Covers problem-solving algorithms in chemical reaction engineering, including mole balance equations, rate laws, stoichiometry, and reactor design equations.
Explores chemical equilibrium principles, including Le Châtelier's Principle and equilibrium constants, and discusses the influence of temperature, pressure, and concentration on equilibrium shifts.
Explores the predictive power of modelling reaction kinetics at low computational cost, emphasizing the importance of accurate models and efficient approximations.
Explores water quality modeling, focusing on reaction kinetics, equilibrium constants, and temperature effects, with practical examples of calcite precipitation and iron oxidation.
Explores the fundamentals of chemical kinetics, reaction orders, half-lives, and contaminant concentration prediction in environmental engineering applications.
