The book describes the main approaches to produce and synthesize iron and steel through hydrogen-based technologies. Depending on the processing route and on the energy demand, the best available techniques and the most forward-looking solutions are explained. The book is edited with the contribution representing a range of industries in order to evaluate the industrial feasibility of each selected technology. It presents the most efficient solutions applied by ironmaking and steelmaking factories all around the world.
The book describes the main approaches to produce and synthesize iron and steel through hydrogen-based technologies. Depending on the processing route and on the energy demand, the best available techniques and the most forward-looking solutions are explained. The book is edited with the contribution representing a range of industries in order to evaluate the industrial feasibility of each selected technology. It presents the most efficient solutions applied by ironmaking and steelmaking factories all around the world.
Dr. Pasquale Cavaliere is Professor of Metallurgy at the University of Salento in Italy. He received his PhD from the University of Rome "Tor Vergata". He has served as the Marie Curie Fellow at the Massachusetts Institute of Technology's Materials Science and Engineering Department. He is the author of over 250 papers, which have garnered over 4000 citations. For Springer, he published the following books: * Fatigue and Fracture of Nanostructured Materials * Clean Ironmaking and Steelmaking Processes * Laser Cladding of Metals * Spark Plasma Sintering of Materials * Cold-Spray Coatings * Ironmaking and Steelmaking Processes
Inhaltsangabe
Chapter1. Hydrogen revolution.- Chapter2. Hydrogen as energy carrier.- Chapter3. Hydrogen in reduction processes.- Chapter4. Hydrogen production from recycled gases.- Chapter5. Hydrogen ironmaking.- Chapter6. Hydrogen from electrolysis.- Chapter7. Hydrogen direct reduced iron.- Chapter8. Hydrogen plasma reduction.- Chapter9. Flash ironmaking.- Chapter10. Hydrogen economy.
Chapter1. Hydrogen revolution.- Chapter2. Hydrogen as energy carrier.- Chapter3. Hydrogen in reduction processes.- Chapter4. Hydrogen production from recycled gases.- Chapter5. Hydrogen ironmaking.- Chapter6. Hydrogen from electrolysis.- Chapter7. Hydrogen direct reduced iron.- Chapter8. Hydrogen plasma reduction.- Chapter9. Flash ironmaking.- Chapter10. Hydrogen economy.