Fluorescence is greatest if it is excited by radiation of wavelen

Fluorescence is greatest if it is excited by radiation of wavelength < 280 nm. If wavelength of this radiation is longer than 300 nm and further

increases, then the fluorescence decreases and visible light causes very slight luminescence. Both the spectral range and shapes of the spectra depend on the kind of oil. At the same time the spectrum of the EPZ015666 ic50 emulsion is very similar to the spectrum of the corresponding oil (Figure 3), although the shapes of these spectra are not absolutely identical. This may indicate that the observed changes undergone by petroleum during its emulsification in water are responsible for the optical properties of emulsion particles differing only slightly from those of the initial oil (Stelmaszewski APO866 cell line & Toczek 2007). The situation is different in

the case of the dissolved phase. The emulsification of oil is accompanied by the dissolution of its individual components. The solubility of the components of petroleum is generally very small (Verschueren 1983, Pereda et al. 2009), but molecules can pass from the oil layer covering the water surface into the water column. The fluorescence spectra of the dissolved phase are quite different from those of oils (Stelmaszewski 2001). This is not surprising because the individual components of any oil are dissolved in water to different degrees, while the properties of emulsion particles do not differ significantly from the properties of the initial oil. The resemblance between the emulsion and oil spectra suggest that the fluorescence of an emulsion derived mainly from oil particles and the contribution Urease of the dissolved phase appear to be negligible. The scattering spectra

of emulsions differ from each other (Figure 4). In general, light scattering (at right angles) in an emulsion increases with wavelength to a certain maximum in the range from 300 to 500 nm, depending on the kind of oil, then decreases slightly with wavelength. Apart from this, each spectrum is characterized by numerous relative extremes in the whole spectral area. The same spectral dependence with numerous extremes also characterizes the scattering function β calculated on the basis of the optical properties of oil and the size distribution of the oil droplets. 4 The results of radiation scattered inelastically in water are consistent with theoretical data. The bathochromic shift corresponds to an oscillation energy of 6.2 × 10−20 J (3330 cm −1) and is near the reference value for the O–H group oscillation5, which is ca 3400 cm −1 (Walrafen & Pugh 2004, Pershin et al. 2007). In addition, the spectral dependence of the Raman effect conforms with the theoretical dependence – the scattering intensity is proportional to λ−4. Because of this, Raman scattering was distinct in the ultraviolet area and non-measurable for visible light of wavelength longer than 450 nm.

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