Lectures related to Fundamentals of Heat Transfer

Explores radiative heat transfer fundamentals, including emissive power, blackbody radiation, and spectral properties.

Radiative Heat Transfer: Surface Properties

Explores radiative heat transfer through surface properties like emissivity, absorptivity, reflectivity, and transmissivity, emphasizing their significance in heat transfer applications.

Blackbody Radiation: Emissive Power Spectrum

Explores blackbody radiation, emissive power spectrum, Planck's law, and spectral hemispherical emissive power.

Fundamentals of Radiative Heat Transfer

Introduces the fundamentals of radiative heat transfer, covering properties of surfaces, exchange methods, and theoretical models.

Fundamentals of Radiative Heat Transfer

Explores the fundamentals of radiative heat transfer, including surfaces, Monte Carlo methods, and examples in various fields.

Blackbody Radiation: Emissive Power Spectrum

Explores blackbody radiation, emissive power spectrum, Planck's law, and electromagnetic wave theory predictions.

Advanced Heat Transfer: Fundamentals and Applications

Covers the fundamentals of advanced heat transfer, focusing on radiative heat transfer principles and their applications in energy systems.

Radiative Properties of Surfaces

Explores emissivity, absorptivity, and reflectivity of surfaces, including spectral and directional properties, laws of reciprocity, and practical examples.

Radiative Exchange in Heat Transfer: View Factors and Properties

Discusses radiative exchange principles, focusing on view factors and their applications in heat transfer calculations.

Radiative Properties of Surfaces: Heat Transfer Fundamentals

Explains the fundamental concepts of radiative heat transfer and surface properties essential for energy analysis.

Radiative Heat Transfer

Explores radiative heat transfer, covering surface exchange, coupled heat transfer, and gas flow behavior in tubes.

Radiative Heat Transfer

Covers radiative heat transfer, view factors, and surface properties.

Monte Carlo Methods in Thermal Radiation: Applications and Solutions

Discusses the application of Monte Carlo methods to thermal radiation and energy transfer in participating media.

Radiative Exchange: Specular Surfaces

Explores specular view factors and radiative exchange between partially-specular gray surfaces, including energy transfer rates and non-gray surface exchange.

Radiative Heat Transfer Equilibrium

Explores radiative heat transfer equilibrium between walls and isotropic scattering medium, optical thickness, Monte Carlo method, and analytical solutions.

Radiation Principles: Understanding Atmospheric Interactions

Introduces the principles of atmospheric radiation and its impact on climate change.

Heat Transport Phenomena: Black Body Radiation and Stefan's Law

Explores heat transport phenomena, black body radiation, and Stefan's law in classical physics.

Radiative Properties and Heat Exchange: Theory and Applications

Discusses radiative properties and heat exchange between surfaces, emphasizing theoretical concepts and practical applications in energy transfer calculations.

Emission of Thermal Radiation

Explores the emission of thermal radiation, covering mechanisms, electromagnetic radiation, temperature relationship, spatial distribution, and black-body radiation.

Science of climate change: radiation

Explores the impact of radiation on climate, covering the Earth's energy balance, biosphere, cryosphere, and carbon cycle.