| Part I Completely-Mixed Systems |
| 1 Introduction |
| 2 Reaction Kinetics |
| 3 Mass Balance, Steady-State Solution and Response Time |
| 4 Particular Solutions |
| 5 Feedforward Systems of Reactors |
| 6 Feedback Systems of Reactors |
| 7 Computer Solutions: Completely-Mixed Reactors |
| Part II Incompletely-Mixed Systems |
| 8 Diffusion |
| 9 Distributed Solutions (Steady-state) |
| 10 Distributed Solutions (Time Variable) |
| 11 Control-Volume Approach: Steady-state Solutions |
| 12 Simple Time-variable Solutions |
| 13 Advanced Time-variable Solutions |
| Part III Environments |
| 14 Streams |
| 15 Estuaries |
| 16 Lakes |
| 17 Sediments |
| 18 The "Modeling" Environment |
| Part IV Dissolved Oxygen and Bacteria |
| 19 BOD and Oxygen Saturation |
| 20 Gas Transfer and Oxygen Reaeration |
| 21 Streeter-Phelps: Point Sources |
| 22 Streeter-Phelps: Distributed Sources |
| 23 Nitrogen |
| 24 Photosynthesis/Respiration |
| 25 Sediment Oxygen Demand |
| 26 Computer Methods |
| 27 Pathogens |
| Part V Eutrophication and Temperature |
| 28 The Eutrophication Problem and Nutrients |
| 29 Phosphorus Loading Concept |
| 30 Heat Budgets |
| 31 Thermal Stratification |
| 32 Microbe/Substrate Modeling |
| 33 Plant Growth and Non-predatory Losses |
| 34 Predator-Prey and Nutrient/Food-Chain Interactions |
| 35 Nutrient-Food Chain Modeling |
| 36 Eutrophication in Flowing Waters |
| Part VI Chemistry |
| 37 Equilibrium Chemistry |
| 38 Coupling Equilibrium. Chemistry and Mass Balance |
| 39 pH Modeling |
| Part VII Toxic Substances |
| 40 Introduction to Toxic Substance Modeling |
| 41 Mass-transfer Mechanisms: Sorption and Volatilization |
| 42 Reaction Mechanisms: Photolysis, Hydrolysis and Biodegradation |
| 43 Radionuclides and Metals |
| 44 Toxicant Modeling In Flowing Waters |
| 45 Toxicant/Food-chain Interactions |
| Appendixes |
