Process integration for resource conservation / Dominic C. Y. Foo.

By: Foo, Dominic C. YMaterial type: TextTextSeries: Publisher: Boca Raton : CRC Press, c2013Description: xxviii, 578 p. : il. ; 24 cmISBN: 9781439860489; 1439860483Subject(s): OPTIMIZACIÓN MATEMÁTICADDC classification: 660.2815 Online resources: Descripción del publicador
Contents:
Introduction Motivating Examples Process Synthesis and Analysis Process Integration: A Brief Overview Strategies for Material Recovery and Types of RCNs Problem Statements Structure of the Book Data Extraction for Resource Conservation Segregation for Material Sources Extraction of Limiting Data for Material Sink for Concentration-Based RCN Data Extraction for Mass Exchange Processes Data Extraction for Hydrogen-Consuming Units in Refinery Data Extraction for Property Integration Additional Readings PART I INSIGHT-BASED PINCH ANALYSIS TECHNIQUES Graphical Targeting Techniques for Direct Reuse/Recycle Material Recovery Pinch Diagram Significance of the Pinch and Insights from MRPD Targeting for Multiple Resources Targeting for Threshold Problems Targeting for Property Integration Additional Readings Algebraic Targeting Techniques for Direct Reuse/Recycle Generic Procedure for Material Cascade Analysis Technique Targeting for Multiple Fresh Resources Targeting for Threshold Problems Targeting for Property Integration with Inferior Property Operator Level Process Changes for Resource Conservation Networks Plus–Minus Principle Algebraic Targeting Approach for Material Regeneration Networks Types of Interception Units Targeting for Single Pass Interception Unit Modeling of Mass Exchange Operation as Interception Unit Additional Readings Network Design and Evolution Techniques Procedure for Nearest Neighbor Algorithm Design for Direct Material Reuse/Recycle and the Matching Matrix Design for Material Regeneration Network Network Evolution Techniques Additional Readings Targeting for Waste Treatment and Total Material Networks Total Material Network Generic Procedure for Waste Stream Identification Waste Identification for Material Regeneration Network Targeting for Minimum Waste Treatment Flowrate Insights from the WTPD Additional Readings Synthesis of Pretreatment Network Basic Modeling of a Partitioning Interception Unit Pretreatment Pinch Diagram Insights on Design Principles from PPD Pretreatment Network Design with Nearest Neighbor Algorithm Synthesis of Inter-Plant Resource Conservation Networks Types of IPRCN Problems Generic Targeting Procedure for IPRCN Design of IPRCN IPRCN with Material Regeneration and Waste Treatment Additional Readings Synthesis of Batch Material Networks Types of Batch Resource Consumption Units Targeting Procedure for Direct Reuse/Recycle in a BMN without Mass Storage System Targeting Procedure for Direct Reuse/Recycle in a BMN with Mass Storage System Targeting for Batch Regeneration Network Design of a BMN Waste Treatment and Batch Total Network Additional Readings PART II MATHEMATICAL OPTIMIZATION TECHNIQUES Synthesis of Resource Conservation Networks: A Superstructural Approach Superstructural Model for Direct Reuse/Recycle Network Incorporation of Process Constraints Capital and Total Cost Estimations Reducing Network Complexity Superstructural Model for Material Regeneration Network Superstructural Model for Inter-Plant Resource Conservation Networks Additional Readings Automated Targeting Model for Direct Reuse/Recycle Networks Basic Framework and Mathematical Formulation of ATM Incorporation of Process Constraints into ATM ATM for Property Integration with Inferior Operator Level ATM for Bilateral Problems Automated Targeting Model for Material Regeneration and Pretreatment Networks Types of Interception Units and Their Characteristics ATM for RCN with Single Pass Interception Unit of Fixed Outlet Quality Type ATM for RCN with Single Pass Interception Unit of Removal Ratio Type Modeling for Partitioning Interception Unit(s) of Fixed Outlet Quality Type Modeling for Partitioning Interception Unit(s) of Removal Ratio Type ATM for RCN with Partitioning Interception Unit(s) ATM for Pretreatment Networks Additional Readings