Low-Prandtl-number simulations show that Taylor-expansion terms neglected in upscaled heat-transfer models are significant at porous-fluid interfaces.
Journal of Fluid Mechanics , volume =
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Experiments show that a coarsest-pore additively manufactured lattice wall in a hydrogen jet flame nozzle improves flashback resistance mainly via cooling from unburnt mixture flowing through the porous structure.
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Influence of Prandtl number on heat transfer over a permeable wall
Low-Prandtl-number simulations show that Taylor-expansion terms neglected in upscaled heat-transfer models are significant at porous-fluid interfaces.
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Effect of Additively Manufactured Wall Lattice Structures on Flashback Limits in a Hydrogen Jet Flame Combustor
Experiments show that a coarsest-pore additively manufactured lattice wall in a hydrogen jet flame nozzle improves flashback resistance mainly via cooling from unburnt mixture flowing through the porous structure.