05281nam 2200661Ia 450 991078463180332120230120005125.01-281-18665-197866111866540-08-053109-1(CKB)1000000000384801(EBL)331932(OCoLC)476132355(SSID)ssj0000148310(PQKBManifestationID)11147007(PQKBTitleCode)TC0000148310(PQKBWorkID)10224545(PQKB)10156313(MiAaPQ)EBC331932(Au-PeEL)EBL331932(CaPaEBR)ebr10216790(CaONFJC)MIL118665(EXLCZ)99100000000038480119960228d1997 uy 0engurcn|||||||||txtccrEnvironmental electrochemistry[electronic resource] fundamentals and applications in pollution abatement /Krishnan Rajeshwar, Jorge G. IbanezSan Diego Academic Pressc19971 online resource (793 p.)Description based upon print version of record.0-12-576260-7 Includes bibliographical references and index.Front Cover; Environmental Electrochemistry: Fundamentals and Applications in Pollution Abatement; Copyright Page; Table of Contents; Chapter 1; 1.1. Introduction; 1.2. Some Definitions and Classification of Pollutants; 1.3. Environmental Media and Pollutant Transport; 1.4. Environmental Chemistry and Toxicology of Common Pollutants - A Primer; 1.5. Current Methods for Pollutant Analyses; 1.6. Current Methods for Pollutant Treatment; 1.7. Electrochemical Technology and the Environment; 1.8. Summary; References; Supplementary Reading; Chapter 2; 2.1. Introduction2.2. Current, Charge, and Potential 2.3. Charge and Mass Transport; 2.4. Electrode/Electrolyte Interfaces and Electrochemical Cells; 2.5. Thermodynamics and Kinetics in Electrochemical Systems; 2.6. Electroanalytical Chemistry; 2.7. Electrolysis and Electrodeposition; 2.8. Mass Transport Under Forced Convection in an Electrochemical Cell; 2.9. Electrochemical Reactor Design; 2.10. Electrokinetic Phenomena; 2.11. Semiconductor Electrochemistry; 2.12. Photoemission at Metal Electrodes; 2.13. Instrumentation; 2.14. Summary; References; Supplementary Reading; Chapter 3; 3.1. Introduction3.2. Electrochemistry of Organic Pollutants 3.3. Electrochemistry of Inorganic Pollutants; 3.4. Summary; References; Supplementary Reading; Chapter 4; 4.1. Introduction; 4.2. Flow Injection Analysis; 4.3. Potentiometric Sensors; 4.4. Amperometric-Coulometric and Voltammetric-Polarographic Detection in Flow Systems; 4.5. Amperometric Sensors for Environmental Pollutants: Some Examples; 4.6. Amperometric Gas Sensors; 4.7. Stripping Analyses: Specialized Aspects; 4.8. Direct Voltammetric (or Polarographic) Determination of Pollutants4.9. Electrochemistry as an Auxiliary Tool to Atomic Spectroscopies 4.10. Conductivity Detectors; 4.11. Photoassisted Detection of Pollutants; 4.12. Summary; References; Supplementary Reading; Chapter 5; 5.1. Introduction; 5.2. Positive Features of Electrochemical Remediation; 5.3. Direct Electrolysis of Pollutants; 5.4. Indirect Electrolysis of Pollutants; 5.5. Electroflotation, Electrocoagulation, and Electroflocculation; 5.6. Electrochemical Remediation of Gaseous Pollutants; 5.7. Membrane-Assisted Processes; 5.8. Electrokinetic Processing of Soil5.9. Emerging Materials for Electrochemical Treatment of Pollutants Summary; References; Supplementary Reading; Chapter 6; 6.1. Introduction; 6.2. Photolysis of H2O2 and O3 and Generation of éaq; 6.3. Destruction of Organics as Mediated by OH and éaq; 6.4. Direct Photodissociation of the Pollutant; 6.5. Reaction Kinetics, Mechanisms and Examples of Application of the UV-H2O2 System; 6.6. Reaction Kinetics, Mechanisms, and Examples of Application of the UV-O3 System; 6.7. The UV-H2O2-O3 Process; 6.8. UV-H2O2 and UV-O3 Systems: Practical Considerations; 6.9. Heterogeneous Photocatalysis6.10. SummaryThe first book of its kind, Environmental Electrochemistry considers the role that electrochemical science and engineering can play in environmental remediation, pollution targeting, and pollutant recycling. Electrochemical-based sensors and abatement technologies for the detection, quantification, and treatment of environmental pollutants are described. Each chapter includes an extensive listing of supplemental readings, with illustrations throughout the book to clarify principles and approaches detailed in the text.Key Features* The first book to review electro- and photoelElectrochemistryPhotoelectricityPollutionElectrochemistry.Photoelectricity.Pollution.628.5Rajeshwar Krishnan1560628Ibanez Jorge G1560629MiAaPQMiAaPQMiAaPQBOOK9910784631803321Environmental electrochemistry3826751UNINA05398nam 2200589Ia 450 