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GREEN CHEMISTRY

GREEN CHEMISTRY. What is it? • encourages environmentally conscious behaviour • reduces and prevents pollution • reduces the destruction of the planet. GREEN CHEMISTRY. What is it? • encourages environmentally conscious behaviour • reduces and prevents pollution

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GREEN CHEMISTRY

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  1. GREEN CHEMISTRY What is it? • encourages environmentally conscious behaviour • reduces and prevents pollution • reduces the destruction of the planet

  2. GREEN CHEMISTRY What is it? • encourages environmentally conscious behaviour • reduces and prevents pollution • reduces the destruction of the planet Basics • better to prevent waste than to treat it afterwards • aim for maximum atom economy • use processes which require fewer chemicals • don’t make products that are toxic to human health • don’t make products that are toxic to the environment • reduce the energy requirements of processes • use alternative energy resources • use renewable raw materials, not finite resources • use catalysts where possible • waste products should be designed to be biodegradable • reduce the risk of explosions and fires

  3. RECYCLING Definition “Recovering resources by collecting, separating, and processing scrap materials and using them as raw materials for manufacturing new products.”

  4. RECYCLING Definition “Recovering resources by collecting, separating, and processing scrap materials and using them as raw materials for manufacturing new products.” Why do it? • world resources are running out and are non-renewable • we need to reduce the waste of valuable resources • reduces the expense of disposal • reduces expense of making things from raw materials • avoids environmental problems posed by waste - landfill sites - greenhouse gases (mainly methane) - destroying habitats - de-forestation leading to climate change and the destruction of ecosystems

  5. RENEWABLE RESOURCES AND ENERGY

  6. RENEWABLE RESOURCES AND ENERGY Renewable resources • can be replenished by natural processes • their rate of replenishment is equal or greater than the rate of consumption • often do not contribute to global warming • often far more environmentally friendly • lead to more sustainable use of materials; resources can be used indefinitely

  7. RENEWABLE RESOURCES AND ENERGY Renewable resources • can be replenished by natural processes • their rate of replenishment is equal or greater than the rate of consumption • often do not contribute to global warming • often far more environmentally friendly • lead to more sustainable use of materials; resources can be used indefinitely Renewable energy • plant-based substances such as wood • solar energy • tidal energy • biomass • hydro-electric power (HEP) • wind power

  8. GREEN CHEMISTRY – EXAMPLES CFC’s Apparent benefits were offset by unexpected side effects.

  9. GREEN CHEMISTRY – EXAMPLES CFC’s Apparent benefits were offset by unexpected side effects. GOOD • created in 1928 as a non-toxic, non-flammable refrigerant • also used as solvents and in air conditioners • low reactivity and volatility

  10. GREEN CHEMISTRY – EXAMPLES CFC’s Apparent benefits were offset by unexpected side effects. GOOD • created in 1928 as a non-toxic, non-flammable refrigerant • also used as solvents and in air conditioners • low reactivity and volatility BAD • UV light in the upper atmosphere easily breaks the C-Cl bonds • free radicals formed speeded up the depletion of the ozone layer

  11. GREEN CHEMISTRY – EXAMPLES CFC’s Apparent benefits were offset by unexpected side effects. GOOD • created in 1928 as a non-toxic, non-flammable refrigerant • also used as solvents and in air conditioners • low reactivity and volatility BAD • UV light in the upper atmosphere easily breaks the C-Cl bonds • free radicals formed speeded up the depletion of the ozone layer CFC's break down in the presence of UV light to form chlorine radicals CCl2F2 —> Cl• + •CClF2 chlorine radicals react with ozone O3 + Cl• —> ClO• + O2 chlorine radicals are regenerated ClO• + O —> O2 + Cl• Overall, chlorine radicals are not used up so a small amount of CFC's can destroy thousands of ozone molecules before the termination stage.

  12. GREEN CHEMISTRY – EXAMPLES CFC’s Apparent benefits were offset by unexpected side effects. GOOD • created in 1928 as a non-toxic, non-flammable refrigerant • also used as solvents and in air conditioners • low reactivity and volatility BAD • UV light in the upper atmosphere easily breaks the C-Cl bonds • free radicals formed speeded up the depletion of the ozone layer CFC's break down in the presence of UV light to form chlorine radicals CCl2F2 —> Cl• + •CClF2 chlorine radicals react with ozone O3 + Cl• —> ClO• + O2 chlorine radicals are regenerated ClO• + O —> O2 + Cl• Overall, chlorine radicals are not used up so a small amount of CFC's can destroy thousands of ozone molecules before the termination stage.

