Lectures related to Temperature and thermal property measurements

Microscopic Heat Transport: Modes and Laws

Explores microscopic heat transport modes and laws, including Fourier's law and Newton's law, highlighting thermal conductivity principles.

Heat Exchangers: Fundamentals and Applications

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

Conduction of Heat

Explores heat propagation through conduction, convection, and radiation, including practical applications and material properties.

Fourier Equation in 2D: Stationary Regime

Explores the Fourier equation in 2D for a stationary regime without heat production in a semi-infinite wall.

Thermal Bridges in Building Technology

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

Heat Transport Fundamentals

Explores heat transport through conduction, convection, and radiation, including thermal resistance and practical examples.

Heat Transfer: Conduction and Diffusion

Explores heat transfer mechanisms, focusing on conduction and diffusion, and how different materials affect thermal conductivity.

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Heat: Transport and Boundary Conditions

Explores heat transport mechanisms like conduction, convection, and radiation, along with boundary conditions for heat exchange.

Heat Transfer Phenomena

Explores the applications of the Fourier equation in heat transfer phenomena, covering conduction, convection, and radiation.

Thermodynamic Cycles: Power and Refrigeration

Explores thermodynamic cycles, power and refrigeration, energy balance, heat transfer modes, and efficiency in mechanical, electrical, and combustion devices.

Heat transport: Conduction, Convection, Radiation

Explores heat transport through conduction, convection, and radiation in micro and nanosystems.

Heat Transfer in Engineering Systems

Explores heat transfer in engineering systems, covering energy balance, radiation exchange, and convection coefficients.

Buoyancy and Thermodynamic Principles: Understanding Pressure and Temperature

Discusses buoyancy, pressure, temperature, and their interrelations in thermodynamics.

Heat Conduction: Equations and Methods

Covers the equations and methods used to describe heat transfers in a similar way to the analysis of diffusion.

Thermal Physics: Temperature and Energy Transfer

Explores temperature, thermal expansion, heat transfer, and phase changes in materials.

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.

Fourier Analysis and PDEs

Explores Fourier analysis, PDEs, historical context, heat equation, Laplace equation, and periodic boundary conditions.

Heat Transfer Applications

Explores the applications of the Fourier equation in heat transfer phenomena.

Heat Transfer: Fundamentals and Applications

Explores the fundamentals and applications of heat transfer in various fields, from energy conversion to medical therapies.