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Lecture
Powder Synthesis: Solid Reactions
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Chemical Stoichiometry: Fundamentals and Applications
Introduces the fundamentals of chemical stoichiometry, including the concept of the mole and its applications in balancing reactions and determining reactants' limiting factors.
Precipitation Process: Interactive Exercise
Offers an interactive exercise on the precipitation process and its critical conditions.
Chemical reaction engineering: reactor design
Explores the Chemical Reaction Engineering algorithm applied to isothermal reactor design, with examples on SO2 oxidation and N2O4 decomposition.
Untitled
Chemical Reactions: Affinity and Osmosis
Explores chemical potential, affinity, and osmosis in chemical reactions, emphasizing reaction progress over time.
Solidification Models: Equilibrium & Non-equilibrium
Explores equilibrium and non-equilibrium solidification models, diffusion simulation in brazing, multicomponent diffusion theory, kinetic modeling, and precipitation reactions.
Powder Synthesis: Precipitation
Explores powder synthesis through precipitation methods, covering solid-vapor reactions, nucleation, crystal growth, and aggregation processes.
Chemical reaction engineering: reactor design
Focuses on isothermal reactor design, covering mole balances, rate laws, stoichiometry, and pressure drop effects.
Nucleation and Growth: Interfacial Phenomena
Explores nucleation, growth, Ostwald ripening, LaPlace pressure, Kelvin equation, phase equilibrium, size dependence of phase transitions, critical micelle concentration, self-assembly, temperature dependence of nucleation rate, heterogeneous nucleation, and melting point depression.
Phase Transformations II: solid-state transformations
Explores solid-state transformations, nucleation, kinetics, hardness testing, thermodynamics, and shape memory effects in materials.
