05594nam 22007094a 450 991087748130332120240423174120.01-280-34968-997866103496850-470-32323-X0-471-75813-20-471-75812-4(CKB)1000000000355529(EBL)252639(OCoLC)70821887(SSID)ssj0000109034(PQKBManifestationID)11138425(PQKBTitleCode)TC0000109034(PQKBWorkID)10047314(PQKB)10496294(MiAaPQ)EBC252639(EXLCZ)99100000000035552920050427d2006 uy 0engur|n|---|||||txtccrA basic introduction to pollutant fate and transport an integrated approach with chemistry, modeling, risk assessment, and environmental legislation /Frank M. Dunnivant, Elliot AndersHoboken, N.J. Wiley-Intersciencec20061 online resource (504 p.)Description based upon print version of record.0-471-65128-1 Includes bibliographical references and index.A BASIC INTRODUCTION TO POLLUTANT FATE AND TRANSPORT; CONTENTS; PREFACE; To the Instructor; To the Student; To the Environmental Professional; How to Use the Book with FateĀ® and Associated Software; Acknowledgments; SYMBOLS; GLOSSARY; PART I INTRODUCTION; CHAPTER 1 SOURCES AND TYPES OF POLLUTANT, WHY WE NEED MODELING, AND HISTORICAL CONTAMINATION EVENTS; 1.1 Introduction; 1.2 The Need for Modeling of Pollutants in Environmental Media; 1.3 Pollution Versus Contamination; Pollutant Versus Contaminant; 1.4 Pollution Classifications; 1.5 Sources of Pollution1.6 Historic Examples of Where Fate and Transport Modeling are Useful1.6.1 Surface Water; 1.6.2 Groundwater; 1.6.3 Atmosphere; 1.7 Environmental Laws; References; PART II CHEMISTRY OF FATE AND TRANSPORT MODELING; CHAPTER 2 BASIC CHEMICAL PROCESSES IN POLLUTANT FATE AND TRANSPORT MODELING; 2.1 The Liquid Medium: Water and the Water Cycle; 2.2 Unique Properties of Water; 2.3 Concentration Units; 2.4 Chemical Aspects of Environmental Systems; 2.4.1 pH; 2.4.2 Activity; 2.4.3 Solubility; 2.4.4 Vapor Pressure; 2.4.5 Henry's Law Constant; 2.5 Reactions and Equilibrium; 2.5.1 Acid-base Chemistry2.5.2 Oxidation-Reduction Chemistry2.6 Complexation; 2.7 Equilibrium Sorption Phenomena; 2.7.1 Sorption Surfaces; 2.7.2 Organic Matter; 2.7.3 Organic Sorbates; 2.7.4 Partition Coefficients, K(d) and K(p); 2.7.5 Ion Exchange Phenomena for Ionic Pollutants; 2.8 Transformation/Degradation Reactions; 2.8.1 Abiotic Chemical Transformations/Degradations; 2.8.2 Photochemical Transformation/Degradation Reactions; 2.8.3 Nuclear; 2.8.4 Biological; 2.9 Summary; References; CHAPTER 3 QUANTITATIVE ASPECTS OF CHEMISTRY TOWARD MODELING; 3.1 Introduction3.2 Calculation of the Free Metal Ion Concentration in Natural Waters3.2.1 Calculating Chemical Equilibria; 3.2.2 Equilibrium Applied to More Complex Speciation Problems; 3.3 Methods for Determining K(d) and K(p); 3.4 Kinetics of the Sorption Process; 3.5 Sorption Isotherms; 3.5.1 A General Approach; 3.6 Kinetics of Transformation Reactions; 3.7 Putting It All Together: Where Chemistry Enters into the Modeling Effort; Case I: A Metal Pollutant; Case II: Hydrophobic Pollutants; References; PART III MODELING; CHAPTER 4 AN OVERVIEW OF POLLUTANT FATE AND TRANSPORT MODELING4.1 Modeling Approaches4.1.1 Algebraic Solutions; 4.1.2 Modeling Using Differential Equations; 4.1.3 The General Approach for the Models Used in this Text; 4.1.4 Numerical Methods of Analysis; 4.2 The Quality of Modeling Results; 4.3 What Do You Do with Your Modeling Results?; References; CHAPTER 5 FATE AND TRANSPORT CONCEPTS FOR LAKE SYSTEMS; Case Study: Lake Onondaga; 5.1 Introduction; 5.2 Types of lakes and lake-forming events; 5.3 Input Sources; 5.4 Stratification of Lake Systems; 5.5 Important Factors in the Modeling of Lakes: Conceptual Model Development; 5.5.1 Definitions of Terms:5.5.2 Detention Times and Effective Mixing VolumesA uniquely accessible text on environmental modeling designed for both students and industry personnel Pollutant fate and modeling are becoming increasingly important in both regulatory and scientific areas. However,the complexity of the software and models often act as an inhibitor to the advancement of water quality science. A Basic Introduction to Pollutant Fate and Transport fills the need for a basic instructional tool for students and environmental professionals who lack the rigorous mathematical background necessary to derive the governing fate and transport equations.PollutionMathematical modelsPollutantsEnvironmental chemistryEnvironmental risk assessmentEnvironmental policyPollutionMathematical models.Pollutants.Environmental chemistry.Environmental risk assessment.Environmental policy.628.5/2628.52Dunnivant Frank M448177Anders Elliot448178MiAaPQMiAaPQMiAaPQBOOK9910877481303321A basic introduction to pollutant fate and transport4199410UNINA