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Mine Fire Behavior under Different Ventilation Conditions: Real-Scale Tests and CFD Modeling
Fires in underground spaces are especially relevant due to their potential mortality. However, there is not much research in real-scale spaces done so far. In this study, several fire scenarios were analyzed in an underground drift, taking into account the main environmental variables: airflow, temp...
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| Published in: | Applied sciences 2020-05, Vol.10 (10), p.3380 |
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| Language: | English |
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| creator | Fernandez-Alaiz, Florencio Castanon, Ana Maria Gomez-Fernandez, Fernando Bascompta, Marc |
| description | Fires in underground spaces are especially relevant due to their potential mortality. However, there is not much research in real-scale spaces done so far. In this study, several fire scenarios were analyzed in an underground drift, taking into account the main environmental variables: airflow, temperature, oxygen, and pollutants. The behavior before and after the fire load was determined, as well as the evolution of the fire over time throughout the drift and its cross-section, finding important trends of the fire based on the airflow–fuel load ratio. Furthermore, the five most representative scenarios were modeled using the fire dynamics simulator (FDS). Results obtained in the simulations, with the adjusted parameters, display a good correlation between simulated and experimental values, being able to extrapolate these values to know the performance of potential fires in other underground spaces or mines. The outcomes could also be a very useful tool to study the effectiveness of possible emergency measures or the potential impact of a fire in this type of environments. |
| doi_str_mv | 10.3390/app10103380 |
| format | article |
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However, there is not much research in real-scale spaces done so far. In this study, several fire scenarios were analyzed in an underground drift, taking into account the main environmental variables: airflow, temperature, oxygen, and pollutants. The behavior before and after the fire load was determined, as well as the evolution of the fire over time throughout the drift and its cross-section, finding important trends of the fire based on the airflow–fuel load ratio. Furthermore, the five most representative scenarios were modeled using the fire dynamics simulator (FDS). Results obtained in the simulations, with the adjusted parameters, display a good correlation between simulated and experimental values, being able to extrapolate these values to know the performance of potential fires in other underground spaces or mines. 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| subjects | Air flow Coal mining Computer simulation Experiments FDS Fire fire behavior Fire load Fires Flammable materials Fluid dynamics Heat Mathematical models Mine accidents Mine ventilation Mines Observations Pollutants safety hazard Simulation underground fire Underground mines Ventilation |
| title | Mine Fire Behavior under Different Ventilation Conditions: Real-Scale Tests and CFD Modeling |
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