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Recycling of Plastics

M
Muhammed Affan

This slideshow illustrate the recycling of plastics methods and technologies

Engineering
1 of 42
Recycling of Plastics
Introduction what is recycling? Recycling is the process of converting waste materials into new materials and objects. The three chasing arrows of the international recycling logo
What’s plastic recycling? Plastic recycling is the process of recovering scrap or waste plastic and reprocessing the material into useful products, sometimes completely different in form from their original state.
Why Plastic Recycling? -In landfill, both synthetic and naturally occurring polymers don’t get the necessary exposure to UV and microbes to degrade. -Here they are taking up space and none of the energy put into making them is being reclaimed. -As petroleum prices increase it is becoming more financially viable to recycle polymers rather than produce them from raw materials. -Reclaiming the energy stored in the polymers can be done through incineration, but this can cause environmental damage by release of toxic gases into the atmosphere -Recycling is a viable alternative in getting back some of this energy in the case of some polymers.
Why Plastic Recycling?
Plastic Fact File -More than 20,000 plastic bottles are needed to obtain 1 tonne of plastic. -It is estimated that 100 million tonnes of plastics are produced each year. -The average European throws away 36kg of plastics each year. -4% of oil consumption in Europe is used for the manufacture of plastic products -Some plastic waste sacks are made from 64% recycled plastic.
Plastic Classification
Plastic Classification
Plastic Incineration Incineration of Plastics: Plastics are the most significant contributors to the energy content - calorific value - of MSW. Most waste plastics have a high calorific value (CV) – at about 40 MJ/kg - similar to fuel oil. Polymers, Fuels & Mixed waste plasticsNet calorific Value (Mj/kg) HDPE/ LDPE/ PP45 Oil40 Coal25 PVC (wide variations between rigid and flexible PVC)22
Plastic Recycling Procedure
Plastic Recycling Procedure • Collection of Plastic: 1. House to house collection. 2. Collection at a central point. 3. Collection from street boys. 4. Regular collection from shops. 5. Scavenging or collecting oneself.
Plastic Recycling Procedure • Cleaning & Sorting : Once the plastic has been collected, it will have to be cleaned and sorted. The techniques used will depend on the scale of the operation and the type of waste collected, but at the simplest level will involve hand washing and sorting of the plastic into the required groups. More sophisticated mechanical washers and solar drying can be used for larger operations. Sorting of plastics can be by polymer type (thermoset or thermoplastic for example), by product (bottles, plastic sheeting, etc.), by colour, etc.
Plastic Recycling Procedure • Cleaning & Sorting :
Plastic Recycling Procedure • Size Reducion: This is to reduce larger plastic waste to a size manageable for small machines, and to make the material denser for storage and transportation.
Plastic Recycling Procedure This can be done by two ways: 1. Shredding : 2. Agglomeration :
Plastic Recycling Procedure
Plastic Recycling Procedure • Melting & Extrusion: At this process plastics are being heated and melted to induce plastic behavior and then forced through a die to form a plastic spaghetti which can then be cooled in a water bath before being pelletized.
Plastic Recycling Procedure • Cooling : after the extrusion the hot strips are to be cooled in a cold water bath.
Plastic Recycling Procedure • Pelletization : The pelletization process is used to reduce the ‘spaghetti’ to pellets which can then be used for the manufacture of new products.
Plastic Recycling Procedure
Plastic Recycling Procedure
Plastic Recycling Procedure
