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Lecture
Fin Performance: Efficiency & Resistance
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Related lectures (32)
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Heat Diffusion with Heat Sources
Explores heat diffusion in 1D steady-state conduction with heat sources and discusses thermal resistance and Kirchhoff's laws.
Heat Transfer from Extended Surfaces: Fins
Explores heat transfer from fins, discussing temperature profiles and performance of fin-based systems.
Classical Size Effects: Transport Parallel to Boundaries
Explores classical size effects in energy transport parallel to boundaries, emphasizing kinetic and thermal energy characteristics.
Real Surfaces: Example
Covers exercises on surface radiative properties, including spectral absorptivity, reflectivity, emissivity, and temperature changes.
Internal Forced Convection
Explores internal forced convection, covering convection coefficients, velocity profiles, and energy balances in pipes.
Turbulence: Numerical Flow Simulation
Explores turbulence characteristics, simulation methods, and modeling challenges, providing guidelines for choosing and validating turbulence models.
Forced-Free Convection: Recap and Concepts
Covers the recap of forced and free convection, including the definition of convection and the general procedure to determine the convection coefficient.
Heat Transfer Applications
Explores the applications of the Fourier equation in heat transfer phenomena.
Transient Heat Diffusion: Lumped Capacitance Model
Introduces the lumped capacitance model for solving transient heat conduction under convective cooling, emphasizing the importance of the Biot number.
Heat transport: Conduction, Convection, Radiation
Explores heat transport through conduction, convection, and radiation in micro and nanosystems.
