Sustainability of products, processes and supply chains : theory and applications /

Sustainability of Products, Processes and Supply Chains: Theory and Applications presents the recent theoretical developments and applications on the interface between sustainability and process systems engineering. It offers a platform for cutting-edge, holistic analyses of key challenges associate...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: You, Fengqi (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Amsterdam : Elsevier, [2015]
Colección:Computer-aided chemical engineering ; 36.
Temas:
Sustainable engineering.
Sustainable design.
Ing�enierie durable.
�Ecoconception.
sustainable architecture.
TECHNOLOGY & ENGINEERING > Environmental > General.
Acceso en línea:Texto completo
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Tabla de Contenidos:
  • Front Cover; Sustainability of Products, Processes and Supply Chains: Theory and Applications; Copyright; Contents; List of Contributors; Preface; Part I
  • Process design and optimization for sustainability; Chapter 1
  • Optimization Models for Process Water Networks and Their Application to Biofuel Processes; 1.1 INTRO/MOTIVATION; 1.2 WATER NETWORK; 1.3 BIOREFINERY PROCESSES; 1.4 WATER OPTIMIZATION IN BIOPROCESSES; 1.5 CONCLUSIONS; Acknowledgments; REFERENCES; Chapter 2
  • Energy Efficient Chiller Configuration-A Design Perspective; 2.1 INTRODUCTION; 2.2 CHILLER ARRANGEMENTS.
  • 2.3 MODELING ENERGY EFFICIENCY OF A CENTRIFUGAL CHILLER2.4 COMPARISON OF ENERGY EFFICIENCY-SERIES VERSUS PARALLEL; 2.5 CONCLUSIONS; NOMENCLATURE; REFERENCES; Chapter 3
  • Modeling Sustainable Chemical Processes for Biofuels; 3.1 INTRODUCTION; 3.2 INTRODUCTION TO ALGAE PROCESSING; 3.3 PHYSICAL PROPERTIES; 3.4 RUNNING ASPEN IN REVERSE; 3.5 SUSTAINABILITY MODELS; 3.6 CARBON AND WATER MANAGEMENT; 3.7 ENERGY MANAGEMENT AND LOST WORK; 3.8 TECHNOECONOMIC MODELS; 3.9 OVERALL SUSTAINABILITY INDEX; 3.10 CONCLUSIONS; REFERENCES.
  • Chapter 4
  • Sustainable Design and Operation of a Reactive Distillation System Used for the Production of Cosmetic Ingredients4.1 INTRODUCTION; 4.2 PROPOSED METHODOLOGY; 4.3 RESULTS AND DISCUSSION; 4.4 CONCLUSIONS; APPENDIX; LIST OF ACRONYMS USED; LIST OF SYMBOLS USED; Acknowledgments; REFERENCES; Chapter 5
  • A Graphical Method for Hydrogen Network Integration with Purification Reuse; 5.1 BACKGROUND; 5.2 HYDROGEN NETWORK INTEGRATION; 5.3 GRAPHICAL METHOD; 5.4 GRAPHICAL METHOD WITH FIXED PURIFICATION PARAMETERS (ZHANG ET AL., 2011).
  • 5.5 CASE STUDY FOR GRAPHICAL METHOD WITH FIXED PURIFICATION PARAMETERS (ZHANG ET AL., 2011)5.6 GRAPHICAL METHOD FOR THE OPTIMIZATION OF PURIFICATION REUSE (ZHANG ET AL., 2014); 5.7 CASE STUDY FOR GRAPHICAL METHOD WITH OPTIMIZED PURIFICATION PERFORMANCE (ZHANG ET AL., 2014); 5.8 CONCLUSIONS; REFERENCES; Chapter 6
  • A New Biochemical Fermentation Process Design Method Considering Bifurcations and Oscillations; 6.1 INTRODUCTION; 6.2 DYNAMIC MODEL OF FERMENTATION PROCESS; 6.3 IDENTIFICATION OF HOPF SINGULARITIES; 6.4 HOPF SINGULARITIES IN THE Z. MOBILIS FERMENTATION PROCESS.
  • 6.5 REGULATION OF OSCILLATORY PHENOMENA6.6 OPERATING CONDITION OPTIMIZATION; 6.7 DISCUSSION; 6.8 CONCLUSION; APPENDIX; NOMENCLATURE; Acknowledgments; REFERENCES; Part II
  • Carbon capture, utilization and sequestration; Chapter 7
  • Sustainable Process Design: Sustainable Process Networks for Carbon Dioxide Conversion; 7.1 INTRODUCTION; 7.2 IDENTIFYING MORE SUSTAINABLE DESIGNS; 7.3 METHOD AND TOOLS; 7.4 MORE SUSTAINABLE CO2 CONVERSION PROCESS DESIGNS; 7.5 CONCLUSIONS; REFERENCES; Chapter 8
  • Pressure Swing Adsorption Optimization Strategies for CO2 Capture; 8.1 INTRODUCTION.

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