Investigation of some snow probes from Rila mountain and its energy spectra
Stefan T. Todorov, Lidia T. Popova
Abstract: In this paper, we study snow water (Eisenberg & Kauzmann, 1969) samples from Rila Mountain. For this purpose, the method of differential energy spectra was used. A set of natural waters was taken from different places in the high parts of the mountain, where anthropomorphic activity is insignificant or minimal. New interconnections were found between properties of snow samples (Ē, δ-factor and their correlations etc. ) and those from glacial lakes.Based on them, we have obtained additional classifications of the studied Rila snows and lakes. Two decreasing gradations (a- by Ē , δ-factor) and (b- according to correlation analysis), and grouping the studied objects into two groups: three objects in each (see conclusions). Waters from high mountain areas and those from industrial areas were examined and discussed, which ones were used for drinking, or for domestic, or business purposes.
Keywords: energy spectrum words; environment; snow water
Citation: Todorov, S. T. & Popova, L. T. (2024). Investigation of some snow probes from Rila Mountain and its energy spectra. Bulg. J. Agric. Sci., 30 (Supplement 1), 132–137
| References: (click to open/close) | Antonov, A. & Yuscesselieva, L. (1983). Method of determination of the degree of change of the structural status of liquids, Patent BG № 43821/1983.
Antonov, A. (1984). Sci., 3, Compt. Rend. Bulg. Acad., 7, 1199.
Antonov, A. S., Cholakov, T., Galabova, T. D. & Gramatikov, P. S. (1995). Non-equilibrium energy spectra of rain- and river-water from Rila mountain, "Observatoire de Montagne de Moussala", (ed. Jean-Pierre Carbonnel and J. N. Stamenov), BASc, Sofia, OM2, 3, 39-48.
Antonov, A. (1996). Studies on non-equilibrium processes and structures in the region of the interphase boundary in dielectrics and semiconductors, Doctoral dissertation, INRNE, BAS.
Antonov, A. S., Todorov, S. T., Tomov, A. K., Galabova, T. D. & Gramatikov, P. S. (1996). Investigation of rain and river waters from the Moussala and Maliovitza parts of the Rila region by the NES method,"Observatoire de Montagne de Moussala", (ed. Jean-Pierre Carbonnel and J. N. Stamenov), BASc, Sofia, OM2, 4, 57-66.
Antonov, A. S., Todorov, S. T., Galabova, T. D. & Gramatikov, P. S. (1997). Investigation of the Nonequilibrium Thermodynamic Properties of Flowing Water,"Observatoire de Montagne de Moussala", (ed. Jean-Pierre Carbonnel and J. N. Stamenov), BASc, Sofia, OM2, 6, 25-32.
Eisenberg, D. & Kauzmann, W. (1969). The Structure and Properties of Water. Oxford University Press. Publ., 1 – 296.
Ignatov, I., & Valcheva, N. (2023). Physicochemical, Isotopic, Spectral, and Microbiological Analyses of Water from Glacier Mappa, Chilean Andes, Journal of the Chilean Chemical Society, 68(1), 5802-5906.
Popova, L. & Todorov, S. (2018). Effect of water filtration on CAE distribution of a sample sessile drop, Comptes Rendus Acad. Bulg. Sci., 71(5), 606 – 612.
Тodorov, S. (2002). On the dynamics of sessile drop evaporation, Compt. Rend. Acad. Bulg. Sci., 55(1), 41 – 44.
Todorov, S. & Damianova, A. (2015). Comparison of Mineral and Tape Water Using Method of Water Spectra, Journal of Balkan Ecology, 18, 303 – 308. |
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| Date published: 2024-12-13
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