenomena, as demonstrated by temperature measurements performed in the 4.6m diameter and 20m deep vertical access pit of an abandoned underground quarry located in Vincennes, near Paris. In summer, a stable stratification of the atmosphere is maintained, with coherent temperature variations associated with atmospheric pressure changes, with a barometric tide S2 larger than 0.1°C peak to peak. When the winter regime of turbulent cold air avalanches is initiated, stratification with pressure induced signals can be restored transiently in the upper part of the pit, while the lower part remains fully mixed and insensitive to pressure variations. The amplitude of the pressure to temperature transfer function increases with frequency below 5×10−4Hz, with values at 3×10−5Hz varying from 0.1°C·hPa−1 at the bottom up to 2°C·hPa−1 towards the top of the pit. These temperature variations are accounted for by cave breathing, which is pressure induced motion of air amplified by the large volume of the quarry. This understanding is supported by a numerical model including advective heat transport, heat diffusion, and heat exchange with the pit walls. Mean lifetime in the pit is of the order of 9 to 13h, and barometric pumping results in an effective ventilation rate of the quarry of the order of 10−7s−1. This study illustrates the important role of barometric pumping in heat and matter transport between atmosphere and lithosphere. The resulting stationary and transient states, revealed in this pit, are probably a general feature of functioning interface systems, and therefore are an important aspect to consider in problems of contaminant transport, or the preservation of precious heritage such as rare ecosystems or painted caves. [Display omitted] •Access pit of an underground quarry has stratified thermal stable regime in summer.•Summer temporal variations of temperature in pit are due to atmospheric pressure.•These variations are due to air motion and breathing of the underground cavity.•Transient unstable regimes appear before mixed winter regime is established.•Barometric pumping causes amplified air motion and contaminant transport in the pit.
ISSN:0048-9697
1879-1026
DOI:10.1016/j.scitotenv.2016.01.125