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Process Integration for Resource Conservation

  • Couverture cartonnée
  • 606 Nombre de pages
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Zusatztext In this book! Dr. Foo manages to elegantly transform the theories and concepts into effective educational tools! exciti... Lire la suite
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Zusatztext In this book! Dr. Foo manages to elegantly transform the theories and concepts into effective educational tools! exciting reading materials! and very useful applications. ? Overall! this is an excellent contribution that will benefit numerous researchers! students! and process engineers and will serve the cause of sustainability worldwide.-From the Foreword! Mahmoud El-Halwagi! Texas A&M UniversityThe main contribution of this textbook is that it brings together a family of systematic design tools that can be used to determine the most cost-effective measures to implement recycle and reuse of process streams in industrial plants. ? suitable for a wide range of audiences! from advanced undergraduate students to practicing engineers from the process industries. ? this excellent book comes at just the right time to teach the next generation of process designers how to 'save the planet' more systematically and intelligently.-From the Foreword! Raymond R. Tan! De La Salle University-ManilaThis book collects all fundamentals aspects of process integration to enable readers to address issues related to resource management. I strongly recommend this book to everyone interested in the field of process integration."-Santanu Bandyopadhyay! IIT BombayThis book serves as good material for process integration ? it [also] offers good knowledge of material recovery that helps people [acquire the] basics for doing further research or practical application.-Cheng-Liang Chen! National Taiwan UniversityThe chapters are written very well and cover all the topics in sufficient detail and clarity. ? a wonderful and relevant contribution to the field of process integration.-T. Majozi! University of Pretoria Informationen zum Autor Dominic C.Y. Foo! Ph.D.! P.E.! is a Professor of Process Design and Integration and the founding director of the Centre of Excellence for Green Technologies at the University of Nottingham Malaysia Campus. Professor Foo has authored more than 70 journal papers and made more than 120 conference presentations. He has been a recipient of the Innovator of the Year Award from the Institution of Chemical Engineers UK (IChemE) and the Young Engineer Award from the Institution of Engineers Malaysia (IEM). Zusammenfassung To achieve environmental sustainability in industrial plants! resource conservation activities such as material recovery have begun incorporating process integration techniques for reusing and recycling water! utility gases! solvents! and solid waste. Process Integration for Resource Conservation presents state-of-the-art! cost-effective techniques! including pinch analysis and mathematical optimization! for numerous conservation problems.Following the holistic philosophy of process integration! the author emphasizes the goal of setting performance targets ahead of detailed design. He explains various industrial examples step by step and offers demo software and other materials online. Ideal for students preparing for real-world work as well as industrial practitioners! the text provides a systematic guide to the latest process integration techniques for performing material recovery in process plants. Inhaltsverzeichnis 91243683 ...

Auteur
Dominic C.Y. Foo, Ph.D., P.E., is a Professor of Process Design and Integration and the founding director of the Centre of Excellence for Green Technologies at the University of Nottingham Malaysia Campus. Professor Foo has authored more than 70 journal papers and made more than 120 conference presentations. He has been a recipient of the Innovator of the Year Award from the Institution of Chemical Engineers UK (IChemE) and the Young Engineer Award from the Institution of Engineers Malaysia (IEM).

Texte du rabat

To achieve environmental sustainability in industrial plants, resource conservation activities such as material recovery have begun incorporating process integration techniques for reusing and recycling water, utility gases, solvents, and solid waste. Process Integration for Resource Conservation presents state-of-the-art, cost-effective techniques, including pinch analysis and mathematical optimization, for numerous conservation problems. Following the holistic philosophy of process integration, the author emphasizes the goal of setting performance targets ahead of detailed design. He explains various industrial examples step by step and offers demo software and other materials online. Ideal for students preparing for real-world work as well as industrial practitioners, the text provides a systematic guide to the latest process integration techniques for performing material recovery in process plants.



