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Interfacial Phenomena And Convection (monographs And Surveys In Pure And Applied Mathematics)

معرفی کتاب «Interfacial Phenomena And Convection (monographs And Surveys In Pure And Applied Mathematics)» نوشتهٔ Alexander A. Nepomnyashchy, Manuel G. Velarde, Pierre Colinet, A. A. Nepomni︠a︡shchiĭ، منتشرشده توسط نشر Chapman & Hall/CRC; Chapman and Hall/CRC; CRC Press در سال 2002. این کتاب در 3 صفحه، فرمت djvu، زبان انگلیسی ارائه شده است.

Interfacial phenomena driven by heat or mass transfer are widespread in science and various branches of engineering. Research in this area has become quite active in recent years, attributable in part, at least, to the entry of physicists and their sophisticated experimental techniques into the field. Until now, however, the field has lacked a readable account of the recent developments.Interfacial Phenomena and Convection remedies this problem by furnishing a self-contained monograph that examines a rich variety of phenomena in which interfaces pay a crucial role. From a unified perspective that embraces physical chemistry, fluid mechanics, and applied mathematics, the authors study recent developments related to the Marangoni effect, including patterned convection and instabilities, oscillatory/wavy phenomena, and turbulent phenomena. They examine Bénard layers subjected to transverse and longitudinal thermal gradients and phenomena involving surface tension gradients as the driving forces, including falling films, drops, and liquid bridges.It is only in the past two or three decades that researchers have performed suitable, clear-cut experiments involving interfacial phenomena, and the stage is now set for a virtual explosion of the field. Interfacial Phenomena and Convection will bring you quickly up to date on the advances realized and prepare you to both use the results and to make further advances.

Interfacial phenomena driven by heat or mass transfer are widespread in science and various branches of engineering. Research in this area has become quite active in recent years, attributable in part, at least, to the entry of physicists and their sophisticated experimental techniques into the field. Until now, however, the field has lacked a readable account of the recent developments.

Interfacial Phenomena and Convection remedies this problem by furnishing a self-contained monograph that examines a rich variety of phenomena in which interfaces pay a crucial role. From a unified perspective that embraces physical chemistry, fluid mechanics, and applied mathematics, the authors study recent developments related to the Marangoni effect, including patterned convection and instabilities, oscillatory/wavy phenomena, and turbulent phenomena. They examine Bénard layers subjected to transverse and longitudinal thermal gradients and phenomena involving surface tension gradients as the driving forces, including falling films, drops, and liquid bridges.

It is only in the past two or three decades that researchers have performed suitable, clear-cut experiments involving interfacial phenomena, and the stage is now set for a virtual explosion of the field. Interfacial Phenomena and Convection will bring you quickly up to date on the advances realized and prepare you to both use the results and to make further advances.

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Absorption, desorption, evaporation, boiling, wetting, spreading, drop and bubble formation and migration, and rippling are among examples of interfacial phenomena that are essential for life and for many natural and artificial technological processes. Nepomnyashchy (applied mathematics, Technicon, Israel), Manuel G. Velarde (physics, U. Complutense, Spain) and Pierre Colinet (U. Libre de Bruxelles, Belgium) report results concerning convection in such phenomena in various systems. In each case, from the simplest possible but significant model-problem, they extract universal features. They intend readers to be graduate students and researchers from applied mathematics, the nonlinear sciences, and various branches of engineering. Annotation c. Book News, Inc., Portland, OR (booknews.com)

"Interfacial phenomena driven by heat or mass transfer are widespread in science and various branches of engineering. Research in this area has become quite active in recent years, attributable in part, at least, to the entry of physicists and their sophisticated experimental techniques into the field. Until now, however, the field has lacked a readable account of the recent developments. Interfacial Phenomena and Convection remedies this problem by furnishing a self-contained monograph that examines a rich variety of phenomena in which interfaces pay a crucial role. From a unified perspective that embraces physical chemistry, fluid mechanics, and applied mathematics, the authors study recent developments related to the Marangoni effect, including patterned convection and instabilities, oscillatory/wavy phenomena, and turbulent phenomena. They examine Bénard layers subjected to transverse and longitudinal thermal gradients and phenomena involving surface tension gradients as the driving forces, including falling films, drops, and liquid bridges. It is only in the past two or three decades that researchers have performed suitable, clear-cut experiments involving interfacial phenomena, and the stage is now set for a virtual explosion of the field. Interfacial Phenomena and Convection will bring you quickly up to date on the advances realized and prepare you to both use the results and to make further advances."--Provided by publisher Interfacial Phenomena and Convection is a self-contained monograph that examines a rich variety of phenomena in which interfaces play a crucial role. From a unified perspective that embraces physical chemistry, fluid mechanics, and applied mathematics, the authors study recent developments related to the Marangoni effect, including patterned convection and instabilities, oscillatory/wavy phenomena, and turbulent phenomena. They examine Benard layers subjected to transverse and longitudinal thermal gradients and phenomena involving surface tension gradients as the driving forces, including falling films, drops, and liquid bridges. The transition layer (Fig. 1.1) between two immiscible fluids (as well as between a fluid and a solid body) has a thickness of microscopic size (usually few molecular diameters) and is considered as twodimensional surface from the point of view of macroscopic theories (thermodynamics, fluid mechanics, etc.).
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