  13. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral.

  14. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral. Carbon neutral refers to “an activity that has no net annual carbon (greenhouse gas) emissions to the atmosphere”. Ethanol is a biofuel.

  15. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral. Carbon neutral refers to “an activity that has no net annual carbon (greenhouse gas) emissions to the atmosphere”. Ethanol is a biofuel. ETHANOL GOOD

  16. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral. Carbon neutral refers to “an activity that has no net annual carbon (greenhouse gas) emissions to the atmosphere”. Ethanol is a biofuel. ETHANOL GOOD • bio-ethanol is made from crops (corn and sugar cane) • takes in carbon as carbon dioxide in the atmosphere • when burnt, it returns CO2 to the atmosphere • appears to be carbon neutral

  17. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral. Carbon neutral refers to “an activity that has no net annual carbon (greenhouse gas) emissions to the atmosphere”. Ethanol is a biofuel. ETHANOL GOOD • bio-ethanol is made from crops (corn and sugar cane) • takes in carbon as carbon dioxide in the atmosphere • when burnt, it returns CO2 to the atmosphere • appears to be carbon neutral BAD

  18. GREEN CHEMISTRY – EXAMPLES BIOFUELS • fuels made from a living things or the waste produced by them • renewable and potentially carbon neutral. Carbon neutral refers to “an activity that has no net annual carbon (greenhouse gas) emissions to the atmosphere”. Ethanol is a biofuel. ETHANOL GOOD • bio-ethanol is made from crops (corn and sugar cane) • takes in carbon as carbon dioxide in the atmosphere • when burnt, it returns CO2 to the atmosphere • appears to be carbon neutral BAD • energy is required to - plant and harvest - convert plants to ethanol • fertiliser and pesticides used are pollutants • crops compete for land with… crops / animals / forests • could destroy natural habitats and reduce biodiversity

  19. GREEN CHEMISTRY – EXAMPLES PLASTICS & POLYMERS Plastics have made life much easier.

  20. GREEN CHEMISTRY – EXAMPLES PLASTICS & POLYMERS Plastics have made life much easier. GOOD

  21. GREEN CHEMISTRY – EXAMPLES PLASTICS & POLYMERS Plastics have made life much easier. GOOD • many are chemically inert • non-toxic • waterproof • easy to mould • non-biodegradable • lightweight

  22. GREEN CHEMISTRY – EXAMPLES PLASTICS & POLYMERS Plastics have made life much easier. GOOD • many are chemically inert • non-toxic • waterproof • easy to mould • non-biodegradable • lightweight BAD

  23. GREEN CHEMISTRY – EXAMPLES PLASTICS & POLYMERS Plastics have made life much easier. GOOD • many are chemically inert • non-toxic • waterproof • easy to mould • non-biodegradable • lightweight BAD • made from crude oil which is a finite resource • non-biodegradable so take hundreds of years to decompose • can form toxic products during incineration • a lot of energy is used in their formation • disposal in landfill sites is - a waste of resources - environmentally unsound - takes up valuable space

  24. GREEN CHEMISTRY – EXAMPLES CATALYSTS • can be used to lower the energy required for a reaction to take place • can reduce the CO2 emissions from burning of fossil fuels • can give a better atom economy

  25. INTERNATIONAL CO-OPERATION KYOTO PROTOCOL (1997)

  26. INTERNATIONAL CO-OPERATION KYOTO PROTOCOL (1997) • over 50 developed countries pledged to cut greenhouse gas emissions • gases included carbon dioxide CO2 methane CH4 hydrofluorocarbons HFC’s perfluorocarbons PFC’s sulphur hexafluoride SF6 • some countries agreed to make larger cuts • developing countries were not required to cut emissions • the US didn’t sign up; it would have significantly affected their economy

  27. INTERNATIONAL CO-OPERATION KYOTO PROTOCOL (1997) • over 50 developed countries pledged to cut greenhouse gas emissions • gases included carbon dioxide CO2 methane CH4 hydrofluorocarbons HFC’s perfluorocarbons PFC’s sulphur hexafluoride SF6 • some countries agreed to make larger cuts • developing countries were not required to cut emissions • the US didn’t sign up; it would have significantly affected their economy But... Many experts say that the protocol is futile without US support as they are the world’s largest emitter of greenhouse gases. Countries such as India and China are going through great industrial change and they do not have to cut emissions. Cuts weren’t big enough according to many scientists, who say that a 60% cut is required to avoid the risks of global warming.

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