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Chapter 9 Conversion of CO2 into useful products

  • N. B. Singh
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Industrial Waste
Ein Kapitel aus dem Buch Industrial Waste

Abstract

Extensive use of fossil fuels started due to Industrial revolution. Because of this CO2 gas is released into the atmosphere. Over-emission of CO2 has never been mentioned in the History of civilization. Svante Arrhenius predicted for the first time in 1880s that global warming may occur due to emissions of large amount CO2. It may be due to ability of CO2 to absorb and emit infrared radiation. Number of options for reducing CO2 emission used is: reduction of fossil fuels, energy consumption reduction and capture and storage of CO2. However, better option for fossil fuels has not been economically found. One of the best ways for minimizing CO2 may be conversion into useful products. CO2 can be a source of carbon in the synthesis of chemicals and fuels. It has been always a debate whether carbon dioxide is a waste or wealth and this debate is still going on. In this article methods have been discussed for conversion of CO2 into useful products.

Abstract

Extensive use of fossil fuels started due to Industrial revolution. Because of this CO2 gas is released into the atmosphere. Over-emission of CO2 has never been mentioned in the History of civilization. Svante Arrhenius predicted for the first time in 1880s that global warming may occur due to emissions of large amount CO2. It may be due to ability of CO2 to absorb and emit infrared radiation. Number of options for reducing CO2 emission used is: reduction of fossil fuels, energy consumption reduction and capture and storage of CO2. However, better option for fossil fuels has not been economically found. One of the best ways for minimizing CO2 may be conversion into useful products. CO2 can be a source of carbon in the synthesis of chemicals and fuels. It has been always a debate whether carbon dioxide is a waste or wealth and this debate is still going on. In this article methods have been discussed for conversion of CO2 into useful products.

Kapitel in diesem Buch

  1. Frontmatter I
  2. Contents V
  3. List of Authors IX
  4. Part 1: Measurement and properties
  5. Chapter 1 Characterization of supplementary cementitious materials and their quantification in cement blends by solid-state NMR 3
  6. Chapter 2 Mineralogical quantification of cements, wastes and supplementary cementitious materials 33
  7. Chapter 3 Microstructure analysis with quantitative phase mapping using SEM-EDS and Phase Recognition and Characterization (PARC) Software: applied to steelmaking slag 57
  8. Chapter 4 The use of μXRF in the characterization of industrial wastes and pozzolanes 97
  9. Part 2: Characterization of industrial residues
  10. Chapter 5 Characterization of supplementary cementitious materials: Brown coal fly ashes 165
  11. Chapter 6 Iron and steel slags: from wastes to by-products of high technical, economical and ecological advantages 203
  12. Chapter 7 Utilization of Supplementary cementitious materials (SCM) in Portland cement, alkali activated and ternary binders 253
  13. Chapter 8 Study of some physico chemical properties of plastic clays belonging to Girujan deposits from Chumoukedima Nagaland, India and their prospective industrial applications 297
  14. Part 3: Use and application of industrial residues
  15. Chapter 9 Conversion of CO2 into useful products 319
  16. Chapter 10 Mine tailings as precursors for alkali-activated materials and ettringite binders 345
  17. Chapter 11 Industrial waste as fuel and raw material in the cement industry 361
  18. Chapter 12 Fly ash from municipal solid waste Incineration: from industrial residue to resource for zinc 379
  19. Chapter 13 Residues of industrial wastewater treatment: Hazardous waste or anthropogenic resource? 403
  20. Chapter 14 Composites of some sustainable siliceous materials for the removal of fluoride from ground water and immobilization of the sludge generated 433
  21. Part 4: Residues from mining
  22. Chapter 15 Characterization and mineral processing options of “Kupferschiefer”-type low-grade black shale ore from mining dumps in Central Germany 455
  23. Chapter 16 Rare-earth elements in phosphogypsum and mineral processing residues from phosphate-rich weathered alkaline ultramafic rocks, Brazil 505
  24. Chapter 17 The Mn oxides tailing from Amazon Region as low-cost raw material to synthesis of shigaite-type phase 541
  25. Chapter 18 Eco-cements out of Belterra Clay: An extensive Brazilian bauxite overburden to produce low-CO2 eco-friendly calcium sulphoaluminate based cements 553
  26. Index 581
https://doi.org/10.1515/9783110674941-009

Kapitel in diesem Buch

  1. Frontmatter I
  2. Contents V
  3. List of Authors IX
  4. Part 1: Measurement and properties
  5. Chapter 1 Characterization of supplementary cementitious materials and their quantification in cement blends by solid-state NMR 3
  6. Chapter 2 Mineralogical quantification of cements, wastes and supplementary cementitious materials 33
  7. Chapter 3 Microstructure analysis with quantitative phase mapping using SEM-EDS and Phase Recognition and Characterization (PARC) Software: applied to steelmaking slag 57
  8. Chapter 4 The use of μXRF in the characterization of industrial wastes and pozzolanes 97
  9. Part 2: Characterization of industrial residues
  10. Chapter 5 Characterization of supplementary cementitious materials: Brown coal fly ashes 165
  11. Chapter 6 Iron and steel slags: from wastes to by-products of high technical, economical and ecological advantages 203
  12. Chapter 7 Utilization of Supplementary cementitious materials (SCM) in Portland cement, alkali activated and ternary binders 253
  13. Chapter 8 Study of some physico chemical properties of plastic clays belonging to Girujan deposits from Chumoukedima Nagaland, India and their prospective industrial applications 297
  14. Part 3: Use and application of industrial residues
  15. Chapter 9 Conversion of CO2 into useful products 319
  16. Chapter 10 Mine tailings as precursors for alkali-activated materials and ettringite binders 345
  17. Chapter 11 Industrial waste as fuel and raw material in the cement industry 361
  18. Chapter 12 Fly ash from municipal solid waste Incineration: from industrial residue to resource for zinc 379
  19. Chapter 13 Residues of industrial wastewater treatment: Hazardous waste or anthropogenic resource? 403
  20. Chapter 14 Composites of some sustainable siliceous materials for the removal of fluoride from ground water and immobilization of the sludge generated 433
  21. Part 4: Residues from mining
  22. Chapter 15 Characterization and mineral processing options of “Kupferschiefer”-type low-grade black shale ore from mining dumps in Central Germany 455
  23. Chapter 16 Rare-earth elements in phosphogypsum and mineral processing residues from phosphate-rich weathered alkaline ultramafic rocks, Brazil 505
  24. Chapter 17 The Mn oxides tailing from Amazon Region as low-cost raw material to synthesis of shigaite-type phase 541
  25. Chapter 18 Eco-cements out of Belterra Clay: An extensive Brazilian bauxite overburden to produce low-CO2 eco-friendly calcium sulphoaluminate based cements 553
  26. Index 581
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Heruntergeladen am 21.10.2025 von https://www.degruyterbrill.com/document/doi/10.1515/9783110674941-009/html
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