Green Digital Transformation: How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action
Gespeichert in:
| Körperschaft: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Washington, D. C.
World Bank Publications
2024
|
| Ausgabe: | 1st ed |
| Schriftenreihe: | Climate Change and Development Series
|
| Online-Zugang: | DE-2070s |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (175 Seiten) |
| ISBN: | 9781464820038 |
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| 245 | 1 | 0 | |a Green Digital Transformation |b How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| 250 | |a 1st ed | ||
| 264 | 1 | |a Washington, D. C. |b World Bank Publications |c 2024 | |
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| 300 | |a 1 Online-Ressource (175 Seiten) | ||
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| 505 | 8 | |a Front Cover -- Contents -- Acknowledgments -- Main Messages -- Executive Summary -- Abbreviations -- Chapter 1. The Digital-Climate Nexus -- Introduction -- The Digital-Climate Policy Nexus -- Digitalization, Economic Development, and Climate Change -- Conceptual Framework: Untangling the Relationship between Digitalization and Climate Change -- Notes -- References -- Chapter 2. Decarbonizing the Digital Sector -- Introduction -- The ICT Sector's Contribution to Global Carbon Dioxide Emissions: Baseline and Forecasts -- Expanding the Use of Renewable Energy and Using Energy More Efficiently -- A Comprehensive Sectoral Approach -- Constraints on and Opportunities for Green Digital in LMICs -- Notes -- References -- Chapter 3. Making the Digital Sector More Resilient -- Introduction -- Protecting Networks -- Protecting Data Infrastructure -- Notes -- References -- Chapter 4. Digital Technologies for Mitigation -- Introduction -- Energy -- Transportation -- Agrifood System -- Urban Centers -- Challenges to Adoption of Digital Technologies for Climate Change Mitigation -- Notes -- References -- Chapter 5. Digital Technologies for Resilience -- Introduction -- Enhancing the Capacity to Adapt to Gradual Climate Impacts -- Managing Climate Shocks with Digital Technologies -- Challenges to Adoption of Digital Solutions for Climate Change Adaptation -- Notes -- References -- Chapter 6. Policy Recommendations: Coordinated Action for Green Digitalization -- The Key Principles of Green Digitalization -- Greening along the Digital Value Chain -- Data and Applications -- Appendix. Nationally Determined Contributions -- Boxes -- Box 1.1 Rwanda's National Strategy for Climate Change and Low Carbon Development Strategy -- Box 1.2 Maldives's Plans to Incorporate Digital Technologies in Adaptation and Mitigation | |
| 505 | 8 | |a Box 1.3 Integration of Policies for Digital and Green Transition in Nordic and Baltic Countries -- Box 1.4 Ministerial Declaration on a Green and Digital Transformation of the EU -- Box 2.1 Methodological Considerations for Assessing Greenhouse Gas Emissions of the ICT Sector -- Box 2.2 Ecoratings and Ecolabeling of Devices -- Box 2.3 E-waste Management in Low- and Middle-Income Countries -- Box 2.4 The Republic of Korea's Multipronged Approach to Green Digital -- Box 2.5 Examples of Government and Corporate Efforts to Expand the Use of Renewable Electricity -- Box 2.6 The Private Sector: Moving to Meet Its Climate Change Goals -- Box 4.1 Contributions of Selected Digital Technologies to Mitigation Efforts -- Box 5.1 East Africa's Index-Based Insurance -- Box 5.2 Lisbon's Digital Twin for Flood Resilience -- Box 5.3 Digitally Enhanced Flood Management -- Figures -- Figure ES.1 The Green-Digital Nexus -- Figure ES.2 Mentions of Technology in Mitigation and Adaptation Provisions of Nationally Determined Contributions (NDCs) -- Figure ES.3 Emissions from Subsectors of the ICT Sector -- Figure 1.1 National Pledges to Reduce Emissions, by Target Year -- Figure 1.2 Mentions of Technology in Mitigation and Adaptation Provisions of NDCs, by Country Income Group -- Figure B1.3.1 Overview of National Policies, by Policy Area and Degree of Digital and Green Integration -- Figure 1.3 Conceptual Framework for Relationship between Digitalization and Climate Change -- Figure 1.4 Levels of Digitalization, by Country Income Group and Region -- Figure B2.1.1 Overview of GHG Protocol Scopes and Emissions across the Value Chain -- Figure 2.1 Energy Consumption Estimates 2010-15 (left) and Carbon Footprint Estimates 2010-15 and Forecasts 2020 (right), ICT Sector -- Figure 2.2 Carbon Footprint Estimates (2007-17) and Forecasts (2018-20), ICT Sector | |
