07558nam 22004453 450 991087806340332120240802080341.0981-9741-74-2(MiAaPQ)EBC31572315(Au-PeEL)EBL31572315(CKB)33566329300041(EXLCZ)993356632930004120240802d2024 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierEnergy, Sustainability and Resilience A Futuristic Vision from Asia1st ed.Singapore :Springer,2024.©2024.1 online resource (184 pages)Disaster Risk Reduction Series981-9741-73-4 Intro -- Preface -- About This Book -- Contents -- Editors and Contributors -- 1 Energy, Sustainability, and Resilience in Asia: The Inter-Linkages -- 1.1 Introduction -- 1.2 Energy and Resilience -- 1.3 Energy and Sustainability -- 1.4 Renewable Energy -- 1.5 Forward-Looking Approaches -- 1.6 About the Book -- References -- 2 Disaster Resilient Infrastructure and Sustainable Development Goals: Focus on Energy and Power Sector -- 2.1 Introduction -- 2.2 Resilient Infrastructure: Reference to SDG -- 2.3 Defining Critical Infrastructure -- 2.4 Current Trends in Resilient Infrastructure -- 2.5 Post Disaster Needs Assessment (PDNA) and the Sendai Framework Target D -- 2.6 Energy Sector Analysis in PDNA -- 2.7 Discussion and Conclusion -- References -- 3 Japan's Infrastructure Resilience Policy and Its Implication to Energy and Local Governance -- 3.1 Introduction -- 3.2 Context of Kochi Prefecture -- 3.3 Resilient Infrastructures: A Global Overview -- 3.4 Evolution of Resilient Infrastructure Policy Before DRR 3.0 in Japan -- 3.5 Focus on Developing a Resilient Energy System -- References -- 4 Power Sector as the Critical Infrastructure in Guangdong Province, China -- 4.1 Introduction -- 4.2 Power System Analysis -- 4.3 Current Status of China's Overhead Transmission Lines -- 4.4 Study Area Location -- 4.5 Status of Landslide Hazard Evaluation and Route Design of Overhead Transmission Lines -- 4.6 Types of Data and Analysis Methods -- 4.6.1 Data Collection on Overhead Transmission Lines -- 4.6.2 Questionnaire Data Collection -- 4.7 Data Analysis of Overhead Transmission Lines -- 4.8 Analysis of the Questionnaire -- 4.9 Interview Result -- 4.10 Discussion -- References -- 5 Risk Assessment of Bhutan's Power Grid: First Step Towards Sustainable and Resilient Power Generation -- 5.1 Introduction -- 5.2 Methodology -- 5.3 Results.5.3.1 NREL's Method (Bhutan) -- 5.3.2 NREL's Method (Chukha) -- 5.3.3 Walk-In Surveys and Aerial Photographs (Chukha) -- 5.3.4 Hazard Maps (Chukha) -- 5.4 Key Findings and Recommendations -- 5.4.1 Key Findings -- 5.4.2 Recommendations -- References -- 6 Enhancing Resilience of Sustainable Energy Infrastructure: Best Practices in Thailand -- 6.1 Introduction -- 6.2 Proposed Framework for Energy Resilience Assessment -- 6.3 Introduction of Case Studies -- 6.4 Recap of Assessment Results from Case Studies -- 6.4.1 Case I: 700 kW State-Owned Solar Power Plant -- 6.4.2 Case II: 100 kW Rural Solar Microgrid -- 6.4.3 Case III: 4.9 MW Commercial Biomass Power Plant -- 6.4.4 Case IV: Community Biogas Plant with a 60 kVA Generator -- 6.5 Collective Findings and Recommendations -- References -- 7 ASEAN Energy Resilience Assessment Guideline -- 7.1 Introduction -- 7.2 Methodology for Energy Resilience Assessment -- 7.3 Standard Operating Procedure (SOP) -- 7.4 Ways Forward -- References -- 8 Energy Resilience Assessment of a Rooftop/Carpark Integrated Solar PV System in Malaysia -- 8.1 Introduction -- 8.2 Energy Resilience Assessment -- 8.3 