声明
CHAPTER 1 INTRODUCTION
1.1 Introduction
1.2 Background
1.3 Literature Review
1.4 Types of Pyrolysis
1.4.1 Slow Pyrolysis
1.4.2 Fast Pyrolysis
1.4.3 Catalytic Pyrolysis
1.4.4 Fixed bed pyrolysis
1.4.5 Rotary kiln pyrolysis
1.4.6 Steam pyrolysis
1.4.7 Plasma pyrolysis
1.4.8 Microwave pyrolysis
1.4.9 Co pyrolysis
1.4.10 Molten salt pyrolysis
1.4.11 Fluidized bed pyrolysis
1.4.12 Ablative reactor pyrolysis
1.4.13 Flash pyrolysis
1.4.14 Waste tire pyrolysis advantages and disadvantages
1.4.15 Pyrolysis products
1.4.16 Previous exergy analysis of pyrolysis process efforts
1.4.17 Life cycle assessment
1.5 Research Objective
1.6 The China’s First Enviro Plant
1.7 Research Layout
CHAPTER 2 THEORETICAL BACKGROUND
2.1 The Chemical Process of Pyrolysis
2.1.1 Fundamentals of Conventional Heating
2.1.2 Thermal conductivity
2.2 Heat transfer coefficient
2.2.1 Biot Number Limit
2.2.2 Fourier Number
2.2.3 Transient heat conduction
2.2.4 Exact solution of one-dimensional transient heat
CHAPTER 3 MATERIALS AND METHODS
3.1 Materials
3.1.1 Waste Tire Size Reduction
3.2 Tubular Furnace Reactor
3.2.1 Appropriate Conditions when performing microwave pyrolysis
3.2.2 Illustration of pyrolysis
3.2.3 Pyrolysis Experimental Set-up and Sampling Procedure Variables
3.3 Product Analyses
3.4 The Reaction of MW on tire chips
3.3 Analytical Methods
3.4.1 Surface area and Porosity
3.4.2 Fourier transform Infrared Spectroscopy
3.4.3 BET surface analysis
3.4.3 Nuclear magnetic Resonance (1HNMR)
CHAPTER 4 RESULTS AND DISCUSSION
4.1 Proximate and Ultimate analysis
4.2 Product Yield
4. 3 Bio oil Analysis
4.4 Bio char analysis
4.4.1 Surface area analysis BET
4.5 Fourier Transform Infrared Spectroscopy (FT-IR)
CHAPTER 5 CONCLUSION
5.1 Conclusion
5.2 Recommendations
参考文献
致谢
东南大学;
