Concept

Heat transfer coefficient

Related lectures (32)

Covers the fundamentals of heat transfer, focusing on radiation, conduction, and convection, including boundary layers and Nusselt number.

Heat Transfer Fundamentals

Explores the fundamentals of heat transfer, including radiation, convection, and conduction, emphasizing boundary layers and Nusselt numbers.

Internal Flows and Boundary Layers

Explores internal flows, boundary layers, heat transfer coefficients, and Nusselt number correlations in thermal systems.

Heat Transfer: Internal Flows

Explores internal heat transfer in laminar flows, focusing on entry lengths, mean temperature, and Nusselt number correlations.

Internal Forced Convection

Explores internal forced convection, covering correlations, laminar and turbulent flow, and practical exercises using Jupyter Notebooks.

Heat Transfer Modes: Convection

Explores heat transfer modes, emphasizing convection, including forced and natural convection, boundary layers, and heat transfer coefficients.

Heat Transfer Fundamentals

Covers the fundamentals of heat transfer, including radiative properties, boundary layer theory, and Prandtl number.

Heat Transfer in Microreactors

Explores heat transfer in microreactors, covering Nusselt numbers, channel geometries, and thermal sensitivity analysis.

Thermal Bridges in Building Technology

Explores the physics of thermal bridges and heat transfer in building elements, emphasizing energy efficiency.

Internal Forced Convection

Explores internal forced convection, covering convection coefficients, velocity profiles, and energy balances in pipes.

Condensation Physics I

Explores the physics of condensation, covering nucleation, droplet formation, heat transfer, and droplet footprint distribution.

Heat Transfer in Microreactors

Explores heat transfer in microreactors, covering straight micro-channels, thermal sensitivity analysis, and multi-injection systems.

Transport Effects in Heterogeneous Catalysis

Explores transport effects in heterogeneous catalysis, emphasizing the impact of mass transfer on reaction kinetics and mechanisms.

Energy Conservation: Simplified Situations

Explores energy conservation in fluid mechanics, focusing on simplified control volume situations and the relationship between mechanical power and heat transfer.

Heat Exchangers: Fundamentals and Applications

Explores the fundamentals of heat exchangers, including conduction, convection, and temperature profiles, with practical examples.

Internal Forced Convection: Hydrodynamic Aspects

Covers the hydrodynamic and thermal aspects of internal forced convection.

Heat Transfer from Extended Surfaces: Fins

Explores heat transfer from fins, discussing temperature profiles and performance of fin-based systems.

Conduction and Convection

Covers heat transfer through conduction and convection, focusing on energy carriers and fluid motion.

Conduction in Solids: Fundamentals and Applications

Explores the basics of heat conduction in solids, covering Fourier's law, thermal conductivity, energy conservation, and practical applications.

Two phase flow and heat transfer

Explores two-phase flow, heat transfer, film condensation, pool boiling, and forced convection boiling in pipes.