Publisher's Synopsis
Chemical Engineering: Introduction Chemical Elements Chemical Compounds - Chemical Engineering Chemical Engineer Distillation - Chemical Process Engineering: Significant Accomplishments Process Miniaturisation Unit Operations Combination (Mixing) Reaction (Chemical Reaction) - Principles of Chemical Dynamics: Rate Factors Affecting Reaction Rate; the Rate Law Experimental Determination of the Rate Law the Initial Rate Method Elementary Processes and Reaction Mechanism Temperature Dependence of Rate-Kinetic Molecular Theory Kinetics and Equilibrium Catalysis Complex Reactions: Parallel Processes, Consecutive Processes, and Reversible Processes Enzymes as Catalysts Mechanisms of Substitution Reactions Chromatography The Development Process Displacement Development Frontal Analysis Elution Development Elution Development in Thin Layer Chromatography Chromatography Nomenclature Factors Controlling Retention The Thermodynamic Explanation of Retention Factors Affecting the Magnitude of the Distribution Coefficient (K) Hydrophobic and Hydrophilic Interactions - Chemical and Physical Stability: Chemical Stability Physical Chemistry Computational Chemistry Material and Energy Balances Flow of Fluids Fluid Statics Chemical Kinetics Factors Affecting Reaction Rate - Chemical Process Design: Documentation Other Items of Interest Piping and Instrumentation Diagrams (P&ID's) Information Technology Fluid Dynamics Heat Transfer Mass Transfer Separation Process Process Control Anti-lock Braking System Reaction Mechanism Temperature Dependence of Rate-Kinetic Molecular Theory Kinetics and Equilibrium -