| 505 | 8 | |a Figure 2.3 Changes in ICT Sector Scope 1 and 2 Emissions and Electricity Use, 2018-20 -- Figure 2.4 ICT Carbon Footprint as a Percentage of Total GHG Emissions Projected through 2040 Using Exponential and Linear Fits -- Figure 2.5 ICT Sector Carbon Footprint Baseline, 2015-20, and Forecasts, 2025-30 (Including Electricity Supply Chain and Grid Losses) -- Figure 2.6 Relative GHG Emissions of the ICT Sector, by Main Component -- Figure 2.7 Relative Contributions of Components of ICT Sector, 2010 and 2020 -- Figure 2.8 Relative Contributions of Components of ICT Sector -- Figure 2.9 Estimated Breakdown of Towers by Grid Condition: Sub-Saharan Africa, 2017 -- Figure 2.10 Data Center Energy Use, Magnitude and Trends -- Figure 2.11 Data Centers Compute Instances and Energy Usage, by Region -- Figure 2.12 Global Distribution of Large Data Centers and Data Centers' Investment in Information Technology (IT), 2019 -- Figure 2.13 Forecast of Revenue Market Share of Regional Data Centers, 2023 -- Figure 2.14 Life-Cycle GHG Emissions of an Apple iPhone -- Figure 2.15 Sustainable Initiatives Noted by Mobile Operators in Europe -- Figure 2.16 Total Cellular Site CO2 Emissions over 2020-30, by Infrastructure Sharing Strategy and Country Income Group -- Figure 2.17 Financial Cost of Universal Broadband, by Technology, 2023-30 -- Figure 2.18 Cumulative Cellular Site Emissions, by Technology, 2023-30 -- Figure 2.19 Assessment of the Impacts of Off-Grid Renewable Power Strategies for Universal Broadband Options, by Emissions Type, Colombia -- Figure B2.3.1 E-waste Management, by Region -- Figure 2.20 Technical Strategies to Decarbonize the ICT Sector -- Figure B2.4.1 Key Measures for Greening the ICT Sector in the Republic of Korea -- Figure 2.21 Access to Electricity Compared with Grid Emissions Factor, Selected Low- and Middle-Income Countries, 2020 | |
| 505 | 8 | |a Figure 2.22 RISE Renewable Energy Pillar Scores, 2019 -- Figure 3.1 Examples of Natural Hazard Risks to Digital Infrastructure -- Figure 3.2 Mobile Infrastructure Vulnerable to Coastal Flooding -- Figure 3.3 Mobile Infrastructure Vulnerable to Tropical Cyclones -- Figure 4.1 Emissions Profiles of Four Sectors: Energy, Transportation, Agrifood, and Urban Centers -- Maps -- Map 1.1 Areas Susceptible to Flood Hazards -- Map 1.2 Mobile Network Coverage -- Map 3.1 Mobile Infrastructure Assets at Risk in Ghana -- Map 5.1 Landslide Hazard Areas of Malawi Not Covered by 2G and 3G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Map 5.2 Riverine Flooding Areas of Ghana Not Covered by 2G and 4G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Tables -- Table 1.1 Examples of Green Digital Policy Types (Nonexhaustive) -- Table 2.1 Mobile Sites and Quality of Power Solutions: Global Distribution, 2019 -- Table 2.2 Global Distribution of GHG Emissions from Diesel Generators Powering Mobile Sites, 2020 -- Table 2.3 Mobile Sites and Power Solutions: Global Distribution by 2030 -- Table 2.4 Top 10 Region-to-Region International Bandwidth Routes, 2020 and 2027 -- Table 2.5 GHG Emissions, Consumer Device Hardware Companies, 2020 -- Table 2.6 Mobile Phones and Smartphones: Global Distribution, 2020 and 2025 -- Table 3.1 Extreme Weather or Climate Change Risks to Data Infrastructure -- Table 5.1 Examples of Links between Digitalization and Adaptation -- Table 6.1 Actions to Be Pursued by Stakeholders along the Digital Value Chain -- Table A.1 Number of Countries and Economies in Analysis, by Income Level -- Table A.2 Countries and Economies Included in Analysis, by Country or Economy Income Group -- Table A.3 Classification of General Technologies Considered in Analysis, by Mitigation and Adaptation | |
| 505 | 8 | |a Table A.4 Classification of Digital Technologies Considered in Analysis, by Adaptation and Mitigation -- Table A.5 Number of Mentions of Mitigation and Adaptation Technologies (General and Digital) in Nationally Determined Contributions and Percentage of Countries Mentioning Technologies -- Table A.6 General and Digital Mitigation and Adaptation Technologies Mentioned in Nationally Determined Contributions, by Country Income Level -- Table A.7 Priority Sectors for Mitigation and Adaptation, by Country Income Group | |
