Add to ORKGAn analytical investigation of the effects of thermocapillarity on the flow field within and heat transfer from the extended meniscus region of a heated meniscus which is re-supplied by capillarity is presented. Microgravity conditions are considered. The analysis shows that even for extremely small temperature differences between the wall and the vapor (less than 1 mK) thermocapillary stresses at the liquid-vapor interface due to a non-uniform interfacial temperature drastically alters the flow field. At the same time, these stresses were shown to have only a slight effect on the heat transfer from the extended meniscus but increasing with an increasing temperature difference. Additionally, thermocapillary effects were shown to be sensitiv...
A detailed numerical model is developed that describes heat and mass transfer from a meniscus to ope...
We present results of an experimental investigation of Marangoni convection for an evaporating menis...
Vita.An analytical model for describing the heat transfer from the wall of a capillary groove to the...
An investigation of thermocapillary effects on a heated meniscus formed by a volatile liquid in a ve...
An investigation of thermocapillary effects on a heated, evaporating meniscus formed by a wetting li...
An investigation of thermocapillary effects on heated menisci formed by volatile liquids in capillar...
An investigation of thermocapillary effects on a heated and evaporating meniscus formed by a volatil...
A mathematical model is developed to describe the micro-/nano-scale fluid flow and heat/mass transfe...
High flux evaporations from a steady meniscus formed in a 2 micron channel is modeled using the augm...
This paper numerically studies heat transfer and fluid flow from an evaporating meniscus of a wettin...
When a liquid wets a solid wall, the extended meniscus may be divided into three regions: a non-evap...
A mathematical model is developed to describe the micro/nano-scale fluid flow and heat/mass transfer...
In order to enhance the fundamental understanding of thin film evaporation and thereby improve the c...
The isothermal profiles of the extended meniscus in a quartz cuvette were measured in a gravitationa...
Heat pipes, vapor chambers and thermosyphons are examples of two-phase devices used in electronics c...
A detailed numerical model is developed that describes heat and mass transfer from a meniscus to ope...
We present results of an experimental investigation of Marangoni convection for an evaporating menis...
Vita.An analytical model for describing the heat transfer from the wall of a capillary groove to the...
An investigation of thermocapillary effects on a heated meniscus formed by a volatile liquid in a ve...
An investigation of thermocapillary effects on a heated, evaporating meniscus formed by a wetting li...
An investigation of thermocapillary effects on heated menisci formed by volatile liquids in capillar...
An investigation of thermocapillary effects on a heated and evaporating meniscus formed by a volatil...
A mathematical model is developed to describe the micro-/nano-scale fluid flow and heat/mass transfe...
High flux evaporations from a steady meniscus formed in a 2 micron channel is modeled using the augm...
This paper numerically studies heat transfer and fluid flow from an evaporating meniscus of a wettin...
When a liquid wets a solid wall, the extended meniscus may be divided into three regions: a non-evap...
A mathematical model is developed to describe the micro/nano-scale fluid flow and heat/mass transfer...
In order to enhance the fundamental understanding of thin film evaporation and thereby improve the c...
The isothermal profiles of the extended meniscus in a quartz cuvette were measured in a gravitationa...
Heat pipes, vapor chambers and thermosyphons are examples of two-phase devices used in electronics c...
A detailed numerical model is developed that describes heat and mass transfer from a meniscus to ope...
We present results of an experimental investigation of Marangoni convection for an evaporating menis...
Vita.An analytical model for describing the heat transfer from the wall of a capillary groove to the...