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Plastic Waste Treatment and Management: Gasification Processes

✍ Scribed by Rezgar Hasanzadeh, Parisa Mojaver

Publisher
Springer
Year
2023
Tongue
English
Leaves
137
Series
Engineering Materials
Category
Library
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✦ Synopsis

This book offers an overview of the gasification process as a crucial thermochemical method for addressing the problem of plastic waste. The authors explore various strategies to minimize post-consumer plastic waste and provide a detailed analysis of one of the most promising methods for converting it into high-value products. The chapters reports on the gasification process and its potential for transforming plastic waste into energy and valuable resources. Readers will learn about methods for reducing plastic waste and treating them using the gasification process. Thermochemical processes for upcycling plastic waste into products with higher value, such as chemicals, fuels, and advanced materials are also covered in this book.

✦ Table of Contents

Preface
Contents
Contributors
Plastic Types and Applications
1 Definition and Essential Concepts
2 Classifications
2.1 Origin
2.2 Structure of Repeating Unit
2.3 Chain Structure
2.4 Thermal Response
2.5 Polymerization Process
2.6 Polymerization Mechanism and Kinetics
2.7 Tacticity
2.8 Form and Uses
3 Applications
3.1 Packaging
3.2 Textile
3.3 Hydrogels
3.4 Shape Memory Polymers
3.5 Self-Cleaning Polymers
3.6 Biomedical Applications
3.7 Energy Generation and Storage
3.8 Water and Wastewater Treatment
4 Conclusions
References
Collected Plastic Waste Forecasting by 2050
1 Introduction
2 Preliminary Data Analysis
2.1 Global Plastic Production
2.2 Global Plastic Waste Generation
3 Models for Time Series Forecasting
3.1 Regression
3.2 Simple Linear Regression
3.3 Polynomial Regression
3.4 Autoregressive Integrated Moving Average (ARIMA)
4 Projections Until 2050 Using Mentioned Algorithms
4.1 Global Plastic Production Forecasting
4.2 Global Plastic Waste Generation
5 Plastic Waste Management Scenarios
6 Conclusions
References
Plastic Waste Gasification
1 Introduction
2 Thermochemical Processes of Plastic Waste Management
3 Gasification
3.1 Drying Region
3.2 Pyrolysis Region
3.3 Oxidation Region
3.4 Reduction Region
4 Types of Gasifier
4.1 Up-Draft Gasifier
4.2 Down-Draft Gasifier
4.3 Cross-Draft Gasifier
4.4 Fluidized Bed Gasifier
4.5 Entrained Bed Gasifier
References
Air Plastic Waste Gasification
1 Air Gasification Process
2 Air Gasification Modeling of Plastic Waste by Equilibrium Constant Method
3 Air Gasification Modeling of Plastic Waste by Gibbs/Lagrange Coupled Method
4 Energy Analysis on Air Gasification of Plastic Waste
5 Exergy Analysis on Air Gasification of Plastic Waste
6 Performance Evaluation of Air Gasification of Plastic Waste
7 Modeling Validation of Air Gasification of Plastic Waste
7.1 Modeling Validation of Air Gasification of Plastic Waste Based on Equilibrium Constant Method
7.2 Modeling Validation of Air Gasification of Plastic Waste Based on Gibbs/Lagrange Coupled Method
References
Steam Plastic Waste Gasification
1 Steam Gasification Process
2 Steam Gasification Modeling of Plastic Waste by Equilibrium Constant Method
3 Steam Gasification Modeling of Plastic Waste by Gibbs/Lagrange Coupled Method
4 Energy Analysis on Steam Gasification of Plastic Waste
5 Exergy Analysis on Steam Gasification of Plastic Waste
6 Performance Evaluation of Steam Gasification of Plastic Waste
7 Modeling Validation of Steam Gasification of Plastic Waste
7.1 Modeling Validation of Steam Gasification of Plastic Waste Based on Equilibrium Constant Method
7.2 Modeling Validation of Steam Gasification of Plastic Waste Based on Gibbs/Lagrange Coupled Method
References
Evaluation of Air Polyurethane Foam Waste Gasification
1 Introduction
2 Air Gasification Evaluation of Flexible Polyurethane Foam Waste
3 Effect of Moisture Content on Air Gasification of Flexible Polyurethane Foam Waste
4 Effect of Equivalence Ratio on Air Gasification of Flexible Polyurethane Foam Waste
5 Effect of Temperature on Air Gasification of Flexible Polyurethane Foam Waste
6 Conclusions
References
Evaluation of Steam Polyurethane Foam Waste Gasification
1 Steam Gasification Evaluation of Flexible Polyurethane Foam Waste
2 Effect of Moisture Content on Steam Gasification of Flexible Polyurethane Foam Waste
3 Effect of Steam to Flexible Polyurethane Foam Waste Ratio on Steam Gasification of Flexible Polyurethane Foam Waste
4 Effect of Temperature on Steam Gasification of Flexible Polyurethane Foam Waste
5 Conclusions
References
Multi-criteria Decision-Making Analysis of Plastic Waste Gasification
1 Plastic Waste Types Considered for Multi-criteria Decision Analysis
2 Performance of Plastic Waste Types in Air Gasification
3 Performance of Plastic Waste Types in Steam Gasification
4 Technique for Order Preference by Similarity to Ideal Solution (Topsis)
5 Topsis Analysis for Plastic Waste Gasification
5.1 TOPSIS Analysis for Plastic Waste Air Gasification
5.2 TOPSIS Analysis for Plastic Waste Steam Gasification
6 Closing Remarks
References

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