Methodology for Energy Resilience Assessment -- 8.4 Case Study: Resilience Assessment of the 2.8 MWAC Solar PV Rooftop and Solar PV Integrated Carpark -- 8.5 Results and Discussion -- 8.5.1 Threat Identification and Scoring -- 8.5.2 Impact Assessment -- 8.5.3 Vulnerability Identification and Scoring -- 8.5.4 Assessment of Risks -- 8.5.5 Resilience Solutions -- 8.6 Conclusion -- References -- 9 Japan's Nuclear Energy Policy: A Review of Early years to Now -- 9.1 Introduction -- 9.2 Japan's Nuclear Energy Policy: The Rise of Nuclear Energy in Japan -- 9.3 Promotion and Regulation of Nuclear Energy -- 9.4 Atomic Energy Commission and Nuclear Safety Commission -- 9.5 Japan's Nuclear Policy After the March 11th 2011.9.6 Nuclear Regulatory Commission -- 9.7 Postscript -- References -- 10 Global Hydrogen Energy: Potentials and Challenges -- 10.1 Background -- 10.2 Status of Hydrogen Utilization and Challenges in the World -- 10.3 Discussions on Hydrogen at the G20 -- 10.4 Hydrogen Promotion Policies in Major Regions -- 10.5 Unique Energy Environment Surrounding Asia -- 10.6 Japan's Latest Hydrogen Strategy -- 10.7 Japanese Hydrogen Technologies Expected to be Utilized in Asia -- 10.8 Efforts Toward the Composition of a Hydrogen Value Chain in Japan -- 10.9 Japan's Contribution to the Expansion of Hydrogen Use in Asia -- References -- 11 A Conceptualized Review of the Prospects of Wave Power Energy -- 11.1 Background and Introduction of Wave Power Energy -- 11.2 Process of Wave Power and the Innovation Impact -- 11.3 Foreseeing Economic Feasibility: Analytical Approach -- 11.4 Energy Production Levels -- 11.5 Finding Solutions Through Reducing Costs and Increasing Growth -- 11.6 Environmental Feasibility -- 11.7 Mitigating the Impact on Environments -- 11.8 The Benefits of Wave Power Energy -- 11.9 Wave Power Projects and Organizations: Pacwave and Calwave -- 11.10 Wave Powers Contribution to Society in Japan and Asia -- References -- 12 Incorporating Resilience in National Energy Plan: The New Philippine Energy Plan -- 12.1 Introduction -- 12.2 Background -- 12.2.1 Disasters in the Philippines and Their Impacts to Energy Infrastructure -- 12.2.2 Institutional Arrangement for Disaster Risk Reduction and Management -- 12.3 Incorporating Resilience into the National Energy Plan -- 12.3.1 Philippine Energy Plan 2020-2040 -- 12.3.2 Resilience Compliance Plan -- 12.3.3 Updating National Energy Contingency Plan -- 12.3.4 Way Forward -- 12.4 From National to Regional -- 12.4.1 APEC Energy Resiliency Principle -- 12.4.2 APEC Energy Resiliency Guidelines -- References.13 Future of Energy Sector: A Sustainable and Resilient Pathway -- 13.1 Transition Towards Sustainable and Resilient Energy Infrastructure -- 13.2 Sustainable Energy Infrastructure -- 13.2.1 Clean -- 13.2.2 Affordable -- 13.2.3 Acceptable -- 13.3 Resilient Energy Infrastructure -- 13.3.1 Tolerable -- 13.3.2 Recoverable -- 13.3.3 Adaptable -- 13.3.4 Secure -- 13.4 Enabling Factors for Sustainable and Resilient Energy Infrastructure -- 13.4.1 Cross-Sectoral Collaboration -- 13.4.2 International Cooperation -- 13.4.3 Science and Risk-Informed Evidence-Based Policymaking -- 13.4.4 Appropriate Research Areas -- References.Disaster Risk Reduction SeriesShaw Rajib1474599Silva Kampanart1758581Chollacoop Nuwong1758582MiAaPQMiAaPQMiAaPQBOOK9910878063403321Energy, Sustainability and Resilience4196803UNINA