Waste-to-Energy: Multi-Criteria Decision Analysis for Sustainability Assessment and Ranking offers a comprehensive view of the technologies and processes for energy generation as a path for waste treatment, presenting all the necessary information and tools for selecting the most sustainable waste-to-energy solution under varying conditions. The book combines methods such as lifecycle assessment, sustainability assessment, multi-criteria decision-making, and multi-objective optimization modes. In addition, it provides an overview of waste-to-energy feedstocks, technologies and implementation, then goes on to investigate the critical factors and key enablers that influence the sustainable development of the waste-to-energy industry.
The book proposes several decision-making methods for the ranking and selection of waste-to-energy scenarios under different levels of certainty and information availability, including multi-criteria, multi-actor and multi-attribute methods. Finally, the book employs lifecycle tools that allow the assessment of economic, environmental and social sustainability of waste-to-energy systems.
- Explores existing and state-of-the-art waste to energy technologies and systems, as well as their feedstock requirements
- Presents a wide perspective of sustainability issues of waste-to-energy technologies, also discussing critical influential factors or key enablers for promoting the sustainable development of waste-to-energy solutions
- Provides multi-dimensional decision-making techniques for choosing the most suitable and sustainable waste-to-energy technologies for different scenarios
2. Sustainability Assessment of Waste Management: Methods and Indicators
3. An Overview of Waste-to-Energy: Feedstocks, Technologies and Implementations
4. Success Factors and Policy Implications of Waste-to-Energy based on DEMATEL
5. Multi-criteria Sustainability Assessment of Waste-to-Energy Technologies
6. Lie Cycle Multi-Criteria Sustainability Ranking of Waste-to-Energy Technologies based on Life Cycle Thinking and Multi-Criteria Decision-Making Method
7. Multi-Actor Multi-Criteria Decision-Making on Selecting Waste-To-Energy Technologies
8. Multi-Criteria Decision-making on Selecting Waste-To-Energy Technologies under Uncertainties and Incomplete Information
9. Multi-Attribute Decision-making for Sustainability Ranking of Waste-to-Energy technologies based on Hybrid Information: A Generic Framework
Jingzheng Ren (Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University, Hong Kong SAR, China) is an Assistant Professor of Modelling for Energy, Environment, and Sustainability, Department of Industrial and Systems Engineering, The Hong Kong Polytechnic University, and Honorary Associate Professor of Engineering Operations Management, University of Southern Denmark. His research mainly focuses on process system engineering, sustainability-oriented decision-making and waste management. He serves as the Editor of Sustainable Production and Consumption (Elsevier), Associate Editor of Environment, Development and Sustainability (Springer), and Associate Editor of Journal of Renewable and Sustainable Energy. He has edited 5 books and published more than 130 journal papers in the finest journals, i.e., AIChE J, Computers & Chemical Engineering, Green Chemistry, ACS Sustainable Chemistry & Engineering, Science of the Total Environment, Chemosphere, Energy, and Energy Conversion and Management, etc.