CO2 Free Ammonia as an Energy Carrier (eBook, PDF)
Japan's Insights
171,19 €
inkl. MwSt.
Sofort per Download lieferbar
0 °P sammeln
CO2 Free Ammonia as an Energy Carrier (eBook, PDF)
Japan's Insights
- Format: PDF
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
![](https://bilder.buecher.de/images/aktion/tolino/tolino-select-logo.png)
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei
bücher.de, um das eBook-Abo tolino select nutzen zu können.
Hier können Sie sich einloggen
Hier können Sie sich einloggen
Sie sind bereits eingeloggt. Klicken Sie auf 2. tolino select Abo, um fortzufahren.
![](https://bilder.buecher.de/images/aktion/tolino/tolino-select-logo.png)
Bitte loggen Sie sich zunächst in Ihr Kundenkonto ein oder registrieren Sie sich bei bücher.de, um das eBook-Abo tolino select nutzen zu können.
- Geräte: PC
- ohne Kopierschutz
- eBook Hilfe
- Größe: 28.91MB
Andere Kunden interessierten sich auch für
- Biomass and Green Chemistry (eBook, PDF)106,99 €
- Plant Based "e;Green Chemistry 2.0"e; (eBook, PDF)160,49 €
- Accounts on Sustainable Flow Chemistry (eBook, PDF)234,33 €
- Chemical Transformations of Carbon Dioxide (eBook, PDF)213,99 €
- Biomass Burning in Sub-Saharan Africa (eBook, PDF)96,29 €
- Bernhard AdlerNative Epoxide und Epoxidharze - ein Beitrag zur ökologischen Chemie (eBook, PDF)39,99 €
- Green Chemistry in Environmental Sustainability and Chemical Education (eBook, PDF)96,29 €
-
-
-
Produktdetails
- Produktdetails
- Verlag: Combustion Society of Japan / Springer Nature Singapore
- Erscheinungstermin: 1. November 2022
- Englisch
- ISBN-13: 9789811947674
- Artikelnr.: 66301197
- Verlag: Combustion Society of Japan / Springer Nature Singapore
- Erscheinungstermin: 1. November 2022
- Englisch
- ISBN-13: 9789811947674
- Artikelnr.: 66301197
Part I: Green ammonia as energy carrier.- 1. Ammonia as green fuel with energy science view.- 2. Physical and chemical properties of ammonia as energy carrier.- 3. Possibility of Ammonia fuel & Japanese hydrogen technology.- 4. Ammonia's Role in the Hydrogen Society.- Part II: Solar heat storage.- 5. Solar-thermal energy conversion system; design and practice: solar selective absorbers based on semiconducting beta-FeSi2.- 6. Solar heat storage system and the materials.- 7. Enhancing corrosion resistance of stainless steel by hot-dip aluminizing for high temperature solar thermal application.- 8. Solar-thermal energy conversion.- Part III: Hydrogen production through electrolysis and thermochemical reactions.- 9. Steam electrolysis cells that can operate at 600 .- 10. Advances in solid oxide electrolysis cell.- 11. Hydrogen production from solar heat; Membrane IS process.- 12. Production of sulfuric acid and hydrogen iodine by Bunsen reaction assisted with membrane.- 13. Oxygen productionby sulfuric acid decomposition assisted with membrane.- 14. Hydrogen production by hydrogen iodine decomposition assisted with membrane.- 15. Corrosion-resistant material for IS process.- Part IV: CO2 free ammonia synthesis under industrial conditions.- 16. Green ammonia production system.- 17. Comparison of several ammonia catalysts worked under industrial conditions.- 18. Influence of H2 / N2 Ratio on Dynamic Behavior of Ammonia Production on Ru Catalyst.- 19. Development of industrial ammonia catalyst using ruthenium.- 20. Rare earth oxide supported Ru catalysts for ammonia synthesis.- 21. Ammonia synthesis from N2-H2O using electrochemical hydrogen-membrane reactor with Ru catalyst and phosphate electrodes.- Part V: Ammonia source hydrogen station.- 22. Production technology of hydrogen for fuel cell vehicles from ammonia.- 23. Ruthenium catalyst development for effective ammonia decomposition.- 24. High purity hydrogen production from ammonia decomposition and removal gas.- 25. Development of vanadium alloy film for hydrogen purification.- Part VI: Ammonia fuel cell.- 26. Ammonia decomposition catalysts for fuel cell application.- 27. Development of component materials for ammonia fueled solid oxide fuel cells (SOFCs).- 28. Stack evaluation of ammonia fueled SOFCs.- 29. Simulation of ammonia fueled SOFCs.- 30. Utilization of ammonia for low temperature fuel cells.- Part VII: Ammonia combustion mechanism and application for internal combustion engines.- 31. Significance and impact of ammonia combustion research.- 32. Demonstration of ammonia fuel with small gas turbines.- 33. Demonstration test of ammonia/natural gas co-firing power generation with 2 MW class gas turbine.- 34. Development of ammonia utilization technology for large gas turbines for power generation.- 35. Advanced co-firing method with low NOx at gas turbine considering the detailed chemistry.- 36. Automobile reciprocal engines fueled with ammonia.- 37. Fundamental study on application of ammonia as a fuel to marine diesel engines.- Part VIII: Coal-ammonia co-firing for power generation.- 38. Ammonia co-firing technology applicable to purverized coal fired boilers.- 39. Development of the coal co-firing technology with ammonia and numerical evaluation of the boiler performance.- 40. Test of the cofiring of ammonia and coal at Mizushima Powrer Station.- 41. Characteristics of coal-ammonia co-firing phenomena.- Part IX: Ammonia combustion for industrial furnaces.- 42. Review of fundamental study of ammonia direct combustion in industrial furnaces Ammonia combustion for industrial furnace.- 43. Development of impinging jet burner using ammonia fuel for degreading steel sheets.- Part X: Evaluation of green ammonia fuel in view of LCA and economics.- 44. Basic concept of NH3 fuel LCA (including N2O problem).- 45. Well to Wheel Carbon intensity of various ammonia fuel.- 46. What ammonia? What cost ammonia?.- 47. Ammonia energy; expectation and challenge.
