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Chapter 15 Hydrogen burners for effective utilization of hydrogen as the future fuel

  • Mohamed S. Arshath , V. Praveenkumar , C. Karthikeyan , K. Tamilselvi , Mohammed A. B. Basith und Anand P. Kumar
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Sustainable Hydrogen Energy
Ein Kapitel aus dem Buch Sustainable Hydrogen Energy

Abstract

The search for an efficient and eco-friendly fuel is prompted by the depletion of fossil resources, rising fuel prices, and increase in pollution levels. The use of hydrogen as a fuel has a lot of potential in tackling the serious problems of climate change, air pollution, and energy sustainability. Hydrogen as the future fuel has enormous potential to transform the world’s energy grid. It is a viable replacement for traditional fossil fuels due to its clean burning characteristics, high energy content, and adaptability. The only by-product of hydrogen combustion is water vapors, so it is crystal clear that it is a carbon-free substitute for conventional fossil fuels. This work deals with the functioning of the hydrogen burners, which typically uses hydrogen as the fuel and air or oxygen for the oxidation purpose. In addition to this, a brief overview is given about a variety of hydrogen burners such as premix burners, surface- mix burners, diffusion burners, catalytic burners, and dual-fuel burners. Apart from these the particular applications of hydrogen burners in boiler and cooking applications are being addressed in this work. This work also discusses the use of hydrogen fuel for a sustainable future.

Abstract

The search for an efficient and eco-friendly fuel is prompted by the depletion of fossil resources, rising fuel prices, and increase in pollution levels. The use of hydrogen as a fuel has a lot of potential in tackling the serious problems of climate change, air pollution, and energy sustainability. Hydrogen as the future fuel has enormous potential to transform the world’s energy grid. It is a viable replacement for traditional fossil fuels due to its clean burning characteristics, high energy content, and adaptability. The only by-product of hydrogen combustion is water vapors, so it is crystal clear that it is a carbon-free substitute for conventional fossil fuels. This work deals with the functioning of the hydrogen burners, which typically uses hydrogen as the fuel and air or oxygen for the oxidation purpose. In addition to this, a brief overview is given about a variety of hydrogen burners such as premix burners, surface- mix burners, diffusion burners, catalytic burners, and dual-fuel burners. Apart from these the particular applications of hydrogen burners in boiler and cooking applications are being addressed in this work. This work also discusses the use of hydrogen fuel for a sustainable future.

Kapitel in diesem Buch

  1. Frontmatter I
  2. Preface V
  3. Contents VII
  4. About the editors XI
  5. Part I: Hydrogen production
  6. Chapter 1 Green hydrogen production using biomass 1
  7. Chapter 2 Hydrogen production using nonthermal plasma technology 25
  8. Chapter 3 Technologies to synthesize hydrogen from renewable and environmentfriendly sources: past scenarios and current trends 43
  9. Chapter 4 Thermochemical processes for hydrogen 63
  10. Chapter 5 Synthesis of hydrogen through reforming processes and its utilization to value-added products 107
  11. Chapter 6 Producing green hydrogen from of sugarcane bagasse using ASPEN PLUS simulation 129
  12. Chapter 7 Hydrogen production technologies: state-of-the-art and future possibilities 143
  13. Chapter 8 Hydrogen production technologies: challenges and opportunity 173
  14. Part II: Hydrogen storage
  15. Chapter 9 Reliable, economic, and eco-friendly methods for hydrogen storage 199
  16. Chapter 10 Metal hydrides: a safe and effective solid-state hydrogen storage system 211
  17. Chapter 11 Porous metal-organic frameworks (MOFs) for hydrogen storage 251
  18. Part III: Hydrogen applications and utilization
  19. Chapter 12 Safety first: managing hydrogen in production, handling, and applications 275
  20. Chapter 13 Sustainable hydrogen energy: production, storage, and transportation – transportation of hydrogen and hydrogen-based fuels 305
  21. Chapter 14 Hydrogen-integrated renewable systems for power generation: an overview of technologies and applications 319
  22. Chapter 15 Hydrogen burners for effective utilization of hydrogen as the future fuel 347
  23. Part IV: Hydrogen technology and analysis
  24. Chapter 16 Numerical analysis of PEM water electrolyzer for hydrogen production: critical parameters 363
  25. Chapter 17 Probabilistic risk assessment of liquid hydrogen storage system using fault tree and Bayesian network 379
  26. Chapter 18 Layered perovskites for hydrogen generation via solar-driven water splitting 405
  27. Part V: Hydrogen future and prospects
  28. Chapter 19 Prospects and sustainable approach for biohydrogen 435
  29. Chapter 20 Green hydrogen: challenges and future prospects 449
  30. Chapter 21 Hydrogen: the future fuel 487
  31. Index 503
https://doi.org/10.1515/9783111246475-015

Kapitel in diesem Buch

  1. Frontmatter I
  2. Preface V
  3. Contents VII
  4. About the editors XI
  5. Part I: Hydrogen production
  6. Chapter 1 Green hydrogen production using biomass 1
  7. Chapter 2 Hydrogen production using nonthermal plasma technology 25
  8. Chapter 3 Technologies to synthesize hydrogen from renewable and environmentfriendly sources: past scenarios and current trends 43
  9. Chapter 4 Thermochemical processes for hydrogen 63
  10. Chapter 5 Synthesis of hydrogen through reforming processes and its utilization to value-added products 107
  11. Chapter 6 Producing green hydrogen from of sugarcane bagasse using ASPEN PLUS simulation 129
  12. Chapter 7 Hydrogen production technologies: state-of-the-art and future possibilities 143
  13. Chapter 8 Hydrogen production technologies: challenges and opportunity 173
  14. Part II: Hydrogen storage
  15. Chapter 9 Reliable, economic, and eco-friendly methods for hydrogen storage 199
  16. Chapter 10 Metal hydrides: a safe and effective solid-state hydrogen storage system 211
  17. Chapter 11 Porous metal-organic frameworks (MOFs) for hydrogen storage 251
  18. Part III: Hydrogen applications and utilization
  19. Chapter 12 Safety first: managing hydrogen in production, handling, and applications 275
  20. Chapter 13 Sustainable hydrogen energy: production, storage, and transportation – transportation of hydrogen and hydrogen-based fuels 305
  21. Chapter 14 Hydrogen-integrated renewable systems for power generation: an overview of technologies and applications 319
  22. Chapter 15 Hydrogen burners for effective utilization of hydrogen as the future fuel 347
  23. Part IV: Hydrogen technology and analysis
  24. Chapter 16 Numerical analysis of PEM water electrolyzer for hydrogen production: critical parameters 363
  25. Chapter 17 Probabilistic risk assessment of liquid hydrogen storage system using fault tree and Bayesian network 379
  26. Chapter 18 Layered perovskites for hydrogen generation via solar-driven water splitting 405
  27. Part V: Hydrogen future and prospects
  28. Chapter 19 Prospects and sustainable approach for biohydrogen 435
  29. Chapter 20 Green hydrogen: challenges and future prospects 449
  30. Chapter 21 Hydrogen: the future fuel 487
  31. Index 503
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Heruntergeladen am 21.11.2025 von https://www.degruyterbrill.com/document/doi/10.1515/9783111246475-015/html
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