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A platform for research: civil engineering, architecture and urbanism
Optimization Design on Ventilation Openings of Super Large Circular Coal Storage Dome
In order to reduce the pollution of the atmospheric environment, the super large coal storage warehouse has gradually become the main coal storage mode of power plants and other enterprises. However, due to the enclosed structural form, volatile coal dust and coal seam volatile combustible gas concentration is too high, which resulting in increased risk of ignition detonation. Therefore, this paper based on ventilation engineering theory and combined with CFD which focus on natural ventilation used in large diameter (D = 100 m) circular coal storage dome. The impact of opening modes, opening positions and opening size of super large circular coal storage dome on ventilated characteristics were also studied. The designed method of ventilated openings for super large circular coal storage dome is further proposed.
Optimization Design on Ventilation Openings of Super Large Circular Coal Storage Dome
In order to reduce the pollution of the atmospheric environment, the super large coal storage warehouse has gradually become the main coal storage mode of power plants and other enterprises. However, due to the enclosed structural form, volatile coal dust and coal seam volatile combustible gas concentration is too high, which resulting in increased risk of ignition detonation. Therefore, this paper based on ventilation engineering theory and combined with CFD which focus on natural ventilation used in large diameter (D = 100 m) circular coal storage dome. The impact of opening modes, opening positions and opening size of super large circular coal storage dome on ventilated characteristics were also studied. The designed method of ventilated openings for super large circular coal storage dome is further proposed.
Optimization Design on Ventilation Openings of Super Large Circular Coal Storage Dome
2020-03-15
In: Wang, Z and Zhu, Y and Wang, F and Wang, P and Shen, C and Liu, J, (eds.) Environmental Science and Engineering. (pp. pp. 1201-1209). Springer: Harbin, China. (2020)
Paper
Electronic Resource
English
DDC:
690
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