Maritime decarbonization : practical tools, case studies and decarbonization enablers / / Mikael Lind, Wolfgang Lehmacher, and Robert Ward, editors
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| Titolo: |
Maritime decarbonization : practical tools, case studies and decarbonization enablers / / Mikael Lind, Wolfgang Lehmacher, and Robert Ward, editors
|
| Pubblicazione: | Cham, Switzerland : , : Springer, , [2023] |
| ©2023 | |
| Edizione: | First edition. |
| Descrizione fisica: | 1 online resource (xxxv, 507 pages) : illustrations (chiefly color) |
| Disciplina: | 363.738746 |
| Soggetto topico: | Business logistics |
| Carbon dioxide mitigation - Economic aspects | |
| Shipping - Environmental aspects | |
| Persona (resp. second.): | LindMikael |
| LehmacherWolfgang | |
| WardRobert | |
| Nota di bibliografia: | Includes bibliographical references. |
| Nota di contenuto: | Intro -- Foreword -- Preface -- About This Book -- Baseline and Perspectives -- A Step-by-Step Concept for Decarbonizing Shipping -- Bringing the Four Step-Concept to Life -- Some Critical Success Factors for Fast and Global Decarbonization -- Case Studies: Selected Maritime Decarbonization Initiatives -- Concluding Remarks: Calling for a Holistic and Inclusive Approach -- References -- Contents -- Editors and Contributors -- Abbreviations -- Part I: Outlining Baseline and Perspectives -- Broadening the Scope of Decarbonization in the Maritime Sector -- Target Audience -- Key Takeaway Message -- Introduction -- Classificatory Frameworks -- Growth in Demand for Maritime Transport -- Choice of Freight Transport Mode -- Increasing Capacity Utilisation -- Improving Energy Efficiency -- Switching to Low Carbon Energy -- Closing Summary -- References -- Decarbonizing the Maritime Industry: Current Environmental Targets and Potential Outcomes -- Target Audience -- Key Takeaway Messages -- Introduction -- The Shipping Industry´s Carbon Footprint -- Greenhouse Gas Targets of the IMO -- Current Status of Maritime GHG Emissions -- Potential Outcomes from Current Progress -- The Need to Strengthen Policy Measures -- The Way Forward -- References -- The Extent of Decarbonization in the Global Shipping Fleet -- Target Audience -- Key Takeaway Messages -- Demand for Transport -- Economic Growth -- Trade -- Global Fleet Figures -- Shipbuilding -- The World Orderbook -- Removals -- Size of the Global Fleet -- The Extent of Low- or No-Carbon Ship Propulsion and Fuels in the Global Fleet -- Vessel Employment -- Vessel Speed -- CO2 Emissions -- Closing Summary -- References -- Part II: A Step-by-Step Concept for Decarbonizing Shipping -- Four Steps to Decarbonization -- Target Audience -- Key Takeaway Messages. |
| A Process of Four Foundational Concepts for Climate Action -- Step 1: Scenario Analysis: Understanding the Boundaries -- Step 2: Value Chain Mapping: Scoping the Effort -- Step 3: Enabler Prioritisation: Decide on Areas of Focus for Action -- Step 4: Partnership Selection: Join Forces -- The Merits of the 4-Step Process -- References -- Scenario Thinking and Its Place in Maritime Decarbonization -- Target Audience -- Key Takeaway Messages -- Grappling with Uncertainties -- Scenarios and Scenario Thinking -- Maritime Scenarios -- Concluding Remarks -- References -- Adopting a Value Chain Focus to Tackle Decarbonization -- Target Audience -- Key Takeaway Messages -- Introduction to Value Chain Thinking -- Value Chains in the Maritime Ecosystem -- The Marine Fuel Value Chain -- The Shipbuilding Value Chain -- The Maritime Operational Value Chain -- Value Chain Focus as a Key to Effective Decarbonization in Shipping -- References -- Identifying the Key Decarbonization Enablers -- Target Audience -- Key Takeaway Messages -- Introduction -- Shipboard Energy Efficiency Technologies -- Operational and Commercial Practices -- Digital Technology -- Zero-Carbon Fuels and Technology -- Energy Conversion and Shipbuilding Technology -- Policies and Regulations -- Financing and Incentives -- Closing Remarks -- References -- Decarbonizing International Shipping Through Collaborative Partnerships -- Target Audience -- Key Takeaway Messages -- The Decarbonization Solution Space -- Market Based Mechanisms -- Technological and Operational Measures -- Alternative Fuels -- Understanding Partnerships -- Designing Pilot Projects -- GCMD Projects and Partnership Case Studies -- Partnership Case Study 1: Ammonia Bunkering Safety Study -- Partnership Case Study 2: Quality, Quantity and GHG Abatement Assurance Framework for Drop-in Fuels -- Closing Remarks -- References. | |
| Part III: Bringing the Four-Step Concept to Life -- How to Get Started: CDES-A New Paradigm for Tackling Decarbonization Projects -- Target Audience -- Key Takeaway Messages -- Why the World Needs a cdes Approach? -- A New Paradigm for Balanced Development -- Translating cdes into the World of Shipping -- Complex Systems Increase the Need for Data Generation and Sharing -- A Navigational Matrix for Effective Partnerships -- Pivoting to a More Balanced Future -- References -- Scenario Thinking To Build Business Advantages That Accelerate Decarbonization -- Target Audience -- Key Takeaway Messages -- The Two Crafts of Scenario Thinking, and the Learning Journey -- Interweaving Scenario Thinking with Strategic Choices -- Using Scenario Thinking to Assess Potentially Undervalued Opportunities for Forerunners -- Concluding Remarks -- References -- How a Value Chain Approach Plays Out in Maritime Decarbonization -- Target Audience -- Key Takeaway Messages -- Introduction -- Step 1: Understanding Value Chain Structures and Key Stakeholders -- Step 2: Determining the Leverage of Each Value Chain -- Step 3: Recognise the Port as a Crucial Node -- Step 4: Identify Interdependencies and Refine Value Chain Strategies -- Closing Remarks -- References -- How to Assess Decarbonization Enablers -- Target Audience -- Key Takeaway Messages -- Assessment of Enablers for Decarbonization Readiness -- Assessment of Enablers Available Today -- Assessment of Developing Technologies -- Assessment of Fuels and Fuel Pathways -- Closing Remarks -- References -- Effective Partnerships to Support Maritime Decarbonization -- Target Audience -- Key Takeaway Messages -- Introduction -- Stakeholders Across the Decarbonization Ecosystem -- The Role of Influencers -- Positioning Decarbonization Partnerships -- Engaging Actors Along the Entire Distribution Curve. | |