Part I: Green ammonia as energy carrier.- 1. Ammonia as green fuel with energy science view.- 2. Physical and chemical properties of ammonia as energy carrier.- 3. Possibility of Ammonia fuel & Japanese hydrogen technology.- 4. Ammonia's Role in the Hydrogen Society.- Part II: Solar heat storage.- 5. Solar-thermal energy conversion system; design and practice: solar selective absorbers based on semiconducting beta-FeSi2.- 6. Solar heat storage system and the materials.- 7. Enhancing corrosion resistance of stainless steel by hot-dip aluminizing for high temperature solar thermal application.- 8. Solar-thermal energy conversion.- Part III: Hydrogen production through electrolysis and thermochemical reactions.- 9. Steam electrolysis cells that can operate at 600 .- 10. Advances in solid oxide electrolysis cell.- 11. Hydrogen production from solar heat; Membrane IS process.- 12. Production of sulfuric acid and hydrogen iodine by Bunsen reaction assisted with membrane.- 13. Oxygen productionby sulfuric acid decomposition assisted with membrane.- 14. Hydrogen production by hydrogen iodine decomposition assisted with membrane.- 15. Corrosion-resistant material for IS process.- Part IV: CO2 free ammonia synthesis under industrial conditions.- 16. Green ammonia production system.- 17. Comparison of several ammonia catalysts worked under industrial conditions.- 18. Influence of H2 / N2 Ratio on Dynamic Behavior of Ammonia Production on Ru Catalyst.- 19. Development of industrial ammonia catalyst using ruthenium.- 20. Rare earth oxide supported Ru catalysts for ammonia synthesis.- 21. Ammonia synthesis from N2-H2O using electrochemical hydrogen-membrane reactor with Ru catalyst and phosphate electrodes.- Part V: Ammonia source hydrogen station.- 22. Production technology of hydrogen for fuel cell vehicles from ammonia.- 23. Ruthenium catalyst development for effective ammonia decomposition.- 24. High purity hydrogen production from ammonia decomposition and removal gas.- 25. Development of vanadium alloy film for hydrogen purification.- Part VI: Ammonia fuel cell.- 26. Ammonia decomposition catalysts for fuel cell application.- 27. Development of component materials for ammonia fueled solid oxide fuel cells (SOFCs).- 28. Stack evaluation of ammonia fueled SOFCs.- 29. Simulation of ammonia fueled SOFCs.- 30. Utilization of ammonia for low temperature fuel cells.- Part VII: Ammonia combustion mechanism and application for internal combustion engines.- 31. Significance and impact of ammonia combustion research.- 32. Demonstration of ammonia fuel with small gas turbines.- 33. Demonstration test of ammonia/natural gas co-firing power generation with 2 MW class gas turbine.- 34. Development of ammonia utilization technology for large gas turbines for power generation.- 35. Advanced co-firing method with low NOx at gas turbine considering the detailed chemistry.- 36. Automobile reciprocal engines fueled with ammonia.- 37. Fundamental study on application of ammonia as a fuel to marine diesel engines.- Part VIII: Coal-ammonia co-firing for power generation.- 38. Ammonia co-firing technology applicable to purverized coal fired boilers.- 39. Development of the coal co-firing technology with ammonia and numerical evaluation of the boiler performance.- 40. Test of the cofiring of ammonia and coal at Mizushima Powrer Station.- 41. Characteristics of coal-ammonia co-firing phenomena.- Part IX: Ammonia combustion for industrial furnaces.- 42. Review of fundamental study of ammonia direct combustion in industrial furnaces Ammonia combustion for industrial furnace.- 43. Development of impinging jet burner using ammonia fuel for degreading steel sheets.- Part X: Evaluation of green ammonia fuel in view of LCA and economics.- 44. Basic concept of NH3 fuel LCA (including N2O problem).- 45. Well to Wheel Carbon intensity of various ammonia fuel.- 46. What ammonia? What cost ammonia?.- 47. Ammonia energy; expectation and challenge.