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Heat Transfer and Combustion in Multiphase Systems

Heat Transfer and Combustion in Multiphase Systems. Instructor: Prof. Saptarshi Basu, Department of Mechanical Engineering, IISc Bangalore. Multiphase systems are ubiquitous to many domains ranging from large scale power generation to microscale surface patterning. The course as outlined aims to offer insights and fundamentals into such multiphase systems. The course will first cover the basics of thermodynamics and transport processes in generalized multiphase systems along with analyses of interfacial transport mechanisms. Subsequently in the later modules, it will offer in depth analyses of transport processes and combustion in specific areas like a.) droplet combustion, b.) droplet evaporation, c.) transport processes in sessile droplets, d.) boiling and e.) sprays. The coverage will benefit people from many industries like gas turbines, solar thermal, micro-nano scale engineering, materials processing to name a few. (from nptel.ac.in)

Lecture 16 - Transport Processes at Interface with Key Concepts (cont.)


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Lecture 01 - Introduction to Multiphase
Lecture 02 - Thermodynamics of Multiphase Systems
Lecture 03 - Thermodynamics of Interface
Lecture 04 - Thermodynamics of Interface (cont.)
Lecture 05 - Interfacial Phenomena Key Concepts
Lecture 06 - Interfacial Phenomena Key Concepts (cont.)
Lecture 07 - Interfacial Heat and Mass Transfer: Interfacial Mass, Momentum and Energy Balance, Surface Tension, Wetting
Lecture 08 - Interfacial Heat and Mass Transfer: Interfacial Dynamics, Instabilities of the Interface
Lecture 09 - Interfacial Heat and Mass Transfer: Evaporation from Thin Films
Lecture 10 - Governing Equations and Interfacial Conditions
Lecture 11 - Governing Equations: Averaging Techniques I
Lecture 12 - Governing Equations: Averaging Techniques II
Lecture 13 - Governing Equations: Averaging Techniques III
Lecture 14 - Interface Shapes
Lecture 15 - Transport Processes at Interface with Key Concepts
Lecture 16 - Transport Processes at Interface with Key Concepts (cont.)
Lecture 17 - Interfacial Transport
Lecture 18 - Interfacial Transport including Dynamic Behavior
Lecture 19 - Interface Behavior
Lecture 20 - Heat Transfer and Evaporation in Droplets
Lecture 21 - Droplet Vaporization Models
Lecture 22 - Droplet Vaporization Models (cont.)
Lecture 23 - Droplet Vaporization Dynamics
Lecture 24 - Droplet Vaporization Dynamics (cont.)
Lecture 25 - Droplet Liquid Phase Transport
Lecture 26 - Comprehensive Droplet Vaporization Model and Correlations
Lecture 27 - Comprehensive Droplet Vaporization Model and Correlations (cont.)
Lecture 28 - Comparison of Droplet Vaporization Models
Lecture 29 - Species Transport in Droplet
Lecture 30 - Heat Transfer and Transport Processes in Sessile Droplets
Lecture 31 - Introduction to Atomization
Lecture 32 - Atomization Principles and Governing Parameters
Lecture 33 - Spray/ Droplet Breakup Models (TAB Model)
Lecture 34 - Spray/ Droplet Breakup Models (WAVE Model)
Lecture 35 - Droplet Combustion
Lecture 36 - Droplet Combustion (cont.)
Lecture 37 - Regimes in Spray Combustion
Lecture 38 - Boiling
Lecture 39 - Boiling (Bubble Dynamics)
Lecture 40 - Boiling (Bubble Dynamics and Critical Heat Flux)