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| Aproximació de Boussinesq× | Difusió de Stefan-Maxwell× | Xarxa de Resistència Tèrmica× | |
|---|---|---|---|
| Camp | Termodinàmica | Termodinàmica | Termodinàmica |
| Família | Process / pipeline | Process / pipeline | Process / pipeline |
| Any d'origen≠ | 1903 | 1871 | 1985 |
| Autor original≠ | Joseph Boussinesq | Josef Stefan and James Clerk Maxwell | Frank Incropera and David DeWitt |
| Tipus≠ | Approximation technique | Diffusion equation | Heat transfer network analysis |
| Font seminal≠ | Boussinesq, J. (1903). Théorie Analytique de la Chaleur. Gauthier-Villars. link ↗ | Reid, R. C., Prausnitz, J. M., & Poling, B. E. (1987). The Properties of Gases and Liquids (4th ed.). McGraw-Hill. ISBN: 978-0071247009 | Incropera, F. P., DeWitt, D. P., Bergman, T. L., & Lavine, A. S. (2007). Fundamentals of Heat and Mass Transfer (6th ed.). Wiley. ISBN: 978-0470055540 |
| Àlies | buoyancy approximation, Boussinesq model | Stefan-Maxwell equation, multicomponent diffusion | thermal circuit analogy, thermal network |
| Relacionats | 3 | 3 | 3 |
| Resum≠ | The Boussinesq Approximation simplifies the governing equations for natural convection by treating density as constant except in the buoyancy term. This approximation is valid when temperature variations produce small density changes and allows researchers to solve coupled heat-fluid flow problems without solving the full, nonlinear compressibility equations. The Boussinesq Approximation is fundamental to analyzing buoyancy-driven flows in buildings, enclosures, and geophysical applications. | The Stefan-Maxwell diffusion equation describes how multiple chemical species diffuse through each other in a mixture, accounting for interactions between all species pairs. Unlike Fick's law, which assumes species diffuse independently, Stefan-Maxwell theory captures the coupling that occurs when species with different diffusivities move at different rates. This is essential for analyzing gas separation, combustion, catalytic processes, and reactive distillation. | The Thermal Resistance Network method uses electrical circuit analogy to solve heat transfer problems. It treats heat flow as analogous to electric current, thermal resistance analogous to electrical resistance, and temperature difference analogous to voltage potential. This powerful conceptual framework enables engineers to analyze complex multi-layer heat transfer systems systematically. |
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