Efficient Implementation of Hydrogen Systems in Societies
Will be published approx. on 1. November 2026
Book
Paperback/Softback
400 pages
978-0-443-44558-3 (ISBN)
Description
Efficient Implementation of Hydrogen Systems in Societies delves into the timely and critical need for safe integration of hydrogen technologies into society. With recent advancements in hydrogen systems, there is a growing demand for up-to-date knowledge and solutions to ensure their safe utilization. This comprehensive resource aims to bridge knowledge gaps, offer insights, and provide practical solutions for professionals and academics involved in hydrogen energy, making it an essential guide in this evolving field.
More details
Language
English
Place of publication
Philadelphia
United States
Target group
Professional and scholarly
Product notice
Paperback (trade)
Unsewn / adhesive bound
Dimensions
Height: 229 mm
Width: 152 mm
Weight
449 gr
ISBN-13
978-0-443-44558-3 (9780443445583)
Copyright in bibliographic data is held by Nielsen Book Services Limited or its licensors: all rights reserved.
Schweitzer Classification
Persons
Nicola Paltrinieri is an associate professor at the department of Production and Quality Engineering of Norwegian University of Science and Technology (NTNU). He received his Ph.D. in Safety Engineering from the University of Bologna (Italy). He has worked in internationally renowned research teams at the Netherlands Organization for Applied Scientific Research (TNO), the Health and Safety Laboratory (HSL) in the United Kingdom, the Memorial University of Newfoundland in Canada and the Foundation for Scientific and Industrial Research (SINTEF) in Norway. He was awarded with the Onsager fellowship for established reputation for high-quality research. He is involved in a number of projects on advanced techniques of risk analysis in collaboration with world leading oil and gas companies. He is interested in the study and improvement of risk management in the broadest sense, from economic to organizational implications.. Specialist in safety science, risk analysis, societal safety and crisis management, with a significant focus on the implications for the hydrogen regulations. Renowned for contributions to hydrogen technologies and infrastructural challenges.
Content
Section 1: Introduction and State of the Art
1. Introduction to Hydrogen Systems in Society - Challenges and Unresolved Issues
2. Framework for Uncertainty Assessments in the Development of Hydrogen Regulations
3. Mapping the State of Hydrogen Research: Integrating Findings and Identifying Gaps, Global Perspectives on the Hydrogen Value Chain
Section 2: Case Studies and Experimental Tests
4. Risk Communication and Preparing the Public for the Hydrogen Society
5. Overview on Experimental Campaigns
6. Active Ventilation of Confined and Congested Geometries
7. Effect of Initial Flow and Mitigation Measures on Explosions
8. Passive Fire Protection for Hydrogen Equipment
9. Material Degradation Issues for Hydrogen Containment
10. Blind Predictions to Reveal Uncertainties and Critical Assumptions in Various Risk and Consequence Assessments of Hydrogen Systems
Section 3: Implications of Experimental Results
11. Validation of Relevant Phenomenological Models
12. Risk Based Operational Safety, Modelling, Monitoring and Establishing Safety Barriers
Section 4: Conclusions and Relevant Trends
13. Strength of Knowledge in the Safety Design and Assessment of Hydrogen Systems - Theoretical Perspectives and Practical Implications
14. Future Developments
1. Introduction to Hydrogen Systems in Society - Challenges and Unresolved Issues
2. Framework for Uncertainty Assessments in the Development of Hydrogen Regulations
3. Mapping the State of Hydrogen Research: Integrating Findings and Identifying Gaps, Global Perspectives on the Hydrogen Value Chain
Section 2: Case Studies and Experimental Tests
4. Risk Communication and Preparing the Public for the Hydrogen Society
5. Overview on Experimental Campaigns
6. Active Ventilation of Confined and Congested Geometries
7. Effect of Initial Flow and Mitigation Measures on Explosions
8. Passive Fire Protection for Hydrogen Equipment
9. Material Degradation Issues for Hydrogen Containment
10. Blind Predictions to Reveal Uncertainties and Critical Assumptions in Various Risk and Consequence Assessments of Hydrogen Systems
Section 3: Implications of Experimental Results
11. Validation of Relevant Phenomenological Models
12. Risk Based Operational Safety, Modelling, Monitoring and Establishing Safety Barriers
Section 4: Conclusions and Relevant Trends
13. Strength of Knowledge in the Safety Design and Assessment of Hydrogen Systems - Theoretical Perspectives and Practical Implications
14. Future Developments