Read Anywhere and on Any Device!

Subscribe to Read | $0.00

Join today and start reading your favorite books for Free!

Read Anywhere and on Any Device!

  • Download on iOS
  • Download on Android
  • Download on iOS

Energy: Environmental Toxicological Chemistry for a Sustainable Energy Future

Energy: Environmental Toxicological Chemistry for a Sustainable Energy Future

Stanley E. Manahan
0/5 ( ratings)
As its title implies, Energy: Environmental Toxicological Chemistry for a Sustainable Energy Future, addresses sustainable energy from the viewpoint of environmental and toxicological chemistry. The topics covered in the book are the following:

Chapter 1 Environmental/Toxicological Chemistry: Introduction: What is Environmental Chemistry?, The Environment and Evolution of the Environmental Movement, Environmental Chemistry of the Hydrosphere, Environmental Chemistry of the Atmosphere, Environmental Chemistry of the Geosphere, Environmental Biochemistry of the Biosphere, The Anthrosphere and Environmental Chemistry, Sustainability: Industrial Ecology and Green Chemistry, Industrial Hygiene and Occupational Health, Summary: Environmental Chemistry and Sustaining Our Home.

Chapter 2 An Overview of Energy: The Energy Problem, Nature of Energy, Sustainable Energy: Away from the Sun and Back Again, Sources of Energy Used in the Anthrosphere: Present and Future, Energy Devices and Conversions, Green Technology and Energy Conversion Efficiency, Energy Conservation and Renewable Energy Sources, Hydrogen As a Means to Store and Utilize Energy, Combined Power Cycles.

Chapter 3 Fossil Fuels: Petroleum Hydrocarbons and Natural Gas Liquids, Natural Gas, Coal, 3.4 Carbon Sequestration for Fossil Fuel Utilization, The Great Plains Synfuels Plant: Industrial Ecology in Practice to Produce Energy and Chemicals

Chapter 4 Nuclear Energy: Nuclear Energy, The Future of Nuclear Energy, Thorium-Fueled Reactors, Nuclear Fusion.

Chapter 5 Renewable Energy: Sun, Wind, Water, and Hot Rock: Renewable Energy Sources, Geothermal Energy, The Sun: An Ideal, Renewable Energy Source, Energy from Earth’s Two Great Fluids in Motion.

Chapter 6 Biofuels and Bioenergy: Biomass Energy: An Overview of Biofuels and their Resources, Processing of Biofuel to More Compact Forms, Decarbonization with Biomass Utilization, Conversion of Biomass to Other Fuels, The Unrealized Potential of Lignocellulose Fuels, Chemical Conversion of Biomass to Synthetic Fuels, Biogas, Biorefineries and Systems of Industrial Ecology for Utilizing Biomass.

Chapter 7 Environmental Health and Energy Production: Environmental Health Aspects of Energy Production and Utilization, Environmental Health Aspects of Coal Production and Utilization, Environmental Health Aspects of Petroleum Production and Utilization, Environmental Health and Nuclear Energy

Chapter 8 Chemistry Fundamentals: The Science of Matter, Elements, Chemical Bonding, Chemical Reactions and Equations, Solutions, The Gas Laws

Chapter 9 Organic Chemistry: Organic Chemistry and Energy, Hydrocarbons, Using Lines to Show Structural Formulas, Functional Groups, Giant Molecules from Small Organic Molecules
Pages
250
Format
Kindle Edition

Energy: Environmental Toxicological Chemistry for a Sustainable Energy Future

Stanley E. Manahan
0/5 ( ratings)
As its title implies, Energy: Environmental Toxicological Chemistry for a Sustainable Energy Future, addresses sustainable energy from the viewpoint of environmental and toxicological chemistry. The topics covered in the book are the following:

Chapter 1 Environmental/Toxicological Chemistry: Introduction: What is Environmental Chemistry?, The Environment and Evolution of the Environmental Movement, Environmental Chemistry of the Hydrosphere, Environmental Chemistry of the Atmosphere, Environmental Chemistry of the Geosphere, Environmental Biochemistry of the Biosphere, The Anthrosphere and Environmental Chemistry, Sustainability: Industrial Ecology and Green Chemistry, Industrial Hygiene and Occupational Health, Summary: Environmental Chemistry and Sustaining Our Home.

Chapter 2 An Overview of Energy: The Energy Problem, Nature of Energy, Sustainable Energy: Away from the Sun and Back Again, Sources of Energy Used in the Anthrosphere: Present and Future, Energy Devices and Conversions, Green Technology and Energy Conversion Efficiency, Energy Conservation and Renewable Energy Sources, Hydrogen As a Means to Store and Utilize Energy, Combined Power Cycles.

Chapter 3 Fossil Fuels: Petroleum Hydrocarbons and Natural Gas Liquids, Natural Gas, Coal, 3.4 Carbon Sequestration for Fossil Fuel Utilization, The Great Plains Synfuels Plant: Industrial Ecology in Practice to Produce Energy and Chemicals

Chapter 4 Nuclear Energy: Nuclear Energy, The Future of Nuclear Energy, Thorium-Fueled Reactors, Nuclear Fusion.

Chapter 5 Renewable Energy: Sun, Wind, Water, and Hot Rock: Renewable Energy Sources, Geothermal Energy, The Sun: An Ideal, Renewable Energy Source, Energy from Earth’s Two Great Fluids in Motion.

Chapter 6 Biofuels and Bioenergy: Biomass Energy: An Overview of Biofuels and their Resources, Processing of Biofuel to More Compact Forms, Decarbonization with Biomass Utilization, Conversion of Biomass to Other Fuels, The Unrealized Potential of Lignocellulose Fuels, Chemical Conversion of Biomass to Synthetic Fuels, Biogas, Biorefineries and Systems of Industrial Ecology for Utilizing Biomass.

Chapter 7 Environmental Health and Energy Production: Environmental Health Aspects of Energy Production and Utilization, Environmental Health Aspects of Coal Production and Utilization, Environmental Health Aspects of Petroleum Production and Utilization, Environmental Health and Nuclear Energy

Chapter 8 Chemistry Fundamentals: The Science of Matter, Elements, Chemical Bonding, Chemical Reactions and Equations, Solutions, The Gas Laws

Chapter 9 Organic Chemistry: Organic Chemistry and Energy, Hydrocarbons, Using Lines to Show Structural Formulas, Functional Groups, Giant Molecules from Small Organic Molecules
Pages
250
Format
Kindle Edition

Rate this book!

Write a review?

loader