Filtern
Dokumenttyp
Sprache
- Englisch (3)
Schlagworte
- Dust explosion (1)
- Dust explosions (1)
- Gas explosions (1)
- HPLC (1)
- Hybrid mixtures (1)
- Mass spectrometry (1)
- Minimum ignition temperature (1)
- Nanopowders (1)
- Poly(amino phosphodiester) (1)
- Safety characteristics (1)
Organisationseinheit der BAM
The maximum explosion overpressure and the maximum rate of pressure rise, which characterize thedust explosion severity, are commonly measured in apparatuses and under specific conditions defined byinternational standards. However, those standards conditions, designed for micropowders, may not befully adapted to nanoparticles. Investigations were conducted on different nanopowders (nanocellulose,carbon black, aluminum) to illustrate their specific behaviors and highlight the potential inadequacyof the standards. The influence of the sample preparation was explored. Various testing procedureswere compared, focusing on the dust cloud turbulence and homogeneity. Dust dispersion experimentsevidenced the importance of the characterization of the dust cloud after dispersion, due to the frag-mentation of agglomerates, using metrics relevant with nanoparticles reactivity (e.g. surface diameterinstead of volume diameter). Moreover, the overdriving phenomenon (when the experimental resultsbecome dependent of the ignition energy), already identified for micropowders, can be exacerbated fornanoparticles due to their low minimum ignition energy and to the high energy used under standardconditions. It was evidenced that for highly sensitive nanopowders, pre-ignition phenomenon can occur.Finally, during severe explosions and due to a too long opening delay of the ‘fast acting valve’, the flamecan go back to the dust container.
Protection from explosion events requires the determination of key safety parameters like lower explosion limit. maximum Explosion over-pressure. and maximum rate of pressure rise. These Parameters are routinely obtained through standard tests performed typically either in a 20 L -sphere or a 1 m3-container. But several aspects are worth a closer investigation. Firstly, the test apparatus must be able to disperse a fairly uniform dust cloud. However. previous investigations showed that actually the current dispersion System can be improved. Secondly, the influence of humidity on the explosivity is not considered in current standards. lt is just stated that the relative humidity should be checked and noted down.
though some provisions exist in American standards. Thirdly. the ignition delay time is sometimes modified to study the impact of the dust cloud turbulence on flame propagation but is often misunderstood.
Maybe these aspects have not been thoroughly considered for micron powders. However. in the case of nanopowders. the importance of these influencing factors was shown in order to duly evaluate explosion parameters. Experimental evidences confirm these aspects and alternative solutions will be presented.
Sequence-defined poly(amino phosphodiester)s containing main-chain tertiary amines were synthesized by automated solid-phase phosphoramidite chemistry. These polymers were prepared using four monomers with different substituents. The formed polymers were characterized by HPLC and mass spectrometry. These methods evidenced preparation of molecularly-defined polymers. Furthermore, the presence of tertiary amines in the polymer backbones facilitates sequencing by tandem mass spectrometry.