Carbon Dioxide Sequestration in Cementitious Construction Materials provides an updated, state-of-the-art review on the development of cementitious construction materials based on carbon dioxide storage, which will have a major eco-efficient and economic benefit for the construction industry. Key chapters include methods for the assessment of carbon dioxide absorbed by cementitious materials, air and water-based carbon dioxide storage, carbon dioxide storage modeling, carbonation mechanisms, carbon dioxide storage on recycled aggregates, calcium, sodium and magnesium- based binders, properties and the durability of carbon dioxide based concrete. …mehr
Carbon Dioxide Sequestration in Cementitious Construction Materials provides an updated, state-of-the-art review on the development of cementitious construction materials based on carbon dioxide storage, which will have a major eco-efficient and economic benefit for the construction industry. Key chapters include methods for the assessment of carbon dioxide absorbed by cementitious materials, air and water-based carbon dioxide storage, carbon dioxide storage modeling, carbonation mechanisms, carbon dioxide storage on recycled aggregates, calcium, sodium and magnesium- based binders, properties and the durability of carbon dioxide based concrete.
Produktdetails
Produktdetails
Woodhead Publishing Series in Civil and Structural Engineering
Dr. F. Pacheco Torgal is a Principal Investigator at the University of Minho in Portugal. He holds the title of Counsellor at the Portuguese Engineers Association. He is a member of the editorial boards for nine international journals. Over the last 10 years he has participated in the research decision for more than 460 papers and has also acted as a Foreign Expert on the evaluation of 22 PhD thesis. Over the last 10 years he has also been a Member of the Scientific Committees for more than 60 conferences, most of them held in Asian countries. He is also a grant assessor for several scientific institutions in 15 countries, including the UK, US, Netherlands, China, France, Australia, Kazakhstan, Belgium, Spain, Czech Republic, Chile, Saudi Arabia, UA. Emirates, Croatia, Poland, and the EU Commission. In the last 10 years, he reviewed more than 70 research projects.
Caijun Shi is a professor of civil engineering at Hunan University, China. His research interests are in the design, properties and applications of HPC/UHPC; Performance enhancement of recycled concrete aggregates; Chemically activated cementitious materials and structural design; and CO2 Sequestration in concrete materials and related products.
Inhaltsangabe
1. Introduction to carbon dioxide sequestration based cementitious construction materials 2. Carbon dioxide sequestration by direct mineralization of fly ash 3. Aqueous-based carbon dioxide sequestration 4. Carbon dioxide sequestration using steel slag modeling and experimental investigation 5. Accelerated carbon dioxide sequestration 6. Methods for the assessment of carbon dioxide absorbed by cementitious materials 7. Carbon dioxide sequestration in magnesium-based binders 8. Carbon dioxide sequestration on steel slag 9. Carbon dioxide sequestration by phosphogypsum based procedure 10. Carbon dioxide sequestration on biocement-based composites 11. Carbon dioxide sequestration on recycled aggregates 12. Carbon dioxide sequestration by alkali-activated materials 13. Carbon dioxide sequestration on fly ash/waste glass alkali-based mortars with recycled aggregates: compressive strength, hydration products, carbon footprint, and cost analysis 14. Carbon dioxide sequestration of fly ash alkaline based mortars with recycled aggregates and different sodium hydroxide concentrations: properties, durability, carbon footprint, and cost analysis 15. Carbon dioxide sequestration of fly ash alkaline-based mortars containing recycled aggregates and reinforced by hemp fibers: mechanical properties and numerical simulation with a finite element method 16. Carbon dioxide sequestration of fly ash alkaline-based mortars containing recycled aggregates and reinforced by hemp fibers: properties, freeze-thaw resistance, and carbon footprint 17. Carbon dioxide sequestration on masonry blocks 18. Carbon dioxide sequestration on composites based on waste wood
1. Introduction to carbon dioxide sequestration based cementitious construction materials 2. Carbon dioxide sequestration by direct mineralization of fly ash 3. Aqueous-based carbon dioxide sequestration 4. Carbon dioxide sequestration using steel slag modeling and experimental investigation 5. Accelerated carbon dioxide sequestration 6. Methods for the assessment of carbon dioxide absorbed by cementitious materials 7. Carbon dioxide sequestration in magnesium-based binders 8. Carbon dioxide sequestration on steel slag 9. Carbon dioxide sequestration by phosphogypsum based procedure 10. Carbon dioxide sequestration on biocement-based composites 11. Carbon dioxide sequestration on recycled aggregates 12. Carbon dioxide sequestration by alkali-activated materials 13. Carbon dioxide sequestration on fly ash/waste glass alkali-based mortars with recycled aggregates: compressive strength, hydration products, carbon footprint, and cost analysis 14. Carbon dioxide sequestration of fly ash alkaline based mortars with recycled aggregates and different sodium hydroxide concentrations: properties, durability, carbon footprint, and cost analysis 15. Carbon dioxide sequestration of fly ash alkaline-based mortars containing recycled aggregates and reinforced by hemp fibers: mechanical properties and numerical simulation with a finite element method 16. Carbon dioxide sequestration of fly ash alkaline-based mortars containing recycled aggregates and reinforced by hemp fibers: properties, freeze-thaw resistance, and carbon footprint 17. Carbon dioxide sequestration on masonry blocks 18. Carbon dioxide sequestration on composites based on waste wood
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