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Sl.no Tableof Contents Pg.No 1 ABSTRACT 1 1.1 Literature 2. INTRODUCTION 2 3 SOURCES AND PROPERTIES OF PLASTIC WASTES 4 3.1 . Industrial plastic wastes 4 HISTORY AND DIFFERENT METHODS OF PLASTIC WASTE 6 MANAGEMENT 4.1 Land filling 4.2. Mechanical recycling 4.3. Biological recycling 4.4. Thermal recycling/incineration 4.5 Chemical recycling 4.6 .Depolymerisation 4.7 Cracking/pyrolysis 4.8 Thermal cracking. 4.9 Catalytic cracking/pyrolysis. 5. AIM: 12 5.1 Pyrolysis of plastic waste to liquid fuel-the process 5.2. Thermal pyrolysis of polyolefin 5.3. Catalytic cracking of polyolefins 5.4 Pyrolysis 6. PRINCIPLE 14 7 MATERIALS USED FOR THE EXPERIMENT 15 7.1 Phases of Project: 8. COMPONENTS 17 8.1 Reactor 8.1.3 The advantage of cast iron reactor 8.1.4 Disadvantages of Cast Iron Reactor: 8.1.5 Dimensions:
8.1.6 Reactor fittings and accessories 8.2 Flange and Gasket: 8.2.1 Flange gasket 8.3 Heat Exchanger: 8.3.1 Heat Exchanger Types and Selection 8.3.2 Heat Exchangers Selection 8.3.4 Component of Heat Exchanger 8.3.7 Advantages of using copper in heat exchanger 8.3.9 Advantages of using stainless steel 8.4 Cyclone separator: 8.4.2. Advantages of using a Stainless Steel Separator: 9. METHODOLOGY 38 10 ADVANTAGES 39 11. REFERENCES: 40

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  • 1. Sl.no Tableof Contents Pg.No 1 ABSTRACT 1 1.1 Literature 2. INTRODUCTION 2 3 SOURCES AND PROPERTIES OF PLASTIC WASTES 4 3.1 . Industrial plastic wastes 4 HISTORY AND DIFFERENT METHODS OF PLASTIC WASTE 6 MANAGEMENT 4.1 Land filling 4.2. Mechanical recycling 4.3. Biological recycling 4.4. Thermal recycling/incineration 4.5 Chemical recycling 4.6 .Depolymerisation 4.7 Cracking/pyrolysis 4.8 Thermal cracking. 4.9 Catalytic cracking/pyrolysis. 5. AIM: 12 5.1 Pyrolysis of plastic waste to liquid fuel-the process 5.2. Thermal pyrolysis of polyolefin 5.3. Catalytic cracking of polyolefins 5.4 Pyrolysis 6. PRINCIPLE 14 7 MATERIALS USED FOR THE EXPERIMENT 15 7.1 Phases of Project: 8. COMPONENTS 17 8.1 Reactor 8.1.3 The advantage of cast iron reactor 8.1.4 Disadvantages of Cast Iron Reactor: 8.1.5 Dimensions:
  • 2. 8.1.6 Reactor fittings and accessories 8.2 Flange and Gasket: 8.2.1 Flange gasket 8.3 Heat Exchanger: 8.3.1 Heat Exchanger Types and Selection 8.3.2 Heat Exchangers Selection 8.3.4 Component of Heat Exchanger 8.3.7 Advantages of using copper in heat exchanger 8.3.9 Advantages of using stainless steel 8.4 Cyclone separator: 8.4.2. Advantages of using a Stainless Steel Separator: 9. METHODOLOGY 38 10 ADVANTAGES 39 11. REFERENCES: 40