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Sustainability in the design, synthesis and analysis of chemical engineering processes / [electronic resource]

by Ruiz Mercado, Gerardo [editor.]; Cabezas, Heriberto [editor.].
Material type: materialTypeLabelBookPublisher: Kidlington, Oxford, UK : Butterworth-Heinemann is an imprint of Elsevier, 2016.Description: 1 online resource.ISBN: 9780128020647; 0128020644.Subject(s): Chemical processes | Green chemistry | SCIENCE -- Chemistry -- Industrial & Technical | TECHNOLOGY & ENGINEERING -- Chemical & Biochemical | Chemical processes | Green chemistry | Electronic booksOnline resources: ScienceDirect
Contents:
Intro; Title page; Table of Contents; Copyright; Dedication; About the Authors; Acknowledgment; Foreword; Preface; Chapter One. Towards More Sustainable Chemical Engineering Processes: Integrating Sustainable and Green Chemistry Into the Engineering Design Process; Chapter Two. Separations Versus Sustainability: There Is No Such Thing As a Free Lunch; Chapter Three. Conceptual Chemical Process Design for Sustainability; Chapter Four. Process Integration for Sustainable Design; Chapter Five. Modeling and Advanced Control for Sustainable Process Systems.
Chapter Six. Sustainable Engineering Economic and Profitability AnalysisChapter Seven. Managing Conflicts Among Decision Makers in Multiobjective Design and Operations; Chapter Eight. Sustainable System Dynamics: A Complex Network Analysis; Chapter Nine. Process Synthesis by the P-Graph Framework Involving Sustainability; Chapter Ten. Sustainability Assessment and Performance Improvement of Electroplating Process Systems; Chapter Eleven. Strategic Sustainable Assessment of Retrofit Design for Process Performance Evaluation.
Chapter Twelve. Chemical Engineering and Biogeochemical Cycles: A Techno-Ecological Approach to Industry SustainabilityChapter Thirteen. Challenges for Model-Based Life Cycle Inventories and Impact Assessment in Early to Basic Process Design Stages; Chapter Fourteen. Life Cycle Sustainability Assessment: A Holistic Evaluation of Social, Economic, and Environmental Impacts; Chapter Fifteen. Embedding Sustainability in Product and Process Development-The Role of Process Systems Engineers; Index; Underpinnings of Green Chemistry; The Principles and Implications.
Problems With Chemicals and Reaction SpacesThinking About What More Sustainable Chemistry and Chemical Manufacturing Might Look Like; Tying It All Together; The Separations Dilemma and Imperative; Methods of Analysis; Separation Alternatives; Examples; Concluding Thoughts; Conceptual Chemical Process Design; Sustainability Approach for Chemical Processes; Example: Chlor-Alkali Production with Human Toxicity Potential Analysis; Discussion; Conclusions; Introduction; Mass Integration; Property Integration; Energy Integration; Multiscale Approaches; Conclusions.
Introduction to Sustainable Process SystemsProposed Approach: Modeling, Advanced Control, and Sustainability Assessment; Case Study: Fermentation for Bioethanol Production System; Sustainability Assessment and Process Control; Conclusions and Future Directions; Nomenclature; Introduction; Economic Sustainability Analysis; Environmental Sustainability Analysis; Social Sustainability Analysis; Evaluation of Design Alternatives by Considering Various Sustainability Measures; Example: Bioethanol Process; Concluding Remarks; Nomenclature; Introduction; Approach; Illustrative Examples; Conclusions.
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Includes index.

Online resource; title from PDF title page (ScienceDirect, viewed June 22, 2016).

Intro; Title page; Table of Contents; Copyright; Dedication; About the Authors; Acknowledgment; Foreword; Preface; Chapter One. Towards More Sustainable Chemical Engineering Processes: Integrating Sustainable and Green Chemistry Into the Engineering Design Process; Chapter Two. Separations Versus Sustainability: There Is No Such Thing As a Free Lunch; Chapter Three. Conceptual Chemical Process Design for Sustainability; Chapter Four. Process Integration for Sustainable Design; Chapter Five. Modeling and Advanced Control for Sustainable Process Systems.

Chapter Six. Sustainable Engineering Economic and Profitability AnalysisChapter Seven. Managing Conflicts Among Decision Makers in Multiobjective Design and Operations; Chapter Eight. Sustainable System Dynamics: A Complex Network Analysis; Chapter Nine. Process Synthesis by the P-Graph Framework Involving Sustainability; Chapter Ten. Sustainability Assessment and Performance Improvement of Electroplating Process Systems; Chapter Eleven. Strategic Sustainable Assessment of Retrofit Design for Process Performance Evaluation.

Chapter Twelve. Chemical Engineering and Biogeochemical Cycles: A Techno-Ecological Approach to Industry SustainabilityChapter Thirteen. Challenges for Model-Based Life Cycle Inventories and Impact Assessment in Early to Basic Process Design Stages; Chapter Fourteen. Life Cycle Sustainability Assessment: A Holistic Evaluation of Social, Economic, and Environmental Impacts; Chapter Fifteen. Embedding Sustainability in Product and Process Development-The Role of Process Systems Engineers; Index; Underpinnings of Green Chemistry; The Principles and Implications.

Problems With Chemicals and Reaction SpacesThinking About What More Sustainable Chemistry and Chemical Manufacturing Might Look Like; Tying It All Together; The Separations Dilemma and Imperative; Methods of Analysis; Separation Alternatives; Examples; Concluding Thoughts; Conceptual Chemical Process Design; Sustainability Approach for Chemical Processes; Example: Chlor-Alkali Production with Human Toxicity Potential Analysis; Discussion; Conclusions; Introduction; Mass Integration; Property Integration; Energy Integration; Multiscale Approaches; Conclusions.

Introduction to Sustainable Process SystemsProposed Approach: Modeling, Advanced Control, and Sustainability Assessment; Case Study: Fermentation for Bioethanol Production System; Sustainability Assessment and Process Control; Conclusions and Future Directions; Nomenclature; Introduction; Economic Sustainability Analysis; Environmental Sustainability Analysis; Social Sustainability Analysis; Evaluation of Design Alternatives by Considering Various Sustainability Measures; Example: Bioethanol Process; Concluding Remarks; Nomenclature; Introduction; Approach; Illustrative Examples; Conclusions.

Includes bibliographical references and index.

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