SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3164955721> ?p ?o ?g. }

Showing items 1 to 100 of ±157 with 100 items per page.

W3164955721 endingPage "13" @default.
W3164955721 startingPage "1" @default.
W3164955721 abstract "Due to its industrial applications, the assessment of the explosibility parameters of aluminum powder is essential. However, they strongly depend on the Particle Size Distribution (PSD), which impacts both the rate-limiting step of the combustion mechanism and the radiative transfer. This article describes the influence of the test procedure on the explosion severity of six aluminum samples, having primary particle diameters ranging between 0.04 and 125 μm. The PSD measured in situ after dispersion in a 20 L sphere differs from those obtained before dispersion, particularly for nanoparticles for which the presence of agglomerates is evidenced. The explosion severity parameters were measured at different turbulence levels by changing the nozzle geometry and ignition delay time. The impact of the injection procedure varies from micron-sized aluminum dust to nanoparticles due to their low inertia. Moreover, if an alternative nozzle could be more appropriate at a lower turbulence level, the rebound nozzle is always the most conservative option for standard test conditions. Finally, the mean particle surface area was identified as an appropriate indicator of the micro/nano scale's explosivity performance. Results suggest that below 3 m2/g, the combustion would be diffusion-limited and kinetic-limited otherwise." @default.
W3164955721 created "2021-06-07" @default.
W3164955721 creator A5027738809 @default.
W3164955721 creator A5049214009 @default.
W3164955721 creator A5052923047 @default.
W3164955721 creator A5061923765 @default.
W3164955721 date "2021-08-01" @default.
W3164955721 modified "2023-10-09" @default.
W3164955721 title "Explosion severity behavior of micro/nano-sized aluminum dust in the 20L sphere: Influence of the particle size distribution (PSD) and nozzle geometry" @default.
W3164955721 cites W1041750247 @default.
W3164955721 cites W1548513953 @default.
W3164955721 cites W1969961941 @default.
W3164955721 cites W1978208136 @default.
W3164955721 cites W1978520738 @default.
W3164955721 cites W1980393837 @default.
W3164955721 cites W2003412525 @default.
W3164955721 cites W2008946804 @default.
W3164955721 cites W2011100899 @default.
W3164955721 cites W2015176775 @default.
W3164955721 cites W2017091856 @default.
W3164955721 cites W2017213248 @default.
W3164955721 cites W2022413984 @default.
W3164955721 cites W2027632807 @default.
W3164955721 cites W2028644214 @default.
W3164955721 cites W2030285461 @default.
W3164955721 cites W2036929358 @default.
W3164955721 cites W2037348840 @default.
W3164955721 cites W2047415843 @default.
W3164955721 cites W2052255870 @default.
W3164955721 cites W2053947096 @default.
W3164955721 cites W2058840636 @default.
W3164955721 cites W2062664658 @default.
W3164955721 cites W2073736041 @default.
W3164955721 cites W2076916560 @default.
W3164955721 cites W2081929619 @default.
W3164955721 cites W2085163675 @default.
W3164955721 cites W2085795456 @default.
W3164955721 cites W2087902599 @default.
W3164955721 cites W2088659085 @default.
W3164955721 cites W2093336901 @default.
W3164955721 cites W2093702017 @default.
W3164955721 cites W2100839265 @default.
W3164955721 cites W2110048865 @default.
W3164955721 cites W2111324902 @default.
W3164955721 cites W2131119466 @default.
W3164955721 cites W2155144120 @default.
W3164955721 cites W2158455818 @default.
W3164955721 cites W2164890844 @default.
W3164955721 cites W2260413618 @default.
W3164955721 cites W2317488737 @default.
W3164955721 cites W2345951706 @default.
W3164955721 cites W2513943375 @default.
W3164955721 cites W2522465076 @default.
W3164955721 cites W2605987693 @default.
W3164955721 cites W2696657367 @default.
W3164955721 cites W2738785405 @default.
W3164955721 cites W2775548928 @default.
W3164955721 cites W2782257586 @default.
W3164955721 cites W2810044970 @default.
W3164955721 cites W2883709475 @default.
W3164955721 cites W2884561175 @default.
W3164955721 cites W2950035000 @default.
W3164955721 cites W2952074944 @default.
W3164955721 cites W2958091339 @default.
W3164955721 cites W2966475406 @default.
W3164955721 cites W2972713880 @default.
W3164955721 cites W2988004703 @default.
W3164955721 cites W2996832843 @default.
W3164955721 cites W3015869768 @default.
W3164955721 cites W3018233355 @default.
W3164955721 cites W3037011203 @default.
W3164955721 cites W3045392191 @default.
W3164955721 cites W3048904537 @default.
W3164955721 cites W4212973228 @default.
W3164955721 cites W790971226 @default.
W3164955721 cites W1993135561 @default.
W3164955721 doi "https://doi.org/10.1016/j.psep.2021.05.023" @default.
W3164955721 hasPublicationYear "2021" @default.
W3164955721 type Work @default.
W3164955721 sameAs 3164955721 @default.
W3164955721 citedByCount "19" @default.
W3164955721 countsByYear W31649557212022 @default.
W3164955721 countsByYear W31649557212023 @default.
W3164955721 crossrefType "journal-article" @default.
W3164955721 hasAuthorship W3164955721A5027738809 @default.
W3164955721 hasAuthorship W3164955721A5049214009 @default.
W3164955721 hasAuthorship W3164955721A5052923047 @default.
W3164955721 hasAuthorship W3164955721A5061923765 @default.
W3164955721 hasConcept C105923489 @default.
W3164955721 hasConcept C111368507 @default.
W3164955721 hasConcept C120665830 @default.
W3164955721 hasConcept C121332964 @default.
W3164955721 hasConcept C127313418 @default.
W3164955721 hasConcept C129955480 @default.
W3164955721 hasConcept C147789679 @default.
W3164955721 hasConcept C155672457 @default.
W3164955721 hasConcept C159985019 @default.
W3164955721 hasConcept C171250308 @default.