5th Nanosafe International Conference on Health and Safety issues related to nanomaterials for a socially responsible approach | |
Effect of carbon black nanoparticles on methane/air explosions: Influence at low initial turbulence | |
物理学;医药卫生;材料科学 | |
Torrado, David^1 ; Glaude, Pierre-Alexandre^1,2 ; Dufaud, Olivier^1,2 | |
Université de Lorraine, Laboratoire Réactions et Génie des Procédés, UMR 7274, Nancy | |
F-54001, France^1 | |
CNRS, Laboratoire Réactions et Génie des Procédés, UMR 7274, Nancy | |
F-54001, France^2 | |
关键词: Carbon black nanoparticles; Carbon black particles; Characterization of nanoparticles; Dispersed nanoparticles; Explosion overpressure; Maximum rate of pressure rise; Methane/air explosions; Micro-sized powder; | |
Others : https://iopscience.iop.org/article/10.1088/1742-6596/838/1/012022/pdf DOI : 10.1088/1742-6596/838/1/012022 |
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来源: IOP | |
【 摘 要 】
Nanoparticles are widely used in industrial applications as additives to modify materials properties such as resistance, surface, rheology or UV-radiation. As a consequence, the quantification and characterization of nanoparticles have become almost compulsory, including the understanding of the risks associated to their use. Since a few years ago, several studies of dust explosion properties involving nano-sized powder have been published. During the production and industrial use of nanoparticles, simultaneous presence of gas / vapor / solvents and dispersed nanoparticles mixtures might be obtained, increasing the risk of a hybrid mixture explosion. The aim of this work is to study the severity of the explosion of carbon black nanoparticles/methane mixtures and understand the influence of adding nanopowders on the behavior of the gas explosions. These results are also useful to understand the influence of soot on the efficiency of the gas combustion. Two grades of carbon black nanoparticles (ranging from 20 to 300 nm average diameter) have been mixed with methane. Tests have been performed on these mixtures in a standard 20 L explosion sphere. Regarding the scale precision, the lowest concentration of carbon black nanoparticles was set at 0.5 g.m-3. Tests were also performed at 2.5 g.m-3, which is still far below 60 g.m-3, the minimum explosive concentration of such powders previously determined in our laboratory. The influence of carbon black particles on the severity of the explosions has been compared to that of pure gas. It appears that the use of carbon black nanoparticles increases the explosion overpressure for lean methane mixtures at low initial turbulences by c. 10%. Similar results were obtained for high initial turbulent systems. Therefore, it seems that carbon black nanoparticles have an impact on the severity of the explosion even for quiescent systems, as opposed to systems involving micro-sized powders that require dispersion at high turbulence levels. Concerning the increment in the maximum rate of pressure rise, the addition of carbon black nanoparticles increased it by a factor of 1.15 in the case of lean fuel mixture. However, this behavior is only observed at high initial turbulence levels. The increment on the maximum rate of pressure rise is higher for powders with lower elementary particle diameter, which is notably due to the fragmentation phenomena that promotes the heat exchange.
【 预 览 】
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Effect of carbon black nanoparticles on methane/air explosions: Influence at low initial turbulence | 914KB | download |