Proceedings of the 3rd Vietnam Symposium on Advances in Offshore Engineering - Interdisciplinary and Integrated Solutions for Sustainable Offshore Infrastructure

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This book compiles a selection of peer-reviewed papers presented at the 3rd Vietnam Symposium on Advances in Offshore Engineering (VSOE 2024), held from December 12 14 in Hanoi, Vietnam. Featuring contributions from leading researchers, industry experts, and policymakers, the book explores innovative solutions and interdisciplinary approaches to tackle the challenges of sustainable offshore infrastructure.
With a focus on cutting-edge technologies and strategies, the book covers topics such as offshore geotechnics, renewable energy systems, subsea infrastructure, environmental sustainability, risk assessment, and digital advancements like artificial intelligence and digital twins. It also emphasizes Vietnam's significant contributions to offshore energy development, exploring opportunities in offshore wind energy, oil and gas innovations, and the transformation of decommissioned platforms into sustainable renewable energy solutions.
This collection serves as an essential resource for graduate students, academics, engineers, and professionals involved in offshore engineering, energy systems, and marine infrastructure, offering insights into emerging trends, practical applications, and innovative solutions.

List of contents

1. Lateral Resistance of Monopiles in Clayey Soils: Effects of Strength Anisotropy, Strain Rate and Strain Softening.- 2. Standards, Challenges and Achievements on Design of Offshore Wind Turbine Jacket and Monopile Foundations.- 3. Pile Foundation Engineering in Vietnam: An Overview of Recent Advancements.- 4. Digital Twins for Intelligent Operation and Maintenance of Floating Offshore Wind Turbine Infrastructure on MODENERLANDS.- 5. A Realistic Approach to the Sustainable Use of the Offshore Environment in the Vietnamese Sea.- 6. Vermifiltration Coupled with Biofiltration Technology: A Comparative Review for Sustainable Approach to Domestic Wastewater.- 7. Use of Xgboost in Offshore Geotechnical Engineering Applications.- 8. Numerical Analysis for the Behavior of Undrained Clay under Cyclic Loading.- 8. Case History: Development of a Methodology to Study Marine Gassy Clay Behavior.- 9. Foundation damping model for monopile foundations supporting offshore wind turbines.- 10. Layout Design of Prefabricated Vertical Drains using Differential Evolution and Artificial Neural Networks.

About the author

Dr. Khoa D.V. Huynh, Senior Geotechnical Adviser at NGI, Norway, has over 20 years of expertise in geotechnical engineering, specializing in foundation design and natural hazards like landslides, subsidence, and erosion. He has wide management experience, serving as a project manager, research scientist, and journal reviewer. In addition to his role at NGI, Khoa is the Director of the Energy and Marine Network at the Association of Vietnamese Scientists and Experts (AVSE Global), where he leads initiatives to foster collaboration and innovation among Vietnamese scientists and experts in the energy and marine sectors. 

Dr. Hong Doan is Geotechnical Specialist at TotalEnergies and responsible for geotechnical activity for the development of offshore energies at global level. He has more than 16 years’ experience in geotechnical engineering and foundation installation, including 15 years in the offshore energy sector. This includes a wide experience (i) as Practicing Geotechnical Engineer, working on projects related to foundation design and soil-structure interaction analysis, including offshore soil investigation, advanced testing techniques, advanced numerical techniques for monopiles, jackets, jack-up rigs, pipeline, subsea structures, and supervision of foundation installation; (ii) as Technical Lead and Package Manager within site characterisation, design and construction process for the development of offshore infrastructures. He holds a Ph.D. and master’s degree in geotechnics, both from Ecole des Ponts ParisTech, France. 

Dr. Tri Mai is Lecturer of Coastal and Offshore Engineering at the Hanoi University of Civil Engineering. He has over 20 years’ experience in combination of teaching, research, and consultancy works in marine hydraulic engineering, marine structures, coastal protections, and fluid/wave-structure interactions. He has experience in doing physical experimental investigations in marine structures and fluid/wave-structure interactions. He completed his Ph.D. in Coastal and Offshore Engineering from University of Plymouth, United Kingdom.

Phil is Shell Professor of Offshore Engineering and Director of the ARC Industrial Transformation Research Hub on Transforming energy Infrastructure through Digital Engineering (TIDE) at the University of Western Australia. He is a Fellow of the Australian Academy of Technology and Engineering and of the Institution of Engineers Australia, and current Chair of ISSMGE Technical Committee 209 ‘Offshore Geotechnics’. Phil is passionate about aligning industry and academia to solve challenges facing the offshore sector and training tomorrow’s generation of geotechnical leaders.