Proceedings of the Third World Conference on Floating Solutions : WCFS 2023; 28-29 August, Tokyo, Japan
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| Autore: |
Ikoma Tomoki
|
| Titolo: |
Proceedings of the Third World Conference on Floating Solutions : WCFS 2023; 28-29 August, Tokyo, Japan
|
| Pubblicazione: | Singapore : , : Springer Singapore Pte. Limited, , 2024 |
| ©2024 | |
| Edizione: | 1st ed. |
| Descrizione fisica: | 1 online resource (868 pages) |
| Altri autori: |
TabetaShigeru
LimSoon Heng
WangChien Ming
|
| Nota di contenuto: | Intro -- Committees -- Preface -- Sponsors -- Contents -- Urban Planning -- Developing a Sustainable and Smart Floating Structure Solution for Enhancing Liveability in Hong Kong's Crowded Built Environment -- 1 Introduction -- 2 Vision for a Sustainable and Smart Floating Structure Solution (S2FS2) in Hong Kong -- 3 Challenges for Developing S2FS2 -- 3.1 Material Challenges -- 3.2 Structural Challenges -- 3.3 Construction Challenges -- 3.4 Stability Challenges -- 3.5 Sustainability Challenges -- 4 Estimated Cost Savings -- 5 Conclusions -- References -- Sustainable Water City-A Case Study in Singapore -- 1 Introduction -- 2 Aim of Constructing the Water City in Singapore -- 3 A Novel Concept of Floating Water City in Singapore -- 4 Construction of a Floating Water City -- 5 Multi-dimensional Water Supply System in a Floating Water City -- 6 Water Supply and Demand in a Floating Water City -- 7 Inclination of High-Rise Towers on a Floating Platform Subject to the Highest Wind Intensity -- 8 Conclusion -- References -- Designing Floating Urban Realities: On the Urban Design of Floating High-Density Environments in the Dutch Context -- 1 Introduction -- 1.1 Research Goal -- 1.2 Research Questions and Method -- 1.3 Collaboration -- 2 Results -- 2.1 Qualities of the Floating City of the Future -- 2.2 Design Principles of the Floating City of the Future -- 2.3 Case Studies -- 3 Conclusions and Reflection -- References -- Proposal of Floating City Concept Instead of Landfill with Artificial Ground that Has a Free Rebuilding System -- 1 Design of Floating Artificial Ground System as a Substitute for Landfill -- 1.1 Existing Artificial Ground -- 2 Structural System of Artificial Ground and Fixing Method of Building -- 2.1 Inventing a Three-Layer Structure System -- 2.2 Developed a Method for Anchoring Buildings. |
| 3 Case Study 1 with Virtual Site Using Floating Artificial Ground System -- 3.1 Plot Model Planning and Design -- 3.2 Draft Design and Layout Plan -- 3.3 Loading and Design of Concrete Floating Structure -- 3.4 Verification of Static Stability and Restoring Force -- 4 Case Study 2 of Virtual Site Using Floating Artificial Ground System -- 4.1 Assumed Area and City Planning Proposal -- 4.2 Planning and Design of Plot Model -- 4.3 Loading -- 4.4 Verification of Static Stability -- 4.5 Proposal of Floating City Concept Using Floating Artificial Ground -- 5 Conclude -- References -- From Floating Prototype to Floating Community: Designing Resilient Floating Communities by Using Participatory Approaches -- 1 Introduction -- 2 Method -- 2.1 Participatory Approach -- 2.2 Forming the Framework -- 2.3 Developing Fundamental Urban Elements -- 2.4 Analysing the Arrangement of Urban Elements on the Microclimate -- 3 Results -- 3.1 Participatory Approach -- 3.2 Fundamental Urban Elements -- 3.3 Analysing the Arrangement of Urban Elements on Microclimate -- 4 Conclusions -- References -- Floating Urban Development-Sustainable Growth and Affordable Housing -- 1 Introduction -- 1.1 Motivations and Literature Review -- 1.2 Modular Floating Structures (MFS) -- 1.3 Research Question and Main Objectives -- 1.4 Criteria -- 2 Methodology -- 2.1 Building Typologies -- 2.2 Neighborhood Scale -- 2.3 Spatial Layouts -- 3 The Analysis System: ANSYS-AQWA -- 3.1 First-Order Solution (Linear and Monochromatic) -- 3.2 Equation of Motion (EOM) and the Response Amplitude Operator (RAO) -- 4 Research Implementation -- 5 Preliminary Results -- 5.1 Wave Diffraction Characteristics-Graphical Supervisor AQWA (GSA) -- 5.2 RAO -- 5.3 Summary of the Presented Results -- 6 Discussion -- 6.1 Machine Learning for Spatial Optimization. | |
| 6.2 Design and Policy for Sustainability and Affordability -- References -- Challenges and Success Factors of Realizing Floating Projects-From the Perspectives of Dutch Experts in Floating City Development -- 1 Introduction -- 1.1 Background -- 1.2 Research Objective and Scope -- 2 Literature Review -- 3 Research Methodology -- 3.1 Project Selection -- 3.2 Interview Guideline -- 4 Results -- 4.1 Success Factors -- 4.2 Challenges -- 4.3 Upscaling -- 4.4 Discussion -- 5 Conclusions and Recommendations -- Appendix -- References -- Amid Geopolitical Conflicts, Are Floating Nuclear Power Plants Safe? -- 1 Global Warming -- 1.1 Capturing and Storing Carbon is Costly and Ineffective -- 2 Nuclear Power -- 2.1 Radiation Misinformation -- 2.2 Radiation in Everyday Life -- 2.3 Is Nuclear Power Affordable? -- 3 