991013345940332120200520144314.09780470937617Electronic0470937610Electronic9780470545669Online0470545666Online978661278344912827834409780471471639Print0471471631Print9780470937631047093763710.1109/9780470545669(CKB)3400000000000251(OCoLC)676969118(MiAaPQ)EBC589024(Au-PeEL)EBL589024(CaPaEBR)ebr10419413(CaONFJC)MIL278344(OCoLC)557402417(EXLCZ)99340000000000025120040330d2004 uy 0engurbn#|||maa|ntxtrdacontentcrdamediacrrdacarrierPrinciples of object-oriented modeling and simulation with Modelica 2.1 /Peter FritzsonNew York ;Chichester Wileyc20041 online resource (xlii, 897 pages, 1 unnumbered page)illustrationsPrint version: Fritzson, Peter A., 1952- Principles of object-oriented modeling and simulation with Modelica 2.1. Piscataway, N.J. : IEEE Press ; [New York] : Wiley-Interscience, ©2004 9780471471639 0471471631 (DLC) 2004298293 (OCoLC)52920516 Includes bibliographical references and index.Part IIntroduction --Chapter 1Introduction to Modeling and Simulation --Chapter 2A Quick Tour of Modelica --Part IIThe Modelica Language --Chapter 3Classes, Types, and Declarations --Chapter 4Inheritance, Modifications, and Generics --Chapter 5Components, Connectors, and Connections. --Chapter 6Literals, Operators, and Expressions --Chapter 7Arrays --Chapter 8Equations --Chapter 9Algorithms and Functions --Chapter 10Packages --Chapter 11Annotations, Units, and Quantities --Part IIIModeling and Applications --Chapter 12System Modeling Methodology and Continuous Model Representation --Chapter 13Discrete Event, Hybrid, and Concurrency Modeling --Chapter 14Basic Laws of Nature --Chapter 15Application Examples --Chapter 16Modelica Library Overview --Part IVTechnology and Tools --Chapter 17A Mathematical Representation for Modelica Models --Chapter 18Techniques and Research --Chapter 19Environments --Appendix AModelica Formal Syntax --Appendix BMathematica-style Modelica Syntax --Appendix CSolutions for Exercises --Appendix DModelica Standard Library --Appendix EModelica Scripting Commands --Appendix FRelated Object-Oriented Modeling Languages --Appendix GA Modelica XML Representation."Object-oriented modeling is a fast-growing area of modeling and simulation that provides a structured, computer-supported way of doing mathematical and equation-based modeling. Modelica is today’s most promising modeling language in that it effectively unifies and generalizes previous object-oriented modeling languages and provides a sound basis for the basic concepts.Principles of Object-Oriented Modeling and Simulation with Modelica 2.1 introduces the latest methods of object-oriented component-based system modeling and simulation, and provides a tutorial and reference for the latest version of Modelica complete with a comprehensive overview of application model libraries from many domains. Executable examples are included from many areas–physics, mechanics, electrical systems, thermodynamics, flow systems, computer science, concurrent and real-time processes, biology, ecology, chemistry, economy, etc. Designed for students, researchers, and engineers familiar with basic programming concepts, the text: • Introduces the concepts of physical modeling, object-oriented modeling, and component-based modeling. • Includes both visual and textual modeling/programming. • Provides a complete yet informal overview of the Modelica language. • Demonstrates modeling examples for a wide range of applications. • Acts as a reference guide for the most commonly used Modelica libraries. • Features the current version of Modelica 2.1 including some anticipated extentions. Its flexible format, comprehensive coverage of the field, and practical focus makes Principles of Object-Oriented Modeling and Simulation with Modelica 2.1 an indispensable teaching tool, a timely reference source for modeling and programming with Modelica, and a valuable hands-on guide for doing physical modeling in a broad range of application areas.Visit the book Web page www.mathcore.com/drmodelica for samples of executable models, teaching material, interactive tutorials, and recent updates of the book."--Provided by publisher.Object-oriented methods (Computer science)Computer simulationObject-oriented methods (Computer science)Computer simulation.005.117Fritzson Peter A.1952-521416MiAaPQMiAaPQMiAaPQBOOK9910133459403321Principles of object-oriented modeling and simulation with Modelica 2.1836806UNINA