Plastic Recycling Procedure These pellets are used in producing new products using 10-20% of the recycled plastics and the remaining amount is from new granulas.
Plastic Recycling Procedure
Plastic Recycling Procedure The main material of the manufacturing of these products is thermoplastic and basicly, the main used thermoplastics are: 1. PP or Polypropylene 2. PE or Polyethelyne
Recycling Techniques • Manufacturing Techniques : The mainly used techniques are : 1. Extrusion 2. Injection Moulding 3. Blow Moulding 4. Film Blowing
Recycling Techniques • Extrusion : -The extrusion process used for manufacturing new products is similar to the mentioned operation of the process preceding pelletization, except that the product is usually in the form of a continuous ‘tube’ of plastic such as piping or hose. -The reclaimed plastic is forced along the heated tube by an archimedes screw and the plastic polymer is shaped around a die.
Recycling Techniques • Extrusion :
Recycling Techniques • Injection Moulding: -The first stage of this manufacturing process is identical to that of extrusion, but then the plastic polymer emerges through a nozzle into a split mould. The quantity of polymer being forced out is carefully controlled, usually by moving the screw forward in the heated barrel. A series of moulds would be used to allow continual production while cooling takes place.
Recycling Techniques • Injection Moulding:
Recycling Techniques • Injection Moulding:
Recycling Techniques • Injection Moulding:
Recycling Techniques • Blow Moulding: Again the spiral screw forces the plasticised polymer through a die. A short piece of tube, or ‘parison’ is then enclosed between a split die which is the final shape of the product - and compressed air is used to expand the parison until it fills the mould and achieves its required shape. This manufacturing technique is used for manufacturing closed vessels such as bottles and other containers.
Recycling Techniques • Blow Moulding:
Recycling Techniques • Film Blowing: Film blowing is a process used to manufacture such items as garbage bags. It is a technically more complex process than the others described in this brief and requires high quality raw material input. The process involves blowing compressed air into a thin tube of polymer to expand it to the point where it becomes a thin film tube. One end can then be sealed and the bag or sack is formed. Sheet plastic can also be manufactured using a variation of the process described.
Recycling Techniques • Film Blowing:
The Future Scientists has recently discovered a new genereation of plastics that is The Biodegradable Plastic That is a self biodegradable material
The Future Biodegradable plastics are plastics that can be decomposed by the action of living organisms, usually bacteria. Two basic classes of biodegradable plastics exist: Bioplastics, whose components are derived from renewable raw materials, and plastics made from petrochemicals containing biodegradable additives which enhance biodegradation.
The Future Biodegradable Plastics
The Future Despite the huge benefits of the biodegradable plastic, it is still under researches and its effects on the humans animals and environment are still an issue of study. However, it can be a strong alternative of recycling process since it can achieve the same purposes of recycling operation with less or even on amount of power.
Conclusion Recycling of plastic waste is one of the most important actions currently available to reduce environmental pollution and impacts on wildlife and ecosystem. Developed industrial countries are pressing for sustainable solutions to plastic recycling and drastic reduction of plastic waste in the marine environment. There are challenges and technological hurdles in recycling but it is hoped that the trend of plastic production and disposable waste will be reversed.
Recycling of plastics Thank You For Listening

