Theory of Heat Transfer with Forced Convection Film Flows [electronic resource] / by Deyi Shang.
Tipo de material: TextoSeries Heat and Mass Transfer; Descripción: XXII, 346 p. online resourceISBN: 9783642125812 99783642125812Tema(s): Engineering | Engineering | THERMODINAMICS | THERMODINAMICS | ENGINEERING THERMODYNAMICS, HEAT AND MASS TRANSFER | FLUID, AND AERODYNAMICSClasificación CDD: 621.4021 Recursos en línea: ir a documentoTipo de ítem | Ubicación actual | Colección | Signatura | Info Vol | Copia número | Estado | Fecha de vencimiento | Código de barras | Reserva de ítems |
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DOCUMENTOS DIGITALES | Biblioteca Jorge Álvarez Lleras | Digital | 621.4021 223 (Navegar estantería) | Ej. 1 | 1 | Disponible | D000739 |
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621.4021 223 Warming to Ecocide | 621.4021 223 Maximum Dissipation Non-Equilibrium Thermodynamics and its Geometric Structure | 621.4021 223 Fundamentals of Combustion Processes | 621.4021 223 Theory of Heat Transfer with Forced Convection Film Flows | 621.4021 223 The Entropy Principle | 621.4021 223 Micro Transport Phenomena During Boiling | 621.4021 223 Handbook of Force Transducers |
Introduction -- Basic conservation equations for laminar forced convection -- Falkner-Skan type transformation for laminar forced convection -- New similarity analysis and transformation method for laminar forced convection -- Heat transfer on laminar forced convection without consideration of viscous thermal dissipation -- Heat transfer on laminar forced convection with consideration of viscous thermal dissipation -- Heat transfer on laminar forced convection with consideration of variable thermophysical properties -- Complete similarity mathematical models on laminar forced film condensation of pure vapor -- Velocity and temperature fields on laminar forced film condensation of pure vapor -- Heat and mass transfer on laminar forced film condensation of pure vapor -- Complete similarity mathematical models on laminar forced film condensation of vapor-gas mixture -- Velocity and temperature fields on laminar forced film condensation of vapor-gas mixture -- Heat and mass transfer on laminar forced film condensation of vapor-gas mixture.
Developing a new treatment of "Free Convection Film Flows and Heat Transfer" began in Shang's first monograph and is continued in this monograph. The current book displays the recent developments of laminar forced convection and forced film condensation. It is aimed at revealing the true features of heat and mass transfer with forced convection film flows to model the deposition of thin layers. The novel mathematical similarity theory model is developed to simulate temperature- and concentration- dependent physical processes. The following topics are covered in this book: 1. Mathematical methods - advanced similarity analysis method to replace the traditional Falkner-Skan type transformation - a novel system of similarity analysis and transformation models to overcome the difficult issues of forced convection and forced film flows - heat and mass transfer equations based on the advanced similarity analysis models and equations formulated with rigorous key numerical solutions 2. Modeling the influence of physical factors - effect of thermal dissipation on forced convection heat transfer - a system of models of temperature and concentration-dependent variable physical properties based on the advanced temperature-parameter model and rigorous analysis model on vapor-gas mixture physical properties for the rigorous and convenient description of the governing differential equations - an available approach to satisfy interfacial matching conditions for rigorous and reliable solutions - a system of numerical results on velocity, temperature and concentration fields, as well as, key solutions on heat and mass transfer - the effect of non-condensable gas on heat and mass transfer for forced film condensation. This way it is realized to conveniently and reliably predict heat and mass transfer for convection and film flows and to resolve a series of current difficult issues of heat and mass transfer with forced convection film flows. Professionals in this fields as well as graduate students will find this a valuable book for their work.
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