NOC:Fluidization Engineering


Lecture 1 - Introduction


Lecture 2 - Particle properties


Lecture 3 - Particle / Powder Classifications


Lecture 4 - Minimum Fluidization Velocity: Fluid-solid System


Lecture 5 - Minimum Fluidization Velocity: Liquid-solid and gas-liquid-solid System


Lecture 6 - Flow regime and its map: Gas-solid Fluidization


Lecture 7 - Flow regime and its map: Liquid-solid and Gas-liquid-solid Fluidization


Lecture 8 - Frictional pressure drop in fluidized bed-fluid-solid system


Lecture 9 - Frictional pressure drop in fluidized Bed-Gas-liquid-solid system


Lecture 10 - Analysis of Frictional Pressure Drop in Fluidized Bed By Different Models


Lecture 11 - Gas Distribution Through Distributor


Lecture 12 - Calculation of gas pumping power consumption in fluidized bed


Lecture 13 - Bubbling Fluidization Part 1: Bubble Characteristics


Lecture 14 - Bubbling Fluidization Part 2: Bubble Characteristics (Continued...)


Lecture 15 - Bubbling Fluidization Part 3: Bubble coalescence in three-phase fluidization


Lecture 16 - Bubbling Fluidization Part 4: Bubble breakup in three-phase fluidization


Lecture 17 - Bubbling Fluidization Part 5: Gas and solid movements at bubble


Lecture 18 - Bubbling Fluidization Part 6: Slugging Bed


Lecture 19 - Entrainment Characteristics (Part 1) : Entrainment Characteristics


Lecture 20 - Entrainment Characteristics (Part 2) : Fast fluidization condition


Lecture 21 - Entrainment Characteristics (Part 2) : Elutriation Characteristics


Lecture 22 - Entrainment Characteristics (Part 2) : Attrition in Fluidized Bed (Part 1)


Lecture 23 - Attrition in Fluidized Bed (Part 2)


Lecture 24 - Solid movement, mixing: Gas-fluidized Bed


Lecture 25 - Solid segregation: Gas-fluidized bed


Lecture 26 - Solid mixing and segregation: Liquid-solid fluidized bed


Lecture 27 - Gas Dispersion and Interchange


Lecture 28 - Mass transfer in fluidized Bed-Gas-solid system


Lecture 29 - Mass transfer in fluidized Bed-Gas-liquid-solid system (Continued...)


Lecture 30 - Heat transfer Characteristics


Lecture 31 - Fluidized bed reactor design and its performance