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Criterial Optics of Open Oceans with Technogenic Thermal Pollutions

Наименование публикации:Criterial Optics of Open Oceans with Technogenic Thermal PollutionsАвторы:Гажур А. А. 
Мерзликин В.Г., Гарнова В.Ю., Худяков С.В., Гарнов А.П.
Тематическая область:Охрана окружающей среды. Экология человека
Вид публикации:Статья в сборнике
Электронная публикация:ДаЯзык издания:РусскийГод издания:2015Страна издания: Франция Наименование журнала или сборника:International Scolarly and Scientific Research&Innovation, August 27-28 2015Номер журнала (с указанием года):Paris France Aug27-28, 17(8) part XVIIНаименование издательства:waset.orgКод ISSN или ISBN:eISSN:1307-6892Количество страниц:10Количество печатных листов:1,12Тираж, экз:1000Индексация:РИНЦ,
International Science Index
Библиографическая ссылка:Criterial Optics of Open Oceans with Technogenic Thermal Pollutions, International Scolarly and Scientific Research&Innovation,Waset.org., August 27-28 2015 Paris France Aug27-28, 17(8) part XVII, 2102-2711Аннотация (реферат):

Abstract—This paper refers to the environmental pollution control using optical diagnostics of open water areas, the analysis of the characteristics and criteria of habitability for industrial and lifestyle facilities, heat- power and engineering objects as a part of the thermal envelope of Word Ocean for inclusion in any database of economic forecasting. The idealized models of water media of the Earth surface at combine heat exchange are discussed. These models give the opportunity to obtain the heat-power and thermoradiant characteristics for each element of важнейших природных ресурсов жизнедеятельности человечества water media. Heat-power and thermoradiant characteristics of pure and polluted seawater under technosphere elements action (oil spill) is introduced. The papers considers the thermodynamic disbalance of polluted water media. The theoretical approach and numerical simulation allowed to state that natural complex heat exchange of water   with large technogenic pollutions could be destroyed by redistributions of reflected, absorbed and emitted radiate thermal fluxes and also evaporation  within the water -atmosphere interface. The formation of unusual apparent optical properties and subsurface temperature profiles are analyzed.   Calculated model with the confirmed forecast of the Gulf Stream overcooling (and even freezing) in the Polar Regions in winter  2010-2011 are given. Two opposing trends of human development under limited and unlimited amount of heat-power resources are analyzed.


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