Automated Targeting Model for Waste Treatment and Total Material Networks ATM for Waste Treatment Network ATM for TMN without Waste Recycling ATM for TMN with Waste Recycling Additional Readings Automated Targeting Model for Inter-Plant Resource Conservation Networks ATM for Direct Integration Scheme—Direct Material Reuse/Recycle ATM for Direct Integration Scheme: RCNs with Individual Interception Unit ATM for IPRCNs with Centralized Utility Facility Insights from ATM for IPRCN Synthesis Further Reading Automated Targeting Model for Batch Material Networks Basic ATM Procedure for Batch Material Networks ATM for Direct Reuse/Recycle Network ATM for Batch Regeneration Network ATM for Batch Total Network Further Reading Appendix: Case Studies and Examples Index
Summary: Para lograr la sostenibilidad ambiental en las plantas industriales , las actividades de conservación de recursos , tales como la recuperación de materiales han comenzado a incorporar las técnicas de integración de procesos para la reutilización y el reciclaje de agua, gases de servicios públicos , disolventes y residuos sólidos . Integración de Procesos para la Conservación de Recursos presenta el estado de la técnica , las técnicas rentables , incluyendo el análisis de presión y optimización matemática , para numerosos problemas de conservación . Siguiendo la filosofía holística de la integración de procesos , el autor hace hincapié en el objetivo de establecer objetivos de rendimiento por delante de diseño detallado . Explica varios ejemplos industriales paso a paso y ofrece software de demostración y otros materiales en línea . Ideal para estudiantes que se preparan para el trabajo en el mundo real , así como los profesionales de la industria , el texto ofrece una guía sistemática a las últimas técnicas de integración de procesos para llevar a cabo la recuperación de materiales en las plantas de proceso .
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Item type Current location Collection Call number Vol info Copy number Status Date due Barcode Item holds
LIBRO - MATERIAL GENERAL LIBRO - MATERIAL GENERAL Biblioteca Jorge Álvarez Lleras
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Colección / Fondo / Acervo / Resguardo 660.2815 F686p (Browse shelf) Ej. 1 1 Available 023449
LIBRO - MATERIAL GENERAL LIBRO - MATERIAL GENERAL Biblioteca Jorge Álvarez Lleras
Fondo general
Colección / Fondo / Acervo / Resguardo 660.2815 F686p (Browse shelf) Ej. 2 2 Available 023450
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Incluye bibliografía e indices

Introduction
Motivating Examples
Process Synthesis and Analysis
Process Integration: A Brief Overview
Strategies for Material Recovery and Types of RCNs
Problem Statements
Structure of the Book
Data Extraction for Resource Conservation
Segregation for Material Sources
Extraction of Limiting Data for Material Sink for Concentration-Based RCN
Data Extraction for Mass Exchange Processes
Data Extraction for Hydrogen-Consuming Units in Refinery
Data Extraction for Property Integration
Additional Readings
PART I INSIGHT-BASED PINCH ANALYSIS TECHNIQUES
Graphical Targeting Techniques for Direct Reuse/Recycle
Material Recovery Pinch Diagram
Significance of the Pinch and Insights from MRPD
Targeting for Multiple Resources
Targeting for Threshold Problems
Targeting for Property Integration
Additional Readings
Algebraic Targeting Techniques for Direct Reuse/Recycle
Generic Procedure for Material Cascade Analysis Technique
Targeting for Multiple Fresh Resources
Targeting for Threshold Problems
Targeting for Property Integration with Inferior Property Operator Level
Process Changes for Resource Conservation Networks
Plus–Minus Principle
Algebraic Targeting Approach for Material Regeneration Networks
Types of Interception Units
Targeting for Single Pass Interception Unit
Modeling of Mass Exchange Operation as Interception Unit
Additional Readings
Network Design and Evolution Techniques
Procedure for Nearest Neighbor Algorithm
Design for Direct Material Reuse/Recycle and the Matching Matrix
Design for Material Regeneration Network
Network Evolution Techniques
Additional Readings
