Cave volume computed on the behaviour of a blowing well (Tournai basin, W. Belgium)

Massen,; Dusar,; Loy,; Vandenberghe,

doi:10.1046/j.1365-3121.1998.00179.x

Cited by 5 publications

(5 citation statements)

References 5 publications

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“…A consensus exists that driving forces of airflow are proportional to the differences in air densities (Cigna 1968; de Freitas et al , 1982; Christoforou et al , 1996; Massen et al , 1998; Spötl et al , 2005; Fernandez‐Cortes et al , 2009b; Kowalczk and Froelich 2010). For the density of a binary mixture of dry air (a‐subscript) and water vapour (w‐subscript), the ideal gas equation gives where ρ is the mixture density [kg m −3 ], M i is molar mass of i‐gas [kg mol −1 ], P is total pressure of gas mixture [Pa], p w is partial pressure of water vapour (Pa), R is the universal gas constant [m 3 Pa K −1 mol −1 ], and T is absolute temperature [K].…”

Section: Discussionmentioning

confidence: 99%

Air circulation and its impact on microclimatic variables in the Císařská Cave (Moravian Karst, Czech Republic)

Faimon

Troppová

Baldík

et al. 2011

Intl Journal of Climatology

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Airflows and their impact on microclimatic parameters were studied in the two-entranced Císařská Cave (Moravian Karst, Czech Republic). Basing on the airflow direction with respect to the upper entrance (UE) and lower entrance (LE), three ventilation modes were distinguished: upward airflow one (UAF mode), downward airflow one (DAF mode), and transitional mode. A switching between the UAF and DAF happens in the transitional mode, in the range of external temperatures from 9.5 to 11.1°C. Basing on the extent of cave ventilation, a period of active ventilation and period of stagnant ventilation were recognised. The cave air is intensively exchanged with external airs during the active ventilation period when the cave persists in either the DAF or UAF mode. During the stagnant ventilation period, the single airflow modes switch during diurnal cycle and only cave entering passages are vented (impacted). The airflows were found to depend (i) linearly on the differences in cave-outdoor air densities, (ii) nonlinearly on the external temperature, and (iii) both linearly (LE) and non-linearly (UE) on the temperature gradient. Majority of the airflows showed high-frequency oscillations with the period from tens of seconds to minutes and with the amplitude up to 0.1 m 3 s −1 . Different airflow spectra were found at the individual entrances. The highest spectral densities were registered at low driving forces. The air circulation changed the pattern of temperature distribution depending on the ventilation mode and ventilation period. The cave relaxation length varied in the extreme range from 1 to 69.6 m. The asymptotic temperature and asymptotic specific humidity varied from 7.5 to 11.8°C, and from 5.47 to 7.15 kg kg −1 , respectively. The impact of airflows on the cave CO 2 levels is discussed based on a dynamic model.

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Section: Discussionmentioning

confidence: 99%

Air circulation and its impact on microclimatic variables in the Císařská Cave (Moravian Karst, Czech Republic)

Faimon

Troppová

Baldík

et al. 2011

Intl Journal of Climatology

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“…It must be emphasized that further processes, such as barometric fluctuations, might lead to significant air flows in larger systems (e.g. Conn, 1966; Massen et al ., 1998). These will, however, increase the influence of air flow, as suggested by our model.…”

Section: Discussionmentioning

confidence: 99%

Temperature distribution in karst systems: the role of air and water fluxes

2004

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A better understanding of heat fluxes and temperature distribution in continental rocks is of great importance for many engineering aspects (tunnelling, mining, geothermal research, etc.). This paper aims at providing a conceptual model of temperature distribution in karst environments which display thermal ‘anomalies’ as compared with other rocks. In temperate regions, water circulation is usually high enough to ‘drain‐out’ completely the geothermal heat flux at the bottom of karst systems (phreatic zone). A theoretical approach based on temperature measurements carried out in deep caves and boreholes demonstrates, however, that air circulation can largely dominate water infiltration in the karst vadose zone, which can be as thick as 2000 m. Consequently, temperature gradients within this zone are similar to the lapse rate of humid air (∼0.5 °C 100 m−1). Yet, this value depends on the regional climatic context and might present some significant variations.

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“…Unlike humidity, a significant increase in the proportion of CO 2 , whose molecular weight is 44.01 g/mol, would lead to an increase in the density of air under equal conditions of pressure and temperature. A general expression for calculating the density of humid air is based on the equation of state of a mixture of dry air and water vapor (equivalent equations were implemented by Badino, 1995 andMassen et al, 1998):…”

Section: Air Density Calculationsmentioning

confidence: 99%

“…222 Rn gas, Perrier et al, 2004), or also estimating the volume of natural voids by a calculation based on outflow of air from a well connected to the void under constant atmospheric pressure (Massen et al, 1998).…”

Section: International Journal Of Speleology 38(2) 153-162 Bologna mentioning

confidence: 99%

Annual and transient signatures of gas exchange and transport in the Castañar de Ibor cave (Spain)

Fernández-Cortés¹,

Sánchez‐Moral²,

Cuezva³

et al. 2009

IJS

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Cave volume computed on the behaviour of a blowing well (Tournai basin, W. Belgium)

Cited by 5 publications

References 5 publications

Air circulation and its impact on microclimatic variables in the Císařská Cave (Moravian Karst, Czech Republic)

Air circulation and its impact on microclimatic variables in the Císařská Cave (Moravian Karst, Czech Republic)

Temperature distribution in karst systems: the role of air and water fluxes

Annual and transient signatures of gas exchange and transport in the Castañar de Ibor cave (Spain)

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