Efficiency and sustainability in the energy and chemical industries : science principles and case studies

Includes new chapters on plastics recycling technologies and challenges, low carbon energy sources, the changing energy mix, and on project economics, taxes, and subsidies Illustrates techniques with wide-ranging case studies related to energy conversion, mining, and the chemical industries as well as examples and problems Considers engineering layouts that reduce the environmental impact of chemical operations Explains how to use energy analysis to accurately assess the quality and performance of chemical processes Supplies quantitative tools for analyzing sustainability and efficiency Investigates the challenges of the hydrogen economy and CO2

PART I Basics Chapter 1 Introduction Chapter 2 Thermodynamics Revisited Chapter 3 Energy "Consumption" and Lost Work Chapter 4 Entropy Generation: Cause and Effect Chapter 5 Reduction of Lost Work PART II Thermodynamic Analysis of Processes Chapter 6 Exergy, a Convenient Concept Chapter 7 Chemical Exergy Chapter 8 Simple Applications PART III Case Studies Chapter 9 Energy Conversion Chapter 10 Separations Chapter 11 Chemical Conversion Chapter 12 A Note on Life Cycle Analysis PART IV Sustainability Chapter 13 Sustainable Development Chapter 14 Efciency and Sustainability in the Chemical Process Industry Chapter 15 Plastics Recycling Chapter 16 Project Economics, Taxes, and Subsidies for Sustainability Chapter 17 Low Carbon Chapter 18 A Changing Energy Mix Chapter 19 CO 2 Capture and Sequestration Chapter 20 Sense and Nonsense of Green Chemistry and Biofuels Chapter 21 Solar Energy Conversion Chapter 22 Hydrogen: Fuel of the Future? Chapter 23 Future Trends