Contenu
IntroductionMotivating ExamplesProcess Synthesis and AnalysisProcess Integration: A Brief OverviewStrategies for Material Recovery and Types of RCNsProblem StatementsStructure of the Book Data Extraction for Resource ConservationSegregation for Material SourcesExtraction of Limiting Data for Material Sink for Concentration-Based RCNData Extraction for Mass Exchange ProcessesData Extraction for Hydrogen-Consuming Units in RefineryData Extraction for Property IntegrationAdditional Readings PART I INSIGHT-BASED PINCH ANALYSIS TECHNIQUESGraphical Targeting Techniques for Direct Reuse/RecycleMaterial Recovery Pinch DiagramSignificance of the Pinch and Insights from MRPDTargeting for Multiple ResourcesTargeting for Threshold ProblemsTargeting for Property IntegrationAdditional Readings Algebraic Targeting Techniques for Direct Reuse/RecycleGeneric Procedure for Material Cascade Analysis TechniqueTargeting for Multiple Fresh ResourcesTargeting for Threshold ProblemsTargeting for Property Integration with Inferior Property Operator Level Process Changes for Resource Conservation NetworksPlusMinus Principle Algebraic Targeting Approach for Material Regeneration NetworksTypes of Interception UnitsTargeting for Single Pass Interception UnitModeling of Mass Exchange Operation as Interception UnitAdditional Readings Network Design and Evolution TechniquesProcedure for Nearest Neighbor AlgorithmDesign for Direct Material Reuse/Recycle and the Matching MatrixDesign for Material Regeneration NetworkNetwork Evolution TechniquesAdditional Readings Targeting for Waste Treatment and Total Material NetworksTotal Material NetworkGeneric Procedure for Waste Stream IdentificationWaste Identification for Material Regeneration NetworkTargeting for Minimum Waste Treatment FlowrateInsights from the WTPDAdditional Readings Synthesis of Pretreatment NetworkBasic Modeling of a Partitioning Interception UnitPretreatment Pinch DiagramInsights on Design Principles from PPDPretreatment Network Design with Nearest Neighbor Algorithm Synthesis of Inter-Plant Resource Conservation NetworksTypes of IPRCN ProblemsGeneric Targeting Procedure for IPRCNDesign of IPRCNIPRCN with Material Regeneration and Waste TreatmentAdditional Readings Synthesis of Batch Material NetworksTypes of Batch Resource Consumption UnitsTargeting Procedure for Direct Reuse/Recycle in a BMN without Mass Storage SystemTargeting Procedure for Direct Reuse/Recycle in a BMN with Mass Storage SystemTargeting for Batch Regeneration NetworkDesign of a BMNWaste Treatment and Batch Total NetworkAdditional Readings PART II MATHEMATICAL OPTIMIZATION TECHNIQUESSynthesis of Resource Conservation Networks: A Superstructural ApproachSuperstructural Model for Direct Reuse/Recycle NetworkIncorporation of Process ConstraintsCapital and Total Cost EstimationsReducing Network ComplexitySuperstructural Model for Material Regeneration NetworkSuperstructural Model for Inter-Plant Resource Conservation NetworksAdditional Readings Automated Targeting Model for Direct Reuse/Recycle NetworksBasic Framework and Mathematical Formulation of ATMIncorporation of Process Constraints into ATMATM for Property Integration with Inferior Operator LevelATM for Bilateral Problems Automated Targeting Model for Material Regeneration and Pretreatment NetworksTypes of Interception Units and Their CharacteristicsATM for RCN with Single Pass Interception Unit of Fixed Outlet Quality TypeATM for RCN with Single Pass Interception Unit of Removal Ratio TypeModeling for Partitioning Interception Unit(s) of Fixed Outlet Quality TypeModeling for Partitioning Interception Unit(s) of Removal Ratio TypeATM for RCN with Partitioning Interception Unit(s)ATM for Pretreatment NetworksAdditional Readings Automated Targeting Model for Waste Treatment and Total Material NetworksATM for Waste Treatment NetworkATM for TMN without Waste RecyclingATM for TMN with Waste RecyclingAdditional Readings Automated Targeting Model for Inter-Plant Resource Conservation NetworksATM for Direct Integration SchemeDirect Material Reuse/RecycleATM for Direct Integration Scheme: RCNs with Individual Interception UnitATM for IPRCNs with Centralized Utility FacilityInsights from ATM for IPRCN SynthesisFurther Reading Automated Targeting Model for Batch Material NetworksBasic ATM Procedure for Batch Material NetworksATM for Direct Reuse/Recycle NetworkATM for Batch Regeneration NetworkATM for Batch Total NetworkFurther Reading Appendix: Case Studies and Examples Index Problems and References appear at the end of each chapter.

Informations sur le produit

Titre: Process Integration for Resource Conservation
Auteur:
Code EAN: 9781466573321
ISBN: 978-1-4665-7332-1
Format: Couverture cartonnée
Editeur: Taylor and Francis
Genre: Technique chimie
nombre de pages: 606
Poids: 862g
Taille: H234mm x B156mm
Année: 2012