Soot Morphology in Post-Detonation Fireballs
Abstract not provided.
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Jump to search filtersImpact of Cloud Model on Simulated Photon Transport
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Measuring Surface Mass Loss Rates of Carbonaceous Particles at Gas Temperatures of 3000-7000 K in a Shock Tube
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Physics-Driven Modeling of Detonation Soot Nascency and Growth
Proceedings - 17th International Detonation Symposium, IDS 2024
We present a physics-driven modeling framework for early-time detonation soot formation, integrating hydrodynamic flow simulations and particle growth simulations to predict particle dynamics. Validated against SAXS data, our model supports diffusion-limited growth. Molecular dynamics simulations provide diffusion rates to keep particle models species-informed. The methodology is tested on a gram-scale colliding-wave explosive geometry to explore sensitivity of particle fusion to temperature and initial size. This modeling framework, decoupled from empirical methods, enhances predictive capabilities in explosive soot modeling.
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