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| contents | Front Cover -- Contents -- Acknowledgments -- Main Messages -- Executive Summary -- Abbreviations -- Chapter 1. The Digital-Climate Nexus -- Introduction -- The Digital-Climate Policy Nexus -- Digitalization, Economic Development, and Climate Change -- Conceptual Framework: Untangling the Relationship between Digitalization and Climate Change -- Notes -- References -- Chapter 2. Decarbonizing the Digital Sector -- Introduction -- The ICT Sector's Contribution to Global Carbon Dioxide Emissions: Baseline and Forecasts -- Expanding the Use of Renewable Energy and Using Energy More Efficiently -- A Comprehensive Sectoral Approach -- Constraints on and Opportunities for Green Digital in LMICs -- Notes -- References -- Chapter 3. Making the Digital Sector More Resilient -- Introduction -- Protecting Networks -- Protecting Data Infrastructure -- Notes -- References -- Chapter 4. Digital Technologies for Mitigation -- Introduction -- Energy -- Transportation -- Agrifood System -- Urban Centers -- Challenges to Adoption of Digital Technologies for Climate Change Mitigation -- Notes -- References -- Chapter 5. Digital Technologies for Resilience -- Introduction -- Enhancing the Capacity to Adapt to Gradual Climate Impacts -- Managing Climate Shocks with Digital Technologies -- Challenges to Adoption of Digital Solutions for Climate Change Adaptation -- Notes -- References -- Chapter 6. Policy Recommendations: Coordinated Action for Green Digitalization -- The Key Principles of Green Digitalization -- Greening along the Digital Value Chain -- Data and Applications -- Appendix. Nationally Determined Contributions -- Boxes -- Box 1.1 Rwanda's National Strategy for Climate Change and Low Carbon Development Strategy -- Box 1.2 Maldives's Plans to Incorporate Digital Technologies in Adaptation and Mitigation Box 1.3 Integration of Policies for Digital and Green Transition in Nordic and Baltic Countries -- Box 1.4 Ministerial Declaration on a Green and Digital Transformation of the EU -- Box 2.1 Methodological Considerations for Assessing Greenhouse Gas Emissions of the ICT Sector -- Box 2.2 Ecoratings and Ecolabeling of Devices -- Box 2.3 E-waste Management in Low- and Middle-Income Countries -- Box 2.4 The Republic of Korea's Multipronged Approach to Green Digital -- Box 2.5 Examples of Government and Corporate Efforts to Expand the Use of Renewable Electricity -- Box 2.6 The Private Sector: Moving to Meet Its Climate Change Goals -- Box 4.1 Contributions of Selected Digital Technologies to Mitigation Efforts -- Box 5.1 East Africa's Index-Based Insurance -- Box 5.2 Lisbon's Digital Twin for Flood Resilience -- Box 5.3 Digitally Enhanced Flood Management -- Figures -- Figure ES.1 The Green-Digital Nexus -- Figure ES.2 Mentions of Technology in Mitigation and Adaptation Provisions of Nationally Determined Contributions (NDCs) -- Figure ES.3 Emissions from Subsectors of the ICT Sector -- Figure 1.1 National Pledges to Reduce Emissions, by Target Year -- Figure 1.2 Mentions of Technology in Mitigation and Adaptation Provisions of NDCs, by Country Income Group -- Figure B1.3.1 Overview of National Policies, by Policy Area and Degree of Digital and Green Integration -- Figure 1.3 Conceptual Framework for Relationship between Digitalization and Climate Change -- Figure 1.4 Levels of Digitalization, by Country Income Group and Region -- Figure B2.1.1 Overview of GHG Protocol Scopes and Emissions across the Value Chain -- Figure 2.1 Energy Consumption Estimates 2010-15 (left) and Carbon Footprint Estimates 2010-15 and Forecasts 2020 (right), ICT Sector -- Figure 2.2 Carbon Footprint Estimates (2007-17) and Forecasts (2018-20), ICT Sector Figure 2.3 Changes in ICT Sector Scope 1 and 2 Emissions and Electricity Use, 2018-20 -- Figure 2.4 ICT Carbon Footprint as a Percentage of Total GHG Emissions Projected through 2040 Using Exponential and Linear Fits -- Figure 2.5 ICT Sector Carbon Footprint Baseline, 2015-20, and Forecasts, 2025-30 (Including Electricity Supply Chain and Grid Losses) -- Figure 2.6 Relative GHG Emissions of the ICT Sector, by Main Component -- Figure 2.7 Relative Contributions of Components of ICT Sector, 2010 and 2020 -- Figure 2.8 Relative Contributions of Components of ICT Sector -- Figure 2.9 Estimated Breakdown of Towers by Grid Condition: Sub-Saharan Africa, 2017 -- Figure 2.10 Data Center Energy Use, Magnitude and Trends -- Figure 2.11 Data Centers Compute Instances and Energy Usage, by Region -- Figure 2.12 Global Distribution of Large Data Centers and Data Centers' Investment in Information Technology (IT), 2019 -- Figure 2.13 Forecast of Revenue Market Share of Regional Data Centers, 2023 -- Figure 2.14 Life-Cycle GHG Emissions of an Apple iPhone -- Figure 2.15 Sustainable Initiatives Noted by Mobile Operators in Europe -- Figure 2.16 Total Cellular Site CO2 Emissions over 2020-30, by Infrastructure Sharing Strategy and Country Income Group -- Figure 2.17 Financial Cost of Universal Broadband, by Technology, 2023-30 -- Figure 2.18 Cumulative Cellular Site Emissions, by Technology, 2023-30 -- Figure 2.19 Assessment of the Impacts of Off-Grid Renewable Power Strategies