Zacytuj

1. Adamson A.W. (1982): Physical chemistry of surfaces, Wiley, New York.Search in Google Scholar

2. Boniewicz-Szmyt K., Pogorzelski S. J. (2018): Evolution of natural sea surface films: A new quantification formalism based on multidimensional space vector. Environ. Sci. Pollut. Res., 25, 4826-4836.10.1007/s11356-017-0788-2Search in Google Scholar

3. Boniewicz-Szmyt K., Pogorzelski S. J. (2008): Crude oil derivatives on sea water: Signatures of spreading dynamics. J. Mar. Syst., 74, S41-S51.10.1016/j.jmarsys.2007.11.015Search in Google Scholar

4. Boniewicz-Szmyt K., Pogorzelski S. J., Mazurek A. (2007): Hydrocarbons on sea water: steady-state spreading signatures determined by an optical method. Oceanologia, 49(3), 413-437.Search in Google Scholar

5. Cini R., Lombardini P. P. (1978): Damping effect of monolayers on surface wave motion in a liquid. J. Coll. Int. Sci., 65, 387-389.10.1016/0021-9797(78)90170-4Search in Google Scholar

6. Cini R., Lombardini P. P., Fiscella B., Trivero P. (1985): Ripple damping on water surface covered by spreading film. Nuovo Cimento, 86, 491-500.10.1007/BF02582676Search in Google Scholar

7. Ermakov S. A., Plinovsky E. A. (1984): Variation of the spectrum of wind ripple on coastal waters under the action of internal waves. Dyn. Atmos. Oceans, 8(1), 95-100.10.1016/0377-0265(84)90007-1Search in Google Scholar

8. Ermakov S. A., Zuykova A. M., Panchenko A. R., Salashin S. G., Talipova T. G., Titov V. I. (1986): Surface film effect on short wind waves. Dyn. Atmos. Oceans, 10, 31-50.10.1016/0377-0265(86)90008-4Search in Google Scholar

9. Ermakov S. A., Zuykova A. M., Salashin S. G. (1987): Transformation of spectra of short wind waves in spilled layers. Izv. AN USSR, Phisica Atmosfery i Okeana, 23(7), 707-15 (in Russian).Search in Google Scholar

10. Harkins W. D. (1952): The physical chemistry of surface films, Reinhold Publ. Corp., New York.Search in Google Scholar

11. Hoult D. (1969): Oil on the sea, Plenum Press, New York.10.1007/978-1-4684-9019-0Search in Google Scholar

12. Hühnerfuss H., Alpers W., Lange P. A., Walter W. (1981): Attenuation of wind waves by artificial surface films of different chemical structure. J. Geophys. Res. Lett., 8, 1184-1186.10.1029/GL008i011p01184Search in Google Scholar

13. Hühnerfuss H., Garret W. (1981): Experimental sea slicks: their practical application and utilization for basic studies of air-sea interaction. J. Geophys. Res., 86(C1), 439-447.10.1029/JC086iC01p00439Search in Google Scholar

14. Hühnerfuss H., Lange P. A., Walter W. (1985): Relaxation effects in monolayers and their contribution to water damping, I. Wave induced phase shifts. J. Colloid Interface Sci., 108, 430-441.10.1016/0021-9797(85)90282-6Search in Google Scholar

15. Hühnerfuss H., Lange P. A., Walter W. (1985): Relaxation effects in monolayers and their contribution to water wave damping. II. The Marangoni phenomenon and gravity wave attenuation. J. Colloid Int. Sci., 108, 442-450.10.1016/0021-9797(85)90283-8Search in Google Scholar

16. Hühnerfuss H., Walter W., Lange P. A., Alpers W. (1987): Attenuation of wind waves by monomolecular sea slicks and the Marangoni effect. J. Geophys. Res., 92, 3961-3963.10.1029/JC092iC04p03961Search in Google Scholar

17. James A. M., Prichard F. E. (1974): Practical physical chemistry, Longman Group Ltd.Search in Google Scholar

18. Khalifa S. (1990): An investigation of physical-chemical properties of polluted sea surface by an acoustical method, PhD Thesis, University of Gdańsk, 1990.Search in Google Scholar

19. Khalifa S. S., Linde B., Pogorzelski S., Śliwiński A. (1992): Aspects of the physical properties and the visco-elastic features of the sea water - oil system. Oceanologia, 32, 19-28.Search in Google Scholar

20. Khalifa S. S., Linde B., Pogorzelski S., Śliwiński A. (1992): Detection of derivative substances on a sea surface by statistical analysis of scattered acoustic signals. Oceanologia, 32, 29-40.Search in Google Scholar

21. Lamb H. (1945): Hydrodynamics, Dover, New York.Search in Google Scholar

22. Leonard F. (1970): Survey of literature on reflection and scattering of sound waves at the sea surface. J. Acoust. Soc. Am., 47(5), 1209-1228.10.1121/1.1912022Search in Google Scholar

23. Linde B., Pogorzelski S., Śliwiński A. (1983): Determination of the surface wave amplitude on water surface by acoustic pulse method. Acoustics Letters, 7(6), 83-85.Search in Google Scholar

24. Linde B., Pogorzelski S., Sliwiński A. (1984): Attenuation measurements on a water surface in the frequency range 20-60 Hz by the ultrasonic pulse method. Acoustics Letters, 7(7), 96-99.Search in Google Scholar

25. Linde B. (1999): Acoustical Spectroscopy of Cyclic & Heterocyclic Compounds, Ketones and Polluted Water Surface, Wydawnictwo Uniwersytetu Gdańskiego, Gdańsk.Search in Google Scholar

26. Lucassen-Reynders E. H., Lucassen J. (1969): Properties of capillary waves. Adv. Colloid Interface Sci., 2, 347-395.10.1016/0001-8686(70)80001-XSearch in Google Scholar

27. Pogorzelski S. J. (1992): Characteristics of acoustic scattering from a wind-created water surface covered with monomolecular organic films. Dyn. Atmos. Oceans, 17, 63-78.10.1016/0377-0265(92)90022-LSearch in Google Scholar

28. Pogorzelski S. J. (1991): The influence of crude oil spills on the sea surface on ultrasound scattering. Oceanologia, 31, 107-118.Search in Google Scholar

29. Pogorzelski S. J., Boniewicz-Szmyt K. (2016): Thermoelastic surface properties of seawater in coastal areas of the Baltic Sea. Oceanologia, 58(1), 25-38.10.1016/j.oceano.2015.08.003Search in Google Scholar

30. Pogorzelski S. J., Mazurek A. Z., Szczepanska A. (2013): In-situ surface wettability parameters of submerged in brackish water surfaces derived from captive bubble contact angle studies as indicators of surface condition level. J. of Marine Systems, 119, 50-60.10.1016/j.jmarsys.2013.03.011Search in Google Scholar

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