Comparison of the fluorescence of oil-in-water emulsion with ligh

Comparison of the fluorescence of oil-in-water emulsion with light scattering was a significant aspect of this research (see Figure 5). The fluorescence intensity is always R428 less than the intensity of scattered radiation, even in ultraviolet spectral areas, where fluorescence is the most significant. While fluorescence, though less intensive, is comparable with the scattering of ultraviolet radiation, the difference between the intensities of these phenomena is more

than an order of magnitude for light of wavelength longer than 400 nm and increases with increasing wavelength for any kind of oil. Consequently, fluorescence makes only a small contribution to the scattering flux of the visible light coming from an emulsion. The above remarks refer to the situation where the intensity of the illuminating radiation of any wavelength is equal – this follows directly from the fact that the intensity of light scattered or fluoresced by an emulsion is

measured in relation to the intensity of the illuminating radiation. These remarks are all the more valid for emulsion illuminated by solar light. Taking into consideration the spectrum of the solar radiation reaching the Earth’s surface (Dera 2003), one can assume that fluorescence plays a negligible part in the radiation Olaparib scattered in an emulsion. The possible quenching of fluorescence by dissolved oxygen does not change this conclusion. Oxygen is natural component of seawater, and the saturation of subsurface water often

exceeds 100% and is greater than the saturation of the samples tested. The results are limited to scattering 3-mercaptopyruvate sulfurtransferase at right angles, but this does not alter the above conclusion. An oil-in-water emulsion is an isotropic medium and its fluorescence does not depend on the angle of illumination, in contrast to scattering. The index of scattering reaches a minimum at 90° and observations at an angle other than 90° will cause fluorescence to be even less than the scattered radiation. These comments refer to the scattering of unpolarized light. Illumination of an emulsion with polarized radiation causes the scattering-to-fluorescence ratio to be different. The results can be summed up as follows: • Emulsions fluoresce in the spectral region from 260 to > 400 nm; the range of fluorescence and shapes of the spectra depend on the kind of oil. These investigations lead to the following conclusions concerning natural seawater containing emulsified petroleum: 1. The measurement and modelling of ultraviolet radiation scattering require the fluorescence of an emulsion to be taken into consideration. “
“A – characteristic area of plume cross-section Effluent transport phenomena in the aquatic environment are interdisciplinary problems (Fischer et al. 1979).

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