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Inhibition mechanism of sodium bicarbonate on micron-sized aluminum dust explosions: Computational fluid dynamics modeling and experimental validation

Jing Luo, Wei Gao, Tianjiao Zhang, Kai Zhang, Songling Jin, Yu Hong, Haipeng Jiang

2026Chemical Engineering Journal10 citationsDOI

Topics & Concepts

ChemistryDust explosionDiluentRadicalAluminiumReactive materialChemical reactionReaction mechanismSodium bicarbonateSodiumAqueous solutionPressure waveChemical engineeringHeat transferMolecular dynamicsFlow (mathematics)Fluid dynamicsReaction rateMechanism (biology)BicarbonateThermodynamicsInorganic chemistryMixing (physics)AttenuationInertAccelerationHeat generationAtmospheric pressureComputational fluid dynamicsThermalVolumetric flow rateCombustion and Detonation ProcessesEnergetic Materials and CombustionStructural Response to Dynamic Loads
Inhibition mechanism of sodium bicarbonate on micron-sized aluminum dust explosions: Computational fluid dynamics modeling and experimental validation | Litcius