for Universal Broadband Options, by Emissions Type, Colombia -- Figure B2.3.1 E-waste Management, by Region -- Figure 2.20 Technical Strategies to Decarbonize the ICT Sector -- Figure B2.4.1 Key Measures for Greening the ICT Sector in the Republic of Korea -- Figure 2.21 Access to Electricity Compared with Grid Emissions Factor, Selected Low- and Middle-Income Countries, 2020 Figure 2.22 RISE Renewable Energy Pillar Scores, 2019 -- Figure 3.1 Examples of Natural Hazard Risks to Digital Infrastructure -- Figure 3.2 Mobile Infrastructure Vulnerable to Coastal Flooding -- Figure 3.3 Mobile Infrastructure Vulnerable to Tropical Cyclones -- Figure 4.1 Emissions Profiles of Four Sectors: Energy, Transportation, Agrifood, and Urban Centers -- Maps -- Map 1.1 Areas Susceptible to Flood Hazards -- Map 1.2 Mobile Network Coverage -- Map 3.1 Mobile Infrastructure Assets at Risk in Ghana -- Map 5.1 Landslide Hazard Areas of Malawi Not Covered by 2G and 3G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Map 5.2 Riverine Flooding Areas of Ghana Not Covered by 2G and 4G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Tables -- Table 1.1 Examples of Green Digital Policy Types (Nonexhaustive) -- Table 2.1 Mobile Sites and Quality of Power Solutions: Global Distribution, 2019 -- Table 2.2 Global Distribution of GHG Emissions from Diesel Generators Powering Mobile Sites, 2020 -- Table 2.3 Mobile Sites and Power Solutions: Global Distribution by 2030 -- Table 2.4 Top 10 Region-to-Region International Bandwidth Routes, 2020 and 2027 -- Table 2.5 GHG Emissions, Consumer Device Hardware Companies, 2020 -- Table 2.6 Mobile Phones and Smartphones: Global Distribution, 2020 and 2025 -- Table 3.1 Extreme Weather or Climate Change Risks to Data Infrastructure -- Table 5.1 Examples of Links between Digitalization and Adaptation -- Table 6.1 Actions to Be Pursued by Stakeholders along the Digital Value Chain -- Table A.1 Number of Countries and Economies in Analysis, by Income Level -- Table A.2 Countries and Economies Included in Analysis, by Country or Economy Income Group -- Table A.3 Classification of General Technologies Considered in Analysis, by Mitigation and Adaptation Table A.4 Classification of Digital Technologies Considered in Analysis, by Adaptation and Mitigation -- Table A.5 Number of Mentions of Mitigation and Adaptation Technologies (General and Digital) in Nationally Determined Contributions and Percentage of Countries Mentioning Technologies -- Table A.6 General and Digital Mitigation and Adaptation Technologies Mentioned in Nationally Determined Contributions, by Country Income Level -- Table A.7 Priority Sectors for Mitigation and Adaptation, by Country Income Group |
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| edition | 1st ed |
| format | Electronic eBook |
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The Digital-Climate Nexus -- Introduction -- The Digital-Climate Policy Nexus -- Digitalization, Economic Development, and Climate Change -- Conceptual Framework: Untangling the Relationship between Digitalization and Climate Change -- Notes -- References -- Chapter 2. Decarbonizing the Digital Sector -- Introduction -- The ICT Sector's Contribution to Global Carbon Dioxide Emissions: Baseline and Forecasts -- Expanding the Use of Renewable Energy and Using Energy More Efficiently -- A Comprehensive Sectoral Approach -- Constraints on and Opportunities for Green Digital in LMICs -- Notes -- References -- Chapter 3. Making the Digital Sector More Resilient -- Introduction -- Protecting Networks -- Protecting Data Infrastructure -- Notes -- References -- Chapter 4. Digital Technologies for Mitigation -- Introduction -- Energy -- Transportation -- Agrifood System -- Urban Centers -- Challenges to Adoption of Digital Technologies for Climate Change Mitigation -- Notes -- References -- Chapter 5. Digital Technologies for Resilience -- Introduction -- Enhancing the Capacity to Adapt to Gradual Climate Impacts -- Managing Climate Shocks with Digital Technologies -- Challenges to Adoption of Digital Solutions for Climate Change Adaptation -- Notes -- References -- Chapter 6. Policy Recommendations: Coordinated Action for Green Digitalization -- The Key Principles of Green Digitalization -- Greening along the Digital Value Chain -- Data and Applications -- Appendix. Nationally Determined Contributions -- Boxes -- Box 1.1 Rwanda's National Strategy for Climate Change and Low Carbon Development Strategy -- Box 1.2 Maldives's Plans to Incorporate Digital Technologies in Adaptation and Mitigation</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Box 1.3 Integration of Policies for Digital