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Full Description
Materials and processes for industrial decarbonization, including CO2 management technologies, are being developed to reduce the carbon footprint for CO2-intensive industries, including power plants, the chemical and refining industries, and construction/building sectors. This book, the first of its kind in industrial decarbonization, presents the research and development efforts in materials and processes for industrial decarbonization, including but not limited to chemical, cement, iron/steel, paper/pulp, building and other industries.
• Discusses global efforts to decarbonize industrial processes through continuous advances in the development of novel thermo-, electro- and photocatalytic materials and processes for decarbonization at or beyond the R&D stage.
• Presents life cycle assessment (LCA) and technical-economic analyses (TEA) to measure environmental impacts and determine the feasibility of advanced decarbonization technologies.
• Introduces the industrial decarbonization market, focusing on the market-based strategies to reduce carbon emissions.
• Outlines challenges of the development of advanced materials for CCUS technologies.
• Discusses computational modelling work with respect to carbon mitigation materials.
Featuring expert experience from academia, national labs, and industry, this book guides readers in chemical, process, construction, and related industries to confidently design and specify decarbonization technology-related materials and methods.
Contents
Part I: Global Industrial Decarbonization. 1. Industrial Decarbonization: An Overview. Part II: Chemical Industry Decarbonization. 2. Towards a Greener Industry: Decision-Making and Optimization Strategies. 3. Materials and Processes for Chemical Industry Decarbonization—On the Electrothermal Chemical Synthesis and Manufacturing. 4. Electrochemical Processes for Sustainable Chemical Manufacturing. 5. Microwave heating for energy-efficient chemical production. 6. Industrial-Scale Sustainable Electrochemical Energy Conversion Systems for Chemical Transformations. Part III: Decarbonization of Iron/Steel, Paper/Pulp, Building, and Other Industries. 7. Hydrogen for Iron and Steel Decarbonization. 8. Decarbonized Steel Industry. Part IV: Cement Industry Decarbonization. 9. Heidelberg Materials Carbon Capture and Storage Demonstration Projects. 10. CO2 Utilization in Cement and Concrete. 11. Low-Carbon Materials and Practices for Decarbonization in Asphalt Pavements. 12. Thermal Energy Storage Materials and Technologies for Decarbonizing Buildings. 13. Circular Economy Perspectives and Innovations for Decarbonizing the Construction Industry. Part V: CO2 Capture. 14. Separation Technologies for Decarbonization.
