Design and Analysis of Liquid Hydrogen Technologies: Liquefaction, Storage and Distribution offers readers a comprehensive guide to the development, analysis, design, and assessment methodologies for liquid hydrogen. From the fundamentals to the latest developments and current applications, the book provides an extensive and systematic discussion of the design, simulation, and techno-economic analysis methodologies that is supported by practical examples, verified codes, and innovative process designs. The book provides a comprehensive overview of the liquid hydrogen economy that is followed…mehr
Design and Analysis of Liquid Hydrogen Technologies: Liquefaction, Storage and Distribution offers readers a comprehensive guide to the development, analysis, design, and assessment methodologies for liquid hydrogen. From the fundamentals to the latest developments and current applications, the book provides an extensive and systematic discussion of the design, simulation, and techno-economic analysis methodologies that is supported by practical examples, verified codes, and innovative process designs. The book provides a comprehensive overview of the liquid hydrogen economy that is followed by advanced thermoeconomic, exergoeconomic, optimization, and dynamic simulation models that are essential for current and future LH2 technologies. Readers will find this to be a valuable resource for students, researchers, scientists, and engineers working in the hydrogen economy or involved in the processing, design, manufacturing, quality control, reliability, safety, systems, and testing of cryogenic refrigeration and liquid hydrogen production, storage, and transportation.
Dr. Ahmad K. Sleiti research is focused on energy systems and thermofluids, with special interest in cryogenic refrigeration, liquefaction of H2 and NG, turbomachinery, Solid Oxide Fuel Cells, alternative energy, energy efficiency, CFD and experimental thermofluids. Dr. Sleiti obtained his Ph.D. degree in Mechanical Engineering from University of Central Florida. He has authored over 135 peer-reviewed papers in journals and conference proceedings, 2 book chapters and 3 patents. Dr. Sleiti has over 30 years of experience in industry and academia as expert, tenured faculty member and consultant. Dr. Sleiti is currently a professor of mechanical engineering at Qatar University. Previously he held an assistant and associate professor positions at UNC, ERAU and UCF in USA from 2001 to 2015. He also worked as senior engineer, project manager and consultant for high-ranked engineering firms and R&D corporations (SIGMA, PENTA GROUP, BETA, Siemens Energy, Electrodynamics, ASHRAE and others).
Inhaltsangabe
1. Current and future hydrogen liquefaction technologies - Design and analysis 2. Challenges and potential solutions of liquid hydrogen technologies 3. Design and selection of refrigerants used in LH2 plants 4. Energy and exergy analyses of LH2 cycles 5. Economic assessment of LH2 plants 6. Enhancements and optimization of hydrogen liquefaction processes 7. Dynamic simulation of LH2 plants 8. Innovations and advances of hydrogen liquefaction processes 9. Hydrogen storage technologies 10. Liquid hydrogen distribution 11. Liquid hydrogen safety and handling Appendix A: Codes for precooling processes B: Codes for economic analyses
1. Current and future hydrogen liquefaction technologies - Design and analysis 2. Challenges and potential solutions of liquid hydrogen technologies 3. Design and selection of refrigerants used in LH2 plants 4. Energy and exergy analyses of LH2 cycles 5. Economic assessment of LH2 plants 6. Enhancements and optimization of hydrogen liquefaction processes 7. Dynamic simulation of LH2 plants 8. Innovations and advances of hydrogen liquefaction processes 9. Hydrogen storage technologies 10. Liquid hydrogen distribution 11. Liquid hydrogen safety and handling Appendix A: Codes for precooling processes B: Codes for economic analyses
Es gelten unsere Allgemeinen Geschäftsbedingungen: www.buecher.de/agb
Impressum
www.buecher.de ist ein Shop der buecher.de GmbH & Co. KG Bürgermeister-Wegele-Str. 12, 86167 Augsburg Amtsgericht Augsburg HRA 13309