and Green Transition in Nordic and Baltic Countries -- Box 1.4 Ministerial Declaration on a Green and Digital Transformation of the EU -- Box 2.1 Methodological Considerations for Assessing Greenhouse Gas Emissions of the ICT Sector -- Box 2.2 Ecoratings and Ecolabeling of Devices -- Box 2.3 E-waste Management in Low- and Middle-Income Countries -- Box 2.4 The Republic of Korea's Multipronged Approach to Green Digital -- Box 2.5 Examples of Government and Corporate Efforts to Expand the Use of Renewable Electricity -- Box 2.6 The Private Sector: Moving to Meet Its Climate Change Goals -- Box 4.1 Contributions of Selected Digital Technologies to Mitigation Efforts -- Box 5.1 East Africa's Index-Based Insurance -- Box 5.2 Lisbon's Digital Twin for Flood Resilience -- Box 5.3 Digitally Enhanced Flood Management -- Figures -- Figure ES.1 The Green-Digital Nexus -- Figure ES.2 Mentions of Technology in Mitigation and Adaptation Provisions of Nationally Determined Contributions (NDCs) -- Figure ES.3 Emissions from Subsectors of the ICT Sector -- Figure 1.1 National Pledges to Reduce Emissions, by Target Year -- Figure 1.2 Mentions of Technology in Mitigation and Adaptation Provisions of NDCs, by Country Income Group -- Figure B1.3.1 Overview of National Policies, by Policy Area and Degree of Digital and Green Integration -- Figure 1.3 Conceptual Framework for Relationship between Digitalization and Climate Change -- Figure 1.4 Levels of Digitalization, by Country Income Group and Region -- Figure B2.1.1 Overview of GHG Protocol Scopes and Emissions across the Value Chain -- Figure 2.1 Energy Consumption Estimates 2010-15 (left) and Carbon Footprint Estimates 2010-15 and Forecasts 2020 (right), ICT Sector -- Figure 2.2 Carbon Footprint Estimates (2007-17) and Forecasts (2018-20), ICT Sector</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Figure 2.3 Changes in ICT Sector Scope 1 and 2 Emissions and Electricity Use, 2018-20 -- Figure 2.4 ICT Carbon Footprint as a Percentage of Total GHG Emissions Projected through 2040 Using Exponential and Linear Fits -- Figure 2.5 ICT Sector Carbon Footprint Baseline, 2015-20, and Forecasts, 2025-30 (Including Electricity Supply Chain and Grid Losses) -- Figure 2.6 Relative GHG Emissions of the ICT Sector, by Main Component -- Figure 2.7 Relative Contributions of Components of ICT Sector, 2010 and 2020 -- Figure 2.8 Relative Contributions of Components of ICT Sector -- Figure 2.9 Estimated Breakdown of Towers by Grid Condition: Sub-Saharan Africa, 2017 -- Figure 2.10 Data Center Energy Use, Magnitude and Trends -- Figure 2.11 Data Centers Compute Instances and Energy Usage, by Region -- Figure 2.12 Global Distribution of Large Data Centers and Data Centers' Investment in Information Technology (IT), 2019 -- Figure 2.13 Forecast of Revenue Market Share of Regional Data Centers, 2023 -- Figure 2.14 Life-Cycle GHG Emissions of an Apple iPhone -- Figure 2.15 Sustainable Initiatives Noted by Mobile Operators in Europe -- Figure 2.16 Total Cellular Site CO2 Emissions over 2020-30, by Infrastructure Sharing Strategy and Country Income Group -- Figure 2.17 Financial Cost of Universal Broadband, by Technology, 2023-30 -- Figure 2.18 Cumulative Cellular Site Emissions, by Technology, 2023-30 -- Figure 2.19 Assessment of the Impacts of Off-Grid Renewable Power Strategies for Universal Broadband Options, by Emissions Type, Colombia -- Figure B2.3.1 E-waste Management, by Region -- Figure 2.20 Technical Strategies to Decarbonize the ICT Sector -- Figure B2.4.1 Key Measures for Greening the ICT Sector in the Republic of Korea -- Figure 2.21 Access to Electricity Compared with Grid Emissions Factor, Selected Low- and Middle-Income Countries, 2020</subfield></datafield><datafield tag="505" ind1="8" ind2=" "><subfield code="a">Figure 2.22 RISE Renewable Energy Pillar Scores, 2019 -- Figure 3.1 Examples of Natural Hazard Risks to Digital Infrastructure -- Figure 3.2 Mobile Infrastructure Vulnerable to Coastal Flooding -- Figure 3.3 Mobile Infrastructure Vulnerable to Tropical Cyclones -- Figure 4.1 Emissions Profiles of Four Sectors: Energy, Transportation, Agrifood, and Urban Centers -- Maps -- Map 1.1 Areas Susceptible to Flood Hazards -- Map 1.2 Mobile Network Coverage -- Map 3.1 Mobile Infrastructure Assets at Risk in Ghana -- Map 5.1 Landslide Hazard Areas of Malawi Not Covered by 2G and 3G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Map 5.2 Riverine Flooding Areas of Ghana Not Covered by 2G and 4G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Tables -- Table 1.1 Examples of Green Digital Policy Types (Nonexhaustive) -- Table 2.1 Mobile Sites and Quality of Power