GREEN CHEMISTRY AND ENGINEERING: A Practical Design Approach; CONTENTS; PREFACE; PART I: GREEN CHEMISTRY AND GREEN ENGINEERING IN THE MOVEMENT TOWARD SUSTAINABILITY; 1 GREEN CHEMISTRY AND ENGINEERING IN THE CONTEXT OF SUSTAINABILITY; 1.1 WHY GREEN CHEMISTRY?; 1.2 GREEN CHEMISTRY, GREEN ENGINEERING, AND SUSTAINABILITY; 1.3 UNTIL DEATH DO US PART: A MARRIAGE OF DISCIPLINES; PROBLEMS; REFERENCES; 2 GREEN CHEMISTRY AND GREEN ENGINEERING PRINCIPLES; 2.1 GREEN CHEMISTRY PRINCIPLES; 2.2 TWELVE MORE GREEN CHEMISTRY PRINCIPLES; 2.3 TWELVE PRINCIPLES OF GREEN ENGINEERING.2.4 the san destin declaration: principles of green engineering2.5 simplifying the principles; problems; references; 3 starting with the basics: integrating environment, health, and safety; 3.1 environmental issues of importance; 3.2 health issues of importance; 3.3 safety issues of importance; 3.4 hazard and risk; 3.5 integrated perspective on environment, health, and safety; problems; references; 4 how do we know it's green? a metrics primer; 4.1 general considerations about green chemistry and engineering metrics; 4.2 chemistry metrics; 4.3 process metrics.4.4 cost implications and green chemistry metrics4.5 a final word on green metrics; problems; references; part ii: the beginning: designing greener, safer chemical syntheses; 5 route and chemistry selection; 5.1 the challenge of synthetic chemistry; 5.2 making molecules; 5.3 using different chemistries; 5.4 route strategy; 5.5 protection-deprotection; 5.6 going from a route to a process; problems; references; 6 material selection: solvents, catalysts, and reagents; 6.1 solvents and solvent selection strategies; 6.2 catalysts and catalyst selection strategies; 6.3 other reagents; problems.Part iii: from the flask to the plant: designing greener, safer, more sustainable manufacturing processes9 mass and energy balances; 9.1 why we need mass balances, energy balances, and process flow diagrams; 9.2 types of processes; 9.3 process flow diagrams; 9.4 mass balances; 9.5 energy balances; 9.6 measuring greenness of a process through energy and mass balances; problems; references; 10 the scale-up effect; 10.1 the scale-up problem; 10.2 factors affecting scale-up; 10.3 scale-up tools; 10.4 numbering-up vs. scaling-up; problems; references; 11 reactors and separations.