Pages that link to "Item:Q955573"
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The following pages link to Comprehensive experimental and theoretical study of fluid flow and heat transfer in a microscopic evaporating meniscus in a miniature heat exchanger (Q955573):
Displaying 9 items.
- Numerical investigation of heat and mass transfer from an evaporating meniscus in a heated open groove (Q549403) (← links)
- New boundary conditions for the evaporating thin-film model in a rectangular micro channel (Q550791) (← links)
- Numerical study of conjugated heat transfer in evaporating thin-films near the contact line (Q765574) (← links)
- Heat transfer characteristics and pressure variation in a nanoscale evaporating meniscus (Q992925) (← links)
- Flow and heat transfer characteristics of the evaporating extended meniscus in a micro-capillary channel. (Q1429725) (← links)
- Analysis of film condensation heat transfer inside a vertical micro tube with consideration of the meniscus draining effect. (Q1429726) (← links)
- Effects of radius and heat transfer on the profile of evaporating thin liquid film and meniscus in capillary tubes. (Q1598338) (← links)
- A novel supermesh method for computing solutions to the multi-material Stefan problem with complex deforming interfaces and microstructure (Q2113665) (← links)
- Role of solid surface structure on evaporative phase change from a completely wetting corner meniscus (Q3578548) (← links)