Solutions: Global Distribution, 2019 -- Table 2.2 Global Distribution of GHG Emissions from Diesel Generators Powering Mobile Sites, 2020 -- Table 2.3 Mobile Sites and Power Solutions: Global Distribution by 2030 -- Table 2.4 Top 10 Region-to-Region International Bandwidth Routes, 2020 and 2027 -- Table 2.5 GHG Emissions, Consumer Device Hardware Companies, 2020 -- Table 2.6 Mobile Phones and Smartphones: Global Distribution, 2020 and 2025 -- Table 3.1 Extreme Weather or Climate Change Risks to Data Infrastructure -- Table 5.1 Examples of Links between Digitalization and Adaptation -- Table 6.1 Actions to Be Pursued by Stakeholders along the Digital Value Chain -- Table A.1 Number of Countries and Economies in Analysis, by Income Level -- Table A.2 Countries and Economies Included in Analysis, by Country or Economy Income Group -- Table A.3 Classification of General Technologies 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| id | DE-604.BV049873707 |
| illustrated | Not Illustrated |
| indexdate | 2024-09-19T05:21:48Z |
| institution | BVB |
| isbn | 9781464820038 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-035213165 |
| oclc_num | 1423130747 |
| open_access_boolean | |
| owner | DE-2070s |
| owner_facet | DE-2070s |
| physical | 1 Online-Ressource (175 Seiten) |
| psigel | ZDB-30-PQE ZDB-30-PQE HWR_PDA_PQE |
| publishDate | 2024 |
| publishDateSearch | 2024 |
| publishDateSort | 2024 |
| publisher | World Bank Publications |
| record_format | marc |
| series2 | Climate Change and Development Series |
| spelling | The World Bank, The World Verfasser aut Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action 1st ed Washington, D. C. World Bank Publications 2024 ©2024 1 Online-Ressource (175 Seiten) txt rdacontent c rdamedia cr rdacarrier Climate Change and Development Series Description based on publisher supplied metadata and other sources Front Cover -- Contents -- Acknowledgments -- Main Messages -- Executive Summary -- Abbreviations -- Chapter 1. The Digital-Climate Nexus -- Introduction -- The Digital-Climate Policy Nexus -- Digitalization, Economic Development, and Climate Change -- Conceptual Framework: Untangling the Relationship between Digitalization and Climate Change -- Notes -- References -- Chapter 2. Decarbonizing the Digital Sector -- Introduction -- The ICT Sector's Contribution to Global Carbon Dioxide Emissions: Baseline and Forecasts -- Expanding the Use of Renewable Energy and Using Energy More Efficiently -- A Comprehensive Sectoral Approach -- Constraints on and Opportunities for Green Digital in LMICs -- Notes -- References -- Chapter 3. Making the Digital Sector More Resilient -- Introduction -- Protecting Networks -- Protecting Data Infrastructure -- Notes -- References -- Chapter 4. Digital Technologies for Mitigation -- Introduction -- Energy -- Transportation -- Agrifood System -- Urban Centers -- Challenges to Adoption of Digital Technologies for Climate Change Mitigation -- Notes -- References -- Chapter 5. Digital Technologies for Resilience -- Introduction -- Enhancing the Capacity to Adapt to Gradual Climate Impacts -- Managing Climate Shocks with Digital Technologies -- Challenges to Adoption of Digital Solutions for Climate Change Adaptation -- Notes -- References -- Chapter 6. Policy Recommendations: Coordinated Action for Green Digitalization -- The Key Principles of Green Digitalization -- Greening along the Digital Value Chain -- Data and Applications -- Appendix. Nationally Determined Contributions -- Boxes -- Box 1.1 Rwanda's National Strategy for Climate Change and Low Carbon Development Strategy -- Box 1.2 Maldives's Plans to Incorporate Digital Technologies in Adaptation and Mitigation Box 1.3 Integration of Policies for Digital and Green Transition in Nordic and Baltic Countries -- Box 1.4 Ministerial Declaration on a Green and Digital Transformation of the EU -- Box 2.1 Methodological Considerations for Assessing Greenhouse Gas Emissions of the ICT Sector -- Box 2.2 Ecoratings and Ecolabeling of Devices -- Box 2.3 E-waste Management in Low- and Middle-Income Countries -- Box 2.4 The Republic of Korea's Multipronged Approach to Green Digital -- Box 2.5 Examples of Government and Corporate Efforts to Expand the Use of Renewable Electricity -- Box 2.6 The Private Sector: Moving to Meet Its Climate Change Goals -- Box 4.1 Contributions of Selected Digital Technologies to Mitigation Efforts -- Box 5.1 East Africa's Index-Based Insurance -- Box 5.2 Lisbon's Digital Twin for Flood Resilience -- Box 5.3 Digitally Enhanced Flood Management -- Figures -- Figure ES.1 The Green-Digital Nexus -- Figure ES.2 Mentions of Technology in Mitigation