"Overall, due to its systems-based approach, this book is ideal for engineering professionals, researchers, and graduate students in the field of energy systems, energy supply and management, and process systems. As it also provides a thorough overview of the hydrogen supply chain, it is a useful resource for energy analysts, consultants, and policy makers." --Detritus

1. Hydrogen as a pillar of the energy transition 2. Hydrogen Supply Chain Design: key technological components and sustainable assessment 3. Assessment of selected hydrogen supply chains - Factors determining the overall GHG emissions 4. Hydrogen production from biogas reforming: an overview on steam reforming, dry reforming, dual reforming and tri-reforming of methane 5. Hydrogen storage for mobile application - Technologies and their assessment 6. Lowering energy spending and costs for hydrogen transportation and distribution 7. Hydrogen applications: overview of the key economic issues and perspectives 8. Social aspects of H2 supply chains - Hydrogen technologies genesis and development. The cas of Myrte plateform 9. Hydrogen and Power-to-Gas - Concepts and Demonstration 10. Methods and tools for HSC design 11. Multi-objective life cycle optimisation of hydrogen supply chains 12. Engineering robust strategy for solving optimization problems of refinery hydrogen system 13. Optimal design of refinery hydrogen system with purification units 14. Meta-modeling of Hydrogen Supply Chains: a Programmable Structure based representation 15. Life cycle assessment of hydrogen supply chain - A case study for Japanese automotive use 16. Risk analysis of complex hydrogen suply chain

Catherine Azzaro-Pantel, received her PhD in Chemical Engineering from the Institute National Polytechnique (INP), Toulouse, France. She is a Professor of Process Systems Engineering at the Ecole Nationale Supérieure des Ingénieurs en Arts Chimiques et Technologiques (INP-ENSIACET), University of Toulouse, France, where she co-founded a master-level program in EcoEnergy. This program's goal is to provide engineers with a state-of-the-art education in the area of advanced energy technologies and systems. Her research interests lie in the area of process systems engineering with specific focus on optimization methods for process design (deterministic and stochastic methods). Hydrogen supply chains have been the core of several of her research works for many years. She is the author or co-author of over a hundred scientific publications, including articles, conference proceedings, a book and several book chapters.