Small Modular Reactors (SMR) -- 3.1 Underground Nuclear Power Plant -- 4 Floating Nuclear Power Plant (FNPP) -- 4.1 Vulnerability -- 5 Energy Security and the Threat of War -- 6 Protecting FNPPs Against Wilful Damage -- 7 The Tools to Realise the Concept -- 7.1 The Hardware -- 7.2 The Software -- 8 Layout of the Equipment in the Lagoon -- 8.1 The Barrage and Lagoon -- 8.2 Floating Crane -- 8.3 Floating Workshop -- 8.4 Spent Fuel and New Fuel Storage -- 8.5 Life Span of Reactors -- 8.6 Desalination and Green Hydrogen -- 8.7 Rest and Recreation Facilities -- 9 Guardrails for the Lagoon -- 10 Public-Private Partnership (PPP) -- 10.1 The Role of the Government -- 10.2 The Role of the FNPP, Desalination Plant and Hydrogen Plant Owners -- 11 Conclusion -- References -- Development of the Legal Definition of the Floating City: Judicial Interpretation of Structural Characteristics of Floating Homes and Developments -- 1 Introduction -- 1.1 Floating Structures as Part of Our Wetter Urban Future. | |
| 1.2 The Structural Characteristics of Floating Structures and Its Impact on the Legal Status of Floating Structures and Cities -- 2 What Is the Legal Status of a Floating Structure? -- 3 Structural Characteristics and the Legal Status of 'Floating Cities' -- 4 Legal Consequences of Defining the Floating Structure and Floating City in International Law -- 5 Conclusion -- References -- Sustainable Floating City Production Systems-Moving Towards Industry 5.0 -- 1 Introduction -- 2 Literature Review -- 2.1 Floating Urban Development -- 2.2 Industry 4.0 -- 2.3 Industry 5.0 -- 3 Industrial Trends for the Development of Floating Solutions -- 4 Synergies Between Industry 4.0, Industry 5.0, and Floating City Production Systems -- 5 Discussion and Conclusions -- References -- Current Status of Underwater Space Utilization and Challenges to Contribute to a Sustainable Society -- 1 Introduction -- 2 History of Underwater Structures -- 2.1 Existing Industries -- 3 Underwater Habitat -- 3.1 Realized Facilities -- 3.2 Facilities Under Conception -- 3.3 Summary and Classification -- 4 New Needs for Underwater Space Utilization -- 4.1 Underwater Data Center -- 4.2 Carbon Capture and Storage -- 5 Conclusion -- References -- Architecture -- A Performance-Based Design Framework for Floating Architecture. Trade-Offs and Correlations Between Requirements for Multiple Criteria Decision-Making Optimization -- 1 Introduction -- 1.1 Potential of Floating Solutions as Adaptation and Mitigation Strategies -- 1.2 Performance-Based Design for Floating Architecture -- 2 Research Aims and Questions -- 2.1 Research Gap -- 2.2 Research Questions -- 3 Methodology -- 4 Results and Discussion -- References -- A Study on Planning of Sustainable Floating Architecture Outside a Bay Utilizing Submerged Breakwater Reef That Sequesters CO2. | |
| 1 Coastal Development for Sustainable Oceanic Spatial Integration -- 1.1 Objectives -- 1.2 Contents -- 1.3 Methodology -- 2 Overarching Goal to Meet 'Below 2 °C' Objective with Floating Architecture -- 2.1 Oceans and Their CO2 Abundance -- 2.2 Direct Aqueous CCS and Storing CO2 in Artificial Reefs -- 2.3 Floating Architecture as a Zero-Carbon-Ready Building -- 3 Green Floating Architectural Planning -- 3.1 Design: Coastal Carbon Sink Outside a Bay -- 3.2 Design -- Construction, and Installation -- 3.3 Building Artificial Reef -- Sequential CO2 Sequestration and Storage -- 4 Conclusion -- References -- Stochastic Response Evaluation for Random Wind and Wave Actions of Module-Linked Floating Structures with a Wind Turbine -- 1 Introduction -- 2 Analytical Model and Conditions -- 3 Response Evaluation of Floating Structure with Wind Turbine Module -- 3.1 Fluid-Coupled Equation of Motion of Structure -- 3.2 Response Evaluation for Mean Wind Speed -- 3.3 Response Evaluation for Variable Wind -- 3.4 Response Evaluation for Irregular Wave -- 4 Wet-Mode Analysis and Wet-Mode Superposition -- 5 Stationary Random Response -- 6 Numerical Examples and Discussions -- 6.1 Analytical Model -- 6.2 Variable Wind and Wave Spectra -- 6.3 Hydroelastic Response of F-Type -- 6.4 Hydroelastic Response of M-Type -- 6.5 Hydroelastic Response of A-Type -- 6.6 Hydroelastic Response of N-Type -- 7 Conclusions -- References -- A Design Proposal of Floating Leisure and Culture Facilities in Saemangeum Area -- 1 Introduction -- 2 Situation of the Site -- 3 Some Advantages and Disadvantages of Floating Architectures in Saemanguem Lake -- 4 Design Proposal -- 4.1 Prime Points of the Planning -- 4.2 Suggested Architectural Programs -- 4.3 Concept Drawings -- 4.4 Outline of Project Cost (Base Year: 2022) -- 4.5 Legal and Administrative Requests to the Saemangeum Development Authority. | |
| 5 Conclusion. | |
| Titolo autorizzato: | Proceedings of the Third World Conference on Floating Solutions |
| ISBN: | 9789819704958 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910869162403321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |
Serie:
Lecture Notes in Civil Engineering Series