and Adaptation Provisions of Nationally Determined Contributions (NDCs) -- Figure ES.3 Emissions from Subsectors of the ICT Sector -- Figure 1.1 National Pledges to Reduce Emissions, by Target Year -- Figure 1.2 Mentions of Technology in Mitigation and Adaptation Provisions of NDCs, by Country Income Group -- Figure B1.3.1 Overview of National Policies, by Policy Area and Degree of Digital and Green Integration -- Figure 1.3 Conceptual Framework for Relationship between Digitalization and Climate Change -- Figure 1.4 Levels of Digitalization, by Country Income Group and Region -- Figure B2.1.1 Overview of GHG Protocol Scopes and Emissions across the Value Chain -- Figure 2.1 Energy Consumption Estimates 2010-15 (left) and Carbon Footprint Estimates 2010-15 and Forecasts 2020 (right), ICT Sector -- Figure 2.2 Carbon Footprint Estimates (2007-17) and Forecasts (2018-20), ICT Sector Figure 2.3 Changes in ICT Sector Scope 1 and 2 Emissions and Electricity Use, 2018-20 -- Figure 2.4 ICT Carbon Footprint as a Percentage of Total GHG Emissions Projected through 2040 Using Exponential and Linear Fits -- Figure 2.5 ICT Sector Carbon Footprint Baseline, 2015-20, and Forecasts, 2025-30 (Including Electricity Supply Chain and Grid Losses) -- Figure 2.6 Relative GHG Emissions of the ICT Sector, by Main Component -- Figure 2.7 Relative Contributions of Components of ICT Sector, 2010 and 2020 -- Figure 2.8 Relative Contributions of Components of ICT Sector -- Figure 2.9 Estimated Breakdown of Towers by Grid Condition: Sub-Saharan Africa, 2017 -- Figure 2.10 Data Center Energy Use, Magnitude and Trends -- Figure 2.11 Data Centers Compute Instances and Energy Usage, by Region -- Figure 2.12 Global Distribution of Large Data Centers and Data Centers' Investment in Information Technology (IT), 2019 -- Figure 2.13 Forecast of Revenue Market Share of Regional Data Centers, 2023 -- Figure 2.14 Life-Cycle GHG Emissions of an Apple iPhone -- Figure 2.15 Sustainable Initiatives Noted by Mobile Operators in Europe -- Figure 2.16 Total Cellular Site CO2 Emissions over 2020-30, by Infrastructure Sharing Strategy and Country Income Group -- Figure 2.17 Financial Cost of Universal Broadband, by Technology, 2023-30 -- Figure 2.18 Cumulative Cellular Site Emissions, by Technology, 2023-30 -- Figure 2.19 Assessment of the Impacts of Off-Grid Renewable Power Strategies for Universal Broadband Options, by Emissions Type, Colombia -- Figure B2.3.1 E-waste Management, by Region -- Figure 2.20 Technical Strategies to Decarbonize the ICT Sector -- Figure B2.4.1 Key Measures for Greening the ICT Sector in the Republic of Korea -- Figure 2.21 Access to Electricity Compared with Grid Emissions Factor, Selected Low- and Middle-Income Countries, 2020 Figure 2.22 RISE Renewable Energy Pillar Scores, 2019 -- Figure 3.1 Examples of Natural Hazard Risks to Digital Infrastructure -- Figure 3.2 Mobile Infrastructure Vulnerable to Coastal Flooding -- Figure 3.3 Mobile Infrastructure Vulnerable to Tropical Cyclones -- Figure 4.1 Emissions Profiles of Four Sectors: Energy, Transportation, Agrifood, and Urban Centers -- Maps -- Map 1.1 Areas Susceptible to Flood Hazards -- Map 1.2 Mobile Network Coverage -- Map 3.1 Mobile Infrastructure Assets at Risk in Ghana -- Map 5.1 Landslide Hazard Areas of Malawi Not Covered by 2G and 3G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Map 5.2 Riverine Flooding Areas of Ghana Not Covered by 2G and 4G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Tables -- Table 1.1 Examples of Green Digital Policy Types (Nonexhaustive) -- Table 2.1 Mobile Sites and Quality of Power Solutions: Global Distribution, 2019 -- Table 2.2 Global Distribution of GHG Emissions from Diesel Generators Powering Mobile Sites, 2020 -- Table 2.3 Mobile Sites and Power Solutions: Global Distribution by 2030 -- Table 2.4 Top 10 Region-to-Region International Bandwidth Routes, 2020 and 2027 -- Table 2.5 GHG Emissions, Consumer Device Hardware Companies, 2020 -- Table 2.6 Mobile Phones and Smartphones: Global Distribution, 2020 and 2025 -- Table 3.1 Extreme Weather or Climate Change Risks to Data Infrastructure -- Table 5.1 Examples of Links between Digitalization and Adaptation -- Table 6.1 Actions to Be Pursued by Stakeholders along the Digital Value Chain -- Table A.1 Number of Countries and Economies in Analysis, by Income Level -- Table A.2 Countries and Economies Included in Analysis, by Country or Economy Income Group -- Table A.3 Classification of General Technologies Considered in Analysis, by Mitigation and Adaptation Table A.4 Classification of Digital Technologies Considered in Analysis, by Adaptation and Mitigation -- Table A.5 Number of Mentions of Mitigation and Adaptation Technologies (General and Digital) in Nationally Determined Contributions and Percentage of Countries Mentioning Technologies -- Table A.6 General and Digital Mitigation and Adaptation Technologies Mentioned in Nationally Determined Contributions, by Country Income Level -- Table A.7 Priority Sectors for Mitigation and Adaptation, by Country Income Group Erscheint auch als Druck-Ausgabe The World Bank, The World Green Digital Transformation Washington, D. C. : World Bank Publications,c2024 9781464820021 |