Targeting for Waste Treatment and Total Material Networks
Total Material Network
Generic Procedure for Waste Stream Identification
Waste Identification for Material Regeneration Network
Targeting for Minimum Waste Treatment Flowrate
Insights from the WTPD
Additional Readings
Synthesis of Pretreatment Network
Basic Modeling of a Partitioning Interception Unit
Pretreatment Pinch Diagram
Insights on Design Principles from PPD
Pretreatment Network Design with Nearest Neighbor Algorithm
Synthesis of Inter-Plant Resource Conservation Networks
Types of IPRCN Problems
Generic Targeting Procedure for IPRCN
Design of IPRCN
IPRCN with Material Regeneration and Waste Treatment
Additional Readings
Synthesis of Batch Material Networks
Types of Batch Resource Consumption Units
Targeting Procedure for Direct Reuse/Recycle in a BMN without Mass Storage System
Targeting Procedure for Direct Reuse/Recycle in a BMN with Mass Storage System
Targeting for Batch Regeneration Network
Design of a BMN
Waste Treatment and Batch Total Network
Additional Readings
PART II MATHEMATICAL OPTIMIZATION TECHNIQUES
Synthesis of Resource Conservation Networks: A Superstructural Approach
Superstructural Model for Direct Reuse/Recycle Network
Incorporation of Process Constraints
Capital and Total Cost Estimations
Reducing Network Complexity
Superstructural Model for Material Regeneration Network
Superstructural Model for Inter-Plant Resource Conservation Networks
Additional Readings
Automated Targeting Model for Direct Reuse/Recycle Networks
Basic Framework and Mathematical Formulation of ATM
Incorporation of Process Constraints into ATM
ATM for Property Integration with Inferior Operator Level
ATM for Bilateral Problems
Automated Targeting Model for Material Regeneration and Pretreatment Networks
Types of Interception Units and Their Characteristics
ATM for RCN with Single Pass Interception Unit of Fixed Outlet Quality Type
ATM for RCN with Single Pass Interception Unit of Removal Ratio Type
Modeling for Partitioning Interception Unit(s) of Fixed Outlet Quality Type
Modeling for Partitioning Interception Unit(s) of Removal Ratio Type
ATM for RCN with Partitioning Interception Unit(s)
ATM for Pretreatment Networks
Additional Readings
Automated Targeting Model for Waste Treatment and Total Material Networks
ATM for Waste Treatment Network
ATM for TMN without Waste Recycling
ATM for TMN with Waste Recycling
Additional Readings
Automated Targeting Model for Inter-Plant Resource Conservation Networks
ATM for Direct Integration Scheme—Direct Material Reuse/Recycle
ATM for Direct Integration Scheme: RCNs with Individual Interception Unit
ATM for IPRCNs with Centralized Utility Facility
Insights from ATM for IPRCN Synthesis
Further Reading
Automated Targeting Model for Batch Material Networks
Basic ATM Procedure for Batch Material Networks
ATM for Direct Reuse/Recycle Network
ATM for Batch Regeneration Network
ATM for Batch Total Network
Further Reading
Appendix: Case Studies and Examples
Index

Para lograr la sostenibilidad ambiental en las plantas industriales , las actividades de conservación de recursos , tales como la recuperación de materiales han comenzado a incorporar las técnicas de integración de procesos para la reutilización y el reciclaje de agua, gases de servicios públicos , disolventes y residuos sólidos . Integración de Procesos para la Conservación de Recursos presenta el estado de la técnica , las técnicas rentables , incluyendo el análisis de presión y optimización matemática , para numerosos problemas de conservación .
Siguiendo la filosofía holística de la integración de procesos , el autor hace hincapié en el objetivo de establecer objetivos de rendimiento por delante de diseño detallado . Explica varios ejemplos industriales paso a paso y ofrece software de demostración y otros materiales en línea . Ideal para estudiantes que se preparan para el trabajo en el mundo real , así como los profesionales de la industria , el texto ofrece una guía sistemática a las últimas técnicas de integración de procesos para llevar a cabo la recuperación de materiales en las plantas de proceso .

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