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Progress in Hydrogen Production via Sonolysis Processes de Slimane Merouani

Progress in Hydrogen Production via Sonolysis Processes

Autor Slimane Merouani, Oualid Hamdaoui, Aissa Dehane
en Limba Engleză Paperback – 29 sep 2025
Progress in Hydrogen Production via Sonolysis Processes highlights recent developments in numerical and experimental hydrogen production by ultrasound (sonolysis). The book serves as a comprehensive and quick reference with a high-level historical review of the technology, detailed technical descriptions, and the latest experimental and numerical achievements. It reviews hydrogen production technologies, sonolysis, and ultrasound-assisted processes and examines numerical acoustic cavitation (bubble sonochemistry) for hydrogen sono-production. Other sections cover cutting-edge computational research and its benefits for understanding multiple issues related to the use of ultrasound as an innovative clean technology for hydrogen production.

Issues covered range from the mechanism of sonochemical production, the factors and phenomena that influence it, intensification techniques, and the active bubble population (number and size) in sonicated water.

  • Presents the latest progress in the use of sonochemistry for the production of hydrogen
  • Explores advancements in numerical and experimental studies used for hydrogen production by sonolysis
  • Describes and discusses emerging, futuristic sono-hybrid technologies for hydrogen production
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Specificații

ISBN-13: 9780443290176
ISBN-10: 0443290172
Pagini: 326
Dimensiuni: 191 x 235 mm
Greutate: 0.68 kg
Editura: ELSEVIER SCIENCE

Cuprins

1. Hydrogen production technologies: An overview
2. Sonolysis: basic principles and application
3. Water sonolysis and hydrogen production: experimental results
4. The sonochemical production of hydrogen: Where, when and how
5. Hydrogen sono-production and number density of active bubbles
6. Sono-hybrid processes for hydrogen production
7. Microscopic analysis of the influencing factors on hydrogen sono-production
8. Transfer phenomenon and reactions heat effect on hydogen sono-production
9. Saturation gases effects on hydrogen sono-production
10. Relationship between the bubble energy and hydrogen production
11. Hydogen production from the sonolysis of water/alcohol mixtures
​​​​​12. Current challenges and future perspectives of ultrasonic technology for hydrogen production