Signatur:
AWI G7-18-92027
Beschreibung / Inhaltsverzeichnis:
The book by M. S. Krass and V. G. Merzlikin "The Radiative Thermophysics of Snow and Ice"- the new point of view with usage of methods of light-scattering media theory is realized as working of theory of radiative thermophysics of snow and ice.
The statements of new class of thermophysics problems are presented, snow and ice are supposed as light-scattering media with volume reflection and absorption. For the first time this method have helped to explain some noted effects of metamorphic evolution in upper active layer of snow-ice medium and to correct lows of their mass-energy exchange. Optical and physical models for different
kinds of snow and ice were studied. The models take into account snow and ice-atmosphere interaction by means of convective heat transfer, solar flux and long-wavelength reradiation, and also phase transitions in medium and at boundaries. The model realizations of various native cases of forming heat regime within snow-ice covers are considered. For all that the way of practical use of theoretical results is shown. The range of the problems makes the book to be interesting for experts in glaciology and planetology, physicists, mathematicians, geographers, climatologists.
Materialart:
Monographie ausleihbar
Seiten:
260 Seiten
,
Illustrationen
ISBN:
5-286-00243-9
Sprache:
Russisch
Anmerkung:
Contents:
Introduction. -
Legend. -
Chapter 1. Basic Directions of Snow and Ice Thermal Physics Study. -
1. Analysis of traditional theoretical and experimental methods. -
2. New methodological point of view on the thermal physics of snow-ice masses. -
3. Conditions of initial data. -
4. Complex heat transfer within the system "space-atmosphere-earth surface". -
5. Optical and thermophysical properties of snow and ice. -
Chapter 2. General Statement of the Problem of Radiative Thermophysics. -
1. Absorption and scattering of light in optical-heterogeneous media. -
2. Optical phenomenological models and parameters of radiation transfer in light-scattering media (LSM). -
3. Distribution of absorbed radiation flux in the unlimited layer of LSM. -
4. Optical models and snow and ice characteristics as LSM ones. -
5. Influence of boundary conditions upon thermal regime of lightscattering snow-ice layer. -
6. Statements of basic problems of radiative thermal physics of snow and ice. -
Chapter 3. Thermal Regime of Snow-Ice Cover. -
1. Estimation of heat processes characteristics of snow-ice covers. -
2. Oscillating external sources. -
3. Radiative-conductive mechanism of snow and ice heating. -
4. Thermal regime of combined snow-ice layers. -
5. Melting in snow-ice media under conditions of radiative heat transfer. -
6. Thermo-radiative heating and balance of the upper part of active layer of antarctic snow-ice covers. -
Chapter 4. The Model of Metamorphic Evolution of Snow and Ice. -
1. Influence of radiation fluxes upon icy crystals of snow cover. -
2. Mechanism of sublimation under forming of snow cover. -
3. Phenomenological picture of sublimation in snow medium. -
4. The model of radiative-thermal regime under sublimation. -
5. Thermal regime of snow and ice under conditions of evaporation and condensation. -
6. On nature of snow and ice metamorphism. -
Chapter 5. Radiative Thermophysics of Snow-Ice Masses in Practical utilization. -
1. Heat regime of snow-ice cover under thermoregulative film. -
2. Influence upon surface melting of glaciers. -
3. Antarctic experiments on artificial increase of ablation. -
4. Artificial increase of ablation control. -
5. Ecological aspects of artificial increase of ablation. -
6. Cooling in polar regions. -
Chapter 6. Thermophysics of Antarctic Lakes. -
1. Natural conditions of oases. -
2. Types of antarctic lakes. -
3. One-dimensional heat problem. -
4. Simplification of the model. -
5. Thermal regime of fresh and saline lakes. -
6. Phenomenon of fresh-saline stratified lakes. -
7. Stationary model including mass transfer. -
8. Thermal regime of fresh-saline lake Vanda. -
Chapter 7. Space Glaciology. -
1. Ice in Solar system. -
2. Radiative thermophysics of ice under cosmic conditions. -
3. Ice of cometary nuclei. -
4. Heat-balance models of 'radiative thermophysics of cometary nuclei. -
Conclusion. -
References. -
Index.
,
In kyrillischer Schrift
Standort:
AWI Lesesaal
Zweigbibliothek:
AWI Bibliothek
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