Electric-field-enhanced jumping-droplet condensation

Keyphrases

• Anti-icing Surfaces 33%
• Applied Electric Field 33%
• Charge Separation 33%
• Condensation 33%
• Condensation Heat Transfer 66%
• Condensation Heat Transfer Enhancement 33%
• Condensed Droplet 33%
• Condensing Surface 66%
• Copper(II) Oxide 33%
• Droplet Motion 33%
• Droplet Trajectory 33%
• Electric Double Layer 33%
• Electric Field (E-field) 100%
• Enhanced Condensation 33%
• Entrainment 33%
• Excess Surface Energy 33%
• Heat Flux 33%
• Heat Transfer 33%
• Heat Transfer Enhancement 33%
• Hydrophobic Coating 33%
• Individual Droplets 33%
• Jumping Droplet Condensation 100%
• Jumping Droplets 66%
• Kinetic Energy 33%
• Large Droplets 33%
• Moderate Heat 33%
• Nanostructured Copper Oxide 33%
• Nanostructured Surfaces 33%
• Net Positive Charge 33%
• Oxide Surfaces 33%
• Self-cleaning 33%
• Superhydrophobic 100%
• Supersaturation 33%
• Thermal Diode 33%
• Vapor Flow 66%

Engineering

• Applied Electric Field 50%
• Applied Field 50%
• Condensation Heat Transfer 100%
• Condensation Heat Transfer Coefficient 50%
• Electric Double Layer 50%
• Electric Field 100%
• Heat Flux 50%
• Heat Transfer Enhancement 100%
• Hydrophobic 50%
• Interfacial Energy 50%
• Nanostructured Surface 50%
• Supersaturation 50%
• Surface Increase 50%
• Surface Oxide 50%