Add to ORKG[1] The role of microscale wave breaking in controlling the air-water transfer of heat and gas is investigated in a laboratory wind-wave tank. The local heat transfer velocity, kH, is measured using an active infrared technique and the tank-averaged gas transfer velocity, kG, is measured using conservative mass balances. Simultaneous, colocated infrared and wave slope imagery show that wave-related areas of thermal boundary layer disruption and renewal are the turbulent wakes of microscale breaking waves, or microbreakers. The fractional area coverage of microbreakers, AB, is found to be 0.1–0.4 in the wind speed range 4.2–9.3 m s1 for cleaned and surfactant-influenced surfaces, and kH and kG are correlated with AB. The correlation of kH wi...
A series of detailed laboratory investigations were conducted to examine low solubility gas transfer...
In natural water bodies like oceans and lakes, biological organisms and other chemical species cover...
The gas flux of weakly soluble gases through the air–sea interface is controlled by the transport me...
The role of microscale wave breaking in controlling the air-water transfer of heat and gas is invest...
Laboratory results showing that the air-water gas transfer velocity k is correlated with mean square...
Breaking without air entrainment of very short wind-forced waves, or microscale wave breaking, is un...
The turbulence generated by microscale breaking waves beneath the air-water interface is simulated n...
Improved understanding of the physical mechanisms that control air-sea gas transfer will ultimately ...
Transfer velocities of 5 sparingly soluble gases were measured in two different wind wave tanks at w...
International audienceAir–water gas exchange experiments were carried out in a large wind wave tunne...
Macro and micro-scale wave breaking generates at the air-sea interface high surface slope and curvat...
Previous studies have shown that microscale wave breaking plays a significant role in the process of...
Air–water gas exchange experiments were carried out in a large wind wave tunnel in Marseille, France...
Previously, we reported on laboratory results from a wind-wave tunnel comparing transfer velocities ...
Air–water gas exchange experiments were carried out in a large wind wave tunnel in Marseille, France...
A series of detailed laboratory investigations were conducted to examine low solubility gas transfer...
In natural water bodies like oceans and lakes, biological organisms and other chemical species cover...
The gas flux of weakly soluble gases through the air–sea interface is controlled by the transport me...
The role of microscale wave breaking in controlling the air-water transfer of heat and gas is invest...
Laboratory results showing that the air-water gas transfer velocity k is correlated with mean square...
Breaking without air entrainment of very short wind-forced waves, or microscale wave breaking, is un...
The turbulence generated by microscale breaking waves beneath the air-water interface is simulated n...
Improved understanding of the physical mechanisms that control air-sea gas transfer will ultimately ...
Transfer velocities of 5 sparingly soluble gases were measured in two different wind wave tanks at w...
International audienceAir–water gas exchange experiments were carried out in a large wind wave tunne...
Macro and micro-scale wave breaking generates at the air-sea interface high surface slope and curvat...
Previous studies have shown that microscale wave breaking plays a significant role in the process of...
Air–water gas exchange experiments were carried out in a large wind wave tunnel in Marseille, France...
Previously, we reported on laboratory results from a wind-wave tunnel comparing transfer velocities ...
Air–water gas exchange experiments were carried out in a large wind wave tunnel in Marseille, France...
A series of detailed laboratory investigations were conducted to examine low solubility gas transfer...
In natural water bodies like oceans and lakes, biological organisms and other chemical species cover...
The gas flux of weakly soluble gases through the air–sea interface is controlled by the transport me...