A Radiometric Method to Measure the Concentration Boundary Layer Thickness at an Air–Water Interface*

Abstract An interferometric technique to measure the thickness of the concentration boundary layer at an air–water interface is presented. The technique uses heat as a proxy tracer for gas transfer by sensing the infrared (IR) radiation emitted by the water at wavelengths near 3.8 μm. The temperature gradient at the water surface is determined from the IR radiance by using the wavelength variation of the absorption coefficient of water in the 3.3- to 4.1-μm wavelength region. The variations in the absorption coefficient allow the emitted IR radiation to carry information about the surface and subsurface water temperature. Interferometric measurements of the radiance variations as a function of optical wavelength can be related to the temperature gradient or the change in water temperature with respect to depth. Previous laboratory measurements indicate that interfacial temperature gradients can be studied in great detail using this approach. Very near the water surface, the temperature gradient is linear,...

[1]  Kristina B. Katsaros,et al.  The aqueous thermal boundary layer , 1980 .

[2]  M. Skafel,et al.  Dependence of the Skin Layer Recovery Rate on Heat Flux and Turbulence , 1995 .

[3]  William L. Smith,et al.  HIS - A satellite instrument to observe temperature and moisture profiles with high vertical resolution , 1983 .

[4]  L. Hasse The sea surface temperature deviation and the heat flow at the sea-air interface , 1971 .

[5]  W. Asher,et al.  The influence of bubble plumes on air-seawater gas transfer velocities , 1995 .

[6]  William L. Smith,et al.  Vertical Resolution and Accuracy of Atmospheric Infrared Sounding Spectrometers. , 1992 .

[7]  Bernd Jähne,et al.  Investigating the transfer processes across the free aqueous viscous boundary layer by the controlled flux method , 1989 .

[8]  William M. Irvine,et al.  Infrared optical properties of water and ice spheres , 1968 .

[9]  J. Businger,et al.  Comments on the determination of the total heat flux from the sea with a two‐wavelength radiometer system as developed by McAlister , 1973 .

[10]  T. Mammen,et al.  STEP - A temperature profiler for measuring the oceanic thermal boundary layer at the ocean-air interface , 1990 .

[11]  William L. Smith,et al.  Sounding the Skin of Water: Sensing Air–Water Interface Temperature Gradients with Interferometry , 1995 .

[12]  G. Jirka,et al.  Measurements of Gas Concentration Fluctuations at Water Surface , 1990 .

[13]  M. Chahine,et al.  Requirements for a passive IR advanced moisture and temperature sounder. , 1984, Applied optics.

[14]  W. Mcleish,et al.  Heat transfer in the top millimeter of the ocean , 1969 .

[15]  Dudley H. Williams,et al.  Optical constants of water in the infrared , 1975 .

[16]  Neuenheimer Feld,et al.  Heat as a Proxy Tracer for Gas Exchange Measurements in the Field: Principles and Technical Realization , 1995 .

[17]  B. Jähne,et al.  Measurements of Short Ocean Waves during the MBL ARI West Coast Experiment , 1995 .

[18]  A. Watson,et al.  Air–sea gas exchange in rough and stormy seas measured by a dual-tracer technique , 1991, Nature.