9786202081375 - breakup of liquid jets:the capillary retraction: a comprehensive study of the surface-tension driven dynamics of free liquid filaments de contò, francesco paolo (7 resultados)

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Taschenbuch. Condición: Neu. Breakup of Liquid Jets:The Capillary Retraction | A comprehensive study of the surface-tension driven dynamics of free liquid filaments | Francesco Paolo Contò | Taschenbuch | 128 S. | Englisch | 2020 | LAP LAMBERT Academic Publishing | EAN 9786202081375 | Verantwortliche Person für die EU: preigu Gm…bH & Co. KG, Lengericher Landstr. 19, 49078 Osnabrück, mail[at]preigu[dot]de | Anbieter: preigu.

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Condición: Sehr gut. Zustand: Sehr gut | Sprache: Englisch | Produktart: Bücher | Why and how does a falling stream of fluid break up into droplets? It is well known that the major driving mechanism is the fluid surface tension, but other variables such as viscosity and environmental instabilities are also known to affect the br…eakup. In this research, the capillary retraction of liquid filaments is studied through experimental, theoretical and numerical methods.The first main novelty of this study is the detection of a fate-alternating transitional regime (breakup/no-breakup) in capillary retracting liquid filaments. This result is corroborated by a simple but effective model based on the interaction of capillary waves that originate at both ends of the filament and travel inwards along its surface.The other major achievement is a rigorous mathematical description of the space-time evolution of the filament interface. This derivation is based on a well-known 1D lubrication model for slender free-surface axisymmetric flows, and it is performed through asymptotic analysis techniques. The theoretical model is verified by numerical simulations and past works obtaining a good agreement.

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Condición: Hervorragend. Zustand: Hervorragend | Sprache: Englisch | Produktart: Bücher | Why and how does a falling stream of fluid break up into droplets? It is well known that the major driving mechanism is the fluid surface tension, but other variables such as viscosity and environmental instabilities are also known to affec…t the breakup. In this research, the capillary retraction of liquid filaments is studied through experimental, theoretical and numerical methods.The first main novelty of this study is the detection of a fate-alternating transitional regime (breakup/no-breakup) in capillary retracting liquid filaments. This result is corroborated by a simple but effective model based on the interaction of capillary waves that originate at both ends of the filament and travel inwards along its surface.The other major achievement is a rigorous mathematical description of the space-time evolution of the filament interface. This derivation is based on a well-known 1D lubrication model for slender free-surface axisymmetric flows, and it is performed through asymptotic analysis techniques. The theoretical model is verified by numerical simulations and past works obtaining a good agreement.

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Taschenbuch. Condición: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -Why and how does a falling stream of fluid break up into droplets It is well known that the major driving mechanism is the fluid surface tension, but other variables such as viscosity and environmental instabilities are also known t…o affect the breakup. In this research, the capillary retraction of liquid filaments is studied through experimental, theoretical and numerical methods.The first main novelty of this study is the detection of a fate-alternating transitional regime (breakup/no-breakup) in capillary retracting liquid filaments. This result is corroborated by a simple but effective model based on the interaction of capillary waves that originate at both ends of the filament and travel inwards along its surface.The other major achievement is a rigorous mathematical description of the space-time evolution of the filament interface. This derivation is based on a well-known 1D lubrication model for slender free-surface axisymmetric flows, and it is performed through asymptotic analysis techniques. The theoretical model is verified by numerical simulations and past works obtaining a good agreement. 128 pp. Englisch.

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Taschenbuch. Condición: Neu. This item is printed on demand - Print on Demand Titel. Neuware -Why and how does a falling stream of fluid break up into droplets It is well known that the major driving mechanism is the fluid surface tension, but other variables such as viscosity and environmental instabilities are also known to af…fect the breakup. In this research, the capillary retraction of liquid filaments is studied through experimental, theoretical and numerical methods.The first main novelty of this study is the detection of a fate-alternating transitional regime (breakup/no-breakup) in capillary retracting liquid filaments. This result is corroborated by a simple but effective model based on the interaction of capillary waves that originate at both ends of the filament and travel inwards along its surface.The other major achievement is a rigorous mathematical description of the space-time evolution of the filament interface. This derivation is based on a well-known 1D lubrication model for slender free-surface axisymmetric flows, and it is performed through asymptotic analysis techniques. The theoretical model is verified by numerical simulations and past works obtaining a good agreement.VDM Verlag, Dudweiler Landstraße 99, 66123 Saarbrücken 128 pp. Englisch.

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Taschenbuch. Condición: Neu. nach der Bestellung gedruckt Neuware - Printed after ordering - Why and how does a falling stream of fluid break up into droplets It is well known that the major driving mechanism is the fluid surface tension, but other variables such as viscosity and environmental instabilities are also known to aff…ect the breakup. In this research, the capillary retraction of liquid filaments is studied through experimental, theoretical and numerical methods.The first main novelty of this study is the detection of a fate-alternating transitional regime (breakup/no-breakup) in capillary retracting liquid filaments. This result is corroborated by a simple but effective model based on the interaction of capillary waves that originate at both ends of the filament and travel inwards along its surface.The other major achievement is a rigorous mathematical description of the space-time evolution of the filament interface. This derivation is based on a well-known 1D lubrication model for slender free-surface axisymmetric flows, and it is performed through asymptotic analysis techniques. The theoretical model is verified by numerical simulations and past works obtaining a good agreement.