| The Need for a Holistic and Inclusive Approach -- Context Matters -- References -- Part IV: Some Critical Success Factors for Fast and Global Decarbonization -- Ensuring Seafarers Are at the Heart of Decarbonization Action -- Target Audience -- Key Takeaway Messages -- Introduction -- What Does a Maritime Just Transition for Seafarers Mean? -- Maritime Just Transition Task Force -- How Will Maritime Decarbonization Impact the Workforce? -- Skills and Competencies for Future Seafarers -- New Safety Challenges and Skills Needed Against a Backdrop of Existing Training Constraints -- An Action-Plan to Ensure a Just Transition for Seafarers -- Unlocking Consensus on Decarbonization and Ensure Coherence Between Environmental and Skills Policies -- Strong Labour Standards, a Robust Health and Safety Approach, and Championing Gender and Diversity -- Using the Green Transition to Address Recruitment and Attrition, and Support Seafarer Career Pathways -- New Skills and Development of Training Standards for All Seafarers -- Continued Cooperation Towards Implementation of the 10-Point Action Plan -- References -- Securing Global Alignment in Regulations Related to Decarbonization -- Target Audience -- Key Takeaway Messages -- The Importance of Global Regulations -- The International Maritime Organization: Regulations for International Shipping -- Energy Efficiency Design Index (EEDI) -- Ship Energy Efficiency Management Plan (SEEMP) -- IMO Data Collection System (DCS) -- Energy Efficiency Existing Ship Index (EEXI) -- Carbon Intensity Indicator (CII) -- National Decarbonization Plans for Shipping -- Other Regions and Geographies: European Union -- EU Policy for Climate Change -- EU Regulations on Decarbonizing Shipping -- EU Emission Trading System (EU ETS) -- FuelEU Maritime -- Renewable Energy Directive (RED III). | |
| Directive on Deployment of Alternative Fuel Infrastructure (AFIR) -- Energy Taxation Directive -- Applicability -- Closing Remarks -- References -- Decarbonize Shipping or Decarbonize International Maritime Trade: The Present Contractual Framework and the Need for a New Con... -- Key Takeaway Message -- The Legal Foundations of International Maritime Trade -- The Contractual Architecture of International Maritime Trade Through a Decarbonization Lens -- Structural Issues -- Shipbuilding -- Ship Finance -- Commodities Sale and Purchase Contracts and Trade Finance -- Charterparties -- Bills of Lading -- Marine Insurance -- Bunkering Contracts -- Demolition Contracts -- Towage and Salvage, Wreck Removal -- Vessel Sale and Purchase -- Carbon Capture and Storage -- Green Shipping Corridors -- Sail Fast, then Wait: The Biggest Single Carbon Inefficiency in Maritime Trade -- The Third Pillar -- Maritime Decarbonization and Climate Litigation -- The Future -- References -- Engaging the Global Research Communities in Maritime Decarbonization -- Target Audience -- Key Takeaway Messages -- The Research Communities -- Types of Research and Related Constraints -- Research Funding and Demand -- The Need for Pilot Projects and Technology Demonstrators -- Green Corridors -- Examples of Maritime Decarbonization Research -- Role to the Research Communities in Accelerating Decarbonization -- References -- The Implications of Circular Supply Chains and the EU Digital Product Passport in Maritime Decarbonization -- Target Audience -- Key Takeaway Messages -- The Next Economy: The Circular Economy -- Circularity within Maritime -- Failing to Transform into a Circular Economy Will Make the Maritime Sector´s Climate Targets Unachievable -- The Digital Product Passport in a Maritime Context: Enabling Circularity through Material Traceability and Supply Chain Transp -- Contents of the Digital Product Passport. | |
| Sommario/riassunto: | This volume analyses maritime decarbonization from various perspectives. It contains unique approaches and tools in four areas: scenarios, value chains, enablers, and partnerships. Decarbonization has become a very important focus in the maritime industry. Anyone that delves into the topic quickly appreciates its breadth and complexity. Minimizing greenhouse gases (GHG) emissions in maritime practices at large and doing it swiftly is far from simple. The Paris 2015 climate goals and the IMO ambitions may be the industry’s guiding lights. But is this enough? Probably not. At the managerial level a paradigm shift is needed: from a fixed mindset that is calling for compensation to a growth mindset that seeks to capture the benefits of decarbonization. This will require a structured approach in the form of practical frameworks and clear recommendations. In this book 75 scholars and industry and subject matter experts have joined forces to explore different scenarios, value chain designs, decarbonization enablers, and partnership models to develop frameworks and recommendations around how to effectively work and make progress. |
| Titolo autorizzato: | Maritime decarbonization |
| ISBN: | 3-031-39936-6 |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910767503303321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |