Startseite Naturwissenschaften Geopolitics of hydrogen
Kapitel
Lizenziert
Nicht lizenziert Erfordert eine Authentifizierung

Geopolitics of hydrogen

  • Václav Bartuška
Veröffentlichen auch Sie bei De Gruyter Brill
Erkunden Sie dieses Fachgebiet So veröffentlichen Sie bei uns
Volume 1 Hydrogen Production and Energy Transition
Ein Kapitel aus dem Buch Volume 1 Hydrogen Production and Energy Transition

Abstract

Successful implementation of hydrogen strategy by the EU needs to solve two geopolitical constrains: Technology (nowadays mostly invented in the United States and built in China) and Raw materials (avoiding new dependencies on unstable/ unfriendly countries). The impact of Europe’s energy transition on present oil and gas exporters is another angle the EU has to take into account.

Abstract

Successful implementation of hydrogen strategy by the EU needs to solve two geopolitical constrains: Technology (nowadays mostly invented in the United States and built in China) and Raw materials (avoiding new dependencies on unstable/ unfriendly countries). The impact of Europe’s energy transition on present oil and gas exporters is another angle the EU has to take into account.

Kapitel in diesem Buch

  1. Frontmatter I
  2. Series editor preface VII
  3. About the series editor IX
  4. Contents XI
  5. List of contributors XXI
  6. Hydrogen: Presents Accomplishments and Far-Reaching Promises 1
  7. Forewords
  8. Foreword 9
  9. Foreword 15
  10. Extended Introductions
  11. Hydrogen: why the times to scale have come 29
  12. Hydrogen key to a carbon-free energy system 43
  13. The European hydrogen strategy 105
  14. Introduction to the hydrogen books 117
  15. Geopolitics of hydrogen 127
  16. Volume I: Hydrogen production and energy transition
  17. 1 An overview of today’s industrial processes to make hydrogen and future developments’ trend 137
  18. 2 Catalytic autothermal reforming for hydrogen production: from large-scale plant to distributed energy system 171
  19. 3 An overview of recent works on Ni silica-based catalysts for the dry reforming of methane 193
  20. 4 CO2 hydrogenation by plasma-assisted catalysis for fuel production: power-to-gas application 213
  21. 5 Development perspective for green hydrogen production 251
  22. 6 Hydrogen production from biomass pyrolysis 279
  23. 7 Gasification of biomass and plastic waste 303
  24. 8 Water electrolysis as an environmentally friendly source of hydrogen 331
  25. 9 Electrolysis for coupling the production of pure hydrogen and the valorization of organic wastes 359
  26. 10 Renewable power-to-hydrogen systems and sector coupling power-mobility 381
  27. 11 Photoelectrocatalytic H2 production: current and future challenges 401
  28. 12 Biological water splitting 427
  29. 13 Fuel processing for fuel cells and energyrelated applications 469
  30. 14 Emergent-based well-being design for a hydrogen-based community: social acceptance and societal evolution for novel hydrogen technology 493
  31. 15 Eni’s projects in Italy for hydrogen production 519
  32. Conclusions and Recommendations: “The Future of Hydrogen” 543
  33. Index 551
https://doi.org/10.1515/9783110596250-008

Kapitel in diesem Buch

  1. Frontmatter I
  2. Series editor preface VII
  3. About the series editor IX
  4. Contents XI
  5. List of contributors XXI
  6. Hydrogen: Presents Accomplishments and Far-Reaching Promises 1
  7. Forewords
  8. Foreword 9
  9. Foreword 15
  10. Extended Introductions
  11. Hydrogen: why the times to scale have come 29
  12. Hydrogen key to a carbon-free energy system 43
  13. The European hydrogen strategy 105
  14. Introduction to the hydrogen books 117
  15. Geopolitics of hydrogen 127
  16. Volume I: Hydrogen production and energy transition
  17. 1 An overview of today’s industrial processes to make hydrogen and future developments’ trend 137
  18. 2 Catalytic autothermal reforming for hydrogen production: from large-scale plant to distributed energy system 171
  19. 3 An overview of recent works on Ni silica-based catalysts for the dry reforming of methane 193
  20. 4 CO2 hydrogenation by plasma-assisted catalysis for fuel production: power-to-gas application 213
  21. 5 Development perspective for green hydrogen production 251
  22. 6 Hydrogen production from biomass pyrolysis 279
  23. 7 Gasification of biomass and plastic waste 303
  24. 8 Water electrolysis as an environmentally friendly source of hydrogen 331
  25. 9 Electrolysis for coupling the production of pure hydrogen and the valorization of organic wastes 359
  26. 10 Renewable power-to-hydrogen systems and sector coupling power-mobility 381
  27. 11 Photoelectrocatalytic H2 production: current and future challenges 401
  28. 12 Biological water splitting 427
  29. 13 Fuel processing for fuel cells and energyrelated applications 469
  30. 14 Emergent-based well-being design for a hydrogen-based community: social acceptance and societal evolution for novel hydrogen technology 493
  31. 15 Eni’s projects in Italy for hydrogen production 519
  32. Conclusions and Recommendations: “The Future of Hydrogen” 543
  33. Index 551
Jetzt anmelden und 20% sparen
Institutioneller Zugang
Wie funktioniert Authentifizierung?
Haben Sie eine Idee, wie wir unsere Website verbessern können?
Bitte schreiben Sie uns.
© 2025 De Gruyter Brill
Heruntergeladen am 19.10.2025 von https://www.degruyterbrill.com/document/doi/10.1515/9783110596250-008/html
Button zum nach oben scrollen