Lectures related to Microbial Growth Dynamics: Enzyme Kinetics and Chemostat Analysis

Microbial Growth: Understanding Cell Division and Measurement Techniques

Discusses microbial growth, cell division, measurement techniques, and applications in environmental microbiology.

Chemical Reaction Engineering: Reactor Design

Explores chemical kinetics, reactor design, and critical thinking in chemical reaction engineering.

Microbial Growth: Understanding Environmental Microbiology

Covers microbial growth principles, enzyme kinetics, and the impact of nutrient limitations in environmental microbiology.

Chemical Reaction Engineering

Focuses on chemical kinetics, reactor design, and problem-solving skills with interactive modules for active participation.

Enzyme Kinetics: Understanding Reaction Rates and Mechanisms

Covers enzyme kinetics, focusing on reaction rates, the Michaelis-Menten equation, and factors affecting enzyme activity.

Heterogeneous Reactions: Kinetics and Reactors

Covers the analysis of heterogeneous reactions, focusing on kinetics and reactor types.

Chemical reaction engineering: reactor design

Explores the Chemical Reaction Engineering algorithm applied to isothermal reactor design, with examples on SO2 oxidation and N2O4 decomposition.

Chemical Reaction Engineering: Algorithm and Stoichiometry

Explores the Chemical Reaction Engineering algorithm in batch reactors and CSTRs, focusing on stoichiometry and rate laws.

Enzymes: Basic Concepts and Kinetics

Delves into enzymes' basic concepts, kinetics, and catalytic strategies for reaction acceleration.

Chemical Reaction Engineering: Conversion and Reactor Sizing

Explores the algorithm for solving chemical reaction engineering problems, focusing on conversion and reactor sizing.

Enzyme Kinetics: Understanding Reaction Rates

Delves into enzyme kinetics, emphasizing how enzymes influence reaction rates through substrate concentration and the Michaelis-Menten equation.

Microbial Growth: Substrate Utilization and Chemostat Operation

Explores microbial growth, substrate utilization, chemostat operation, and biomass productivity in continuous systems.

Chemical Engineering of Heterogeneous Reactions

Covers the basics of chemical engineering of heterogeneous reactions and introduces Laplace transforms to simplify complex problems.

Conversion and Reactor Sizing

Explores conversion, reactor sizing, and series reactors with practical examples.

Enzymes: Catalytic Strategies

Explores enzyme catalytic strategies, including proteases and carbonic anhydrase, inhibition mechanisms, and specificity of serine proteases.

Kinetics: Reaction Rates and Equilibrium

Explores reaction kinetics, rate laws, measurement techniques, and binding kinetics between ligands and proteins.

Enzymes: Basic Concepts and Kinetics

Explores enzymes' catalytic strategies, kinetics, and inhibition, emphasizing their role in accelerating biochemical reactions.

Chemical Reaction Engineering

Covers the analytical derivation of various design models and reactor sizing.

Chain Polymerisation: Mechanism and Kinetics

Explores the mechanism and kinetics of chain polymerisation, focusing on inhibitors and competitive inhibition in enzyme reactions.

Inclusion of Fermented Foods in Food Guides

Discusses the inclusion of fermented foods in global food guides, exploring their benefits and risks, enzyme kinetics, and the history of food enzymes.