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Recycling of Plastics

  • 2. Introduction what is recycling? Recycling is the process of converting waste materials into new materials and objects. The three chasing arrows of the international recycling logo
  • 3. What’s plastic recycling? Plastic recycling is the process of recovering scrap or waste plastic and reprocessing the material into useful products, sometimes completely different in form from their original state.
  • 4. Why Plastic Recycling? -In landfill, both synthetic and naturally occurring polymers don’t get the necessary exposure to UV and microbes to degrade. -Here they are taking up space and none of the energy put into making them is being reclaimed. -As petroleum prices increase it is becoming more financially viable to recycle polymers rather than produce them from raw materials. -Reclaiming the energy stored in the polymers can be done through incineration, but this can cause environmental damage by release of toxic gases into the atmosphere -Recycling is a viable alternative in getting back some of this energy in the case of some polymers.
  • 6. Plastic Fact File -More than 20,000 plastic bottles are needed to obtain 1 tonne of plastic. -It is estimated that 100 million tonnes of plastics are produced each year. -The average European throws away 36kg of plastics each year. -4% of oil consumption in Europe is used for the manufacture of plastic products -Some plastic waste sacks are made from 64% recycled plastic.
  • 9. Plastic Incineration Incineration of Plastics: Plastics are the most significant contributors to the energy content - calorific value - of MSW. Most waste plastics have a high calorific value (CV) – at about 40 MJ/kg - similar to fuel oil. Polymers, Fuels & Mixed waste plasticsNet calorific Value (Mj/kg) HDPE/ LDPE/ PP45 Oil40 Coal25 PVC (wide variations between rigid and flexible PVC)22
  • 11. Plastic Recycling Procedure • Collection of Plastic: 1. House to house collection. 2. Collection at a central point. 3. Collection from street boys. 4. Regular collection from shops. 5. Scavenging or collecting oneself.
  • 12. Plastic Recycling Procedure • Cleaning & Sorting : Once the plastic has been collected, it will have to be cleaned and sorted. The techniques used will depend on the scale of the operation and the type of waste collected, but at the simplest level will involve hand washing and sorting of the plastic into the required groups. More sophisticated mechanical washers and solar drying can be used for larger operations. Sorting of plastics can be by polymer type (thermoset or thermoplastic for example), by product (bottles, plastic sheeting, etc.), by colour, etc.
  • 13. Plastic Recycling Procedure • Cleaning & Sorting :
  • 14. Plastic Recycling Procedure • Size Reducion: This is to reduce larger plastic waste to a size manageable for small machines, and to make the material denser for storage and transportation.
  • 15. Plastic Recycling Procedure This can be done by two ways: 1. Shredding : 2. Agglomeration :
  • 17. Plastic Recycling Procedure • Melting & Extrusion: At this process plastics are being heated and melted to induce plastic behavior and then forced through a die to form a plastic spaghetti which can then be cooled in a water bath before being pelletized.
  • 18. Plastic Recycling Procedure • Cooling : after the extrusion the hot strips are to be cooled in a cold water bath.
  • 19. Plastic Recycling Procedure • Pelletization : The pelletization process is used to reduce the ‘spaghetti’ to pellets which can then be used for the manufacture of new products.
  • 23. Plastic Recycling Procedure These pellets are used in producing new products using 10-20% of the recycled plastics and the remaining amount is from new granulas.
  • 25. Plastic Recycling Procedure The main material of the manufacturing of these products is thermoplastic and basicly, the main used thermoplastics are: 1. PP or Polypropylene 2. PE or Polyethelyne
  • 26. Recycling Techniques • Manufacturing Techniques : The mainly used techniques are : 1. Extrusion 2. Injection Moulding 3. Blow Moulding 4. Film Blowing
  • 27. Recycling Techniques • Extrusion : -The extrusion process used for manufacturing new products is similar to the mentioned operation of the process preceding pelletization, except that the product is usually in the form of a continuous ‘tube’ of plastic such as piping or hose. -The reclaimed plastic is forced along the heated tube by an archimedes screw and the plastic polymer is shaped around a die.
  • 29. Recycling Techniques • Injection Moulding: -The first stage of this manufacturing process is identical to that of extrusion, but then the plastic polymer emerges through a nozzle into a split mould. The quantity of polymer being forced out is carefully controlled, usually by moving the screw forward in the heated barrel. A series of moulds would be used to allow continual production while cooling takes place.
  • 33. Recycling Techniques • Blow Moulding: Again the spiral screw forces the plasticised polymer through a die. A short piece of tube, or ‘parison’ is then enclosed between a split die which is the final shape of the product - and compressed air is used to expand the parison until it fills the mould and achieves its required shape. This manufacturing technique is used for manufacturing closed vessels such as bottles and other containers.
  • 35. Recycling Techniques • Film Blowing: Film blowing is a process used to manufacture such items as garbage bags. It is a technically more complex process than the others described in this brief and requires high quality raw material input. The process involves blowing compressed air into a thin tube of polymer to expand it to the point where it becomes a thin film tube. One end can then be sealed and the bag or sack is formed. Sheet plastic can also be manufactured using a variation of the process described.
  • 37. The Future Scientists has recently discovered a new genereation of plastics that is The Biodegradable Plastic That is a self biodegradable material
  • 38. The Future Biodegradable plastics are plastics that can be decomposed by the action of living organisms, usually bacteria. Two basic classes of biodegradable plastics exist: Bioplastics, whose components are derived from renewable raw materials, and plastics made from petrochemicals containing biodegradable additives which enhance biodegradation.
  • 40. The Future Despite the huge benefits of the biodegradable plastic, it is still under researches and its effects on the humans animals and environment are still an issue of study. However, it can be a strong alternative of recycling process since it can achieve the same purposes of recycling operation with less or even on amount of power.
  • 41. Conclusion Recycling of plastic waste is one of the most important actions currently available to reduce environmental pollution and impacts on wildlife and ecosystem. Developed industrial countries are pressing for sustainable solutions to plastic recycling and drastic reduction of plastic waste in the marine environment. There are challenges and technological hurdles in recycling but it is hoped that the trend of plastic production and disposable waste will be reversed.
  • 42. Recycling of plastics Thank You For Listening