Minimum Leidenfrost Temperature on Smooth Surfaces
Dana Harvey, Joshua Mendéz Harper, Justin C. Burton
Abstract
During the Leidenfrost effect, a thin insulating vapor layer separates an evaporating liquid from a hot solid. Here we demonstrate that Leidenfrost vapor layers can be sustained at much lower temperatures than those required for formation. Using a high-speed electrical technique to measure the thickness of water vapor layers over smooth, metallic surfaces, we find that the explosive failure point is nearly independent of material and fluid properties, suggesting a purely hydrodynamic mechanism determines this threshold. For water vapor layers of several millimeters in size, the minimum temperature for stability is ≈140 °C, corresponding to an average vapor layer thickness of 10-20 μm.
Topics & Concepts
Leidenfrost effectMaterials scienceExplosive materialWater vaporBoiling pointThermodynamicsLayer (electronics)Vapour pressure of waterVapor pressureMechanicsCondensed matter physicsComposite materialHeat transferPhysicsNucleate boilingChemistryMeteorologyHeat fluxOrganic chemistryElectrohydrodynamics and Fluid DynamicsFluid Dynamics and Heat TransferSurface Modification and Superhydrophobicity