| spellingShingle | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action Front Cover -- Contents -- Acknowledgments -- Main Messages -- Executive Summary -- Abbreviations -- Chapter 1. The Digital-Climate Nexus -- Introduction -- The Digital-Climate Policy Nexus -- Digitalization, Economic Development, and Climate Change -- Conceptual Framework: Untangling the Relationship between Digitalization and Climate Change -- Notes -- References -- Chapter 2. Decarbonizing the Digital Sector -- Introduction -- The ICT Sector's Contribution to Global Carbon Dioxide Emissions: Baseline and Forecasts -- Expanding the Use of Renewable Energy and Using Energy More Efficiently -- A Comprehensive Sectoral Approach -- Constraints on and Opportunities for Green Digital in LMICs -- Notes -- References -- Chapter 3. Making the Digital Sector More Resilient -- Introduction -- Protecting Networks -- Protecting Data Infrastructure -- Notes -- References -- Chapter 4. Digital Technologies for Mitigation -- Introduction -- Energy -- Transportation -- Agrifood System -- Urban Centers -- Challenges to Adoption of Digital Technologies for Climate Change Mitigation -- Notes -- References -- Chapter 5. Digital Technologies for Resilience -- Introduction -- Enhancing the Capacity to Adapt to Gradual Climate Impacts -- Managing Climate Shocks with Digital Technologies -- Challenges to Adoption of Digital Solutions for Climate Change Adaptation -- Notes -- References -- Chapter 6. Policy Recommendations: Coordinated Action for Green Digitalization -- The Key Principles of Green Digitalization -- Greening along the Digital Value Chain -- Data and Applications -- Appendix. Nationally Determined Contributions -- Boxes -- Box 1.1 Rwanda's National Strategy for Climate Change and Low Carbon Development Strategy -- Box 1.2 Maldives's Plans to Incorporate Digital Technologies in Adaptation and Mitigation Box 1.3 Integration of Policies for Digital and Green Transition in Nordic and Baltic Countries -- Box 1.4 Ministerial Declaration on a Green and Digital Transformation of the EU -- Box 2.1 Methodological Considerations for Assessing Greenhouse Gas Emissions of the ICT Sector -- Box 2.2 Ecoratings and Ecolabeling of Devices -- Box 2.3 E-waste Management in Low- and Middle-Income Countries -- Box 2.4 The Republic of Korea's Multipronged Approach to Green Digital -- Box 2.5 Examples of Government and Corporate Efforts to Expand the Use of Renewable Electricity -- Box 2.6 The Private Sector: Moving to Meet Its Climate Change Goals -- Box 4.1 Contributions of Selected Digital Technologies to Mitigation Efforts -- Box 5.1 East Africa's Index-Based Insurance -- Box 5.2 Lisbon's Digital Twin for Flood Resilience -- Box 5.3 Digitally Enhanced Flood Management -- Figures -- Figure ES.1 The Green-Digital Nexus -- Figure ES.2 Mentions of Technology in Mitigation and Adaptation Provisions of Nationally Determined Contributions (NDCs) -- Figure ES.3 Emissions from Subsectors of the ICT Sector -- Figure 1.1 National Pledges to Reduce Emissions, by Target Year -- Figure 1.2 Mentions of Technology in Mitigation and Adaptation Provisions of NDCs, by Country Income Group -- Figure B1.3.1 Overview of National Policies, by Policy Area and Degree of Digital and Green Integration -- Figure 1.3 Conceptual Framework for Relationship between Digitalization and Climate Change -- Figure 1.4 Levels of Digitalization, by Country Income Group and Region -- Figure B2.1.1 Overview of GHG Protocol Scopes and Emissions across the Value Chain -- Figure 2.1 Energy Consumption Estimates 2010-15 (left) and Carbon Footprint Estimates 2010-15 and Forecasts 2020 (right), ICT Sector -- Figure 2.2 Carbon Footprint Estimates (2007-17) and Forecasts (2018-20), ICT Sector Figure 2.3 Changes in ICT Sector Scope 1 and 2 Emissions and Electricity Use, 2018-20 -- Figure 2.4 ICT Carbon Footprint as a Percentage of Total GHG Emissions Projected through 2040 Using Exponential and Linear Fits -- Figure 2.5 ICT Sector Carbon Footprint Baseline, 2015-20, and Forecasts, 2025-30 (Including Electricity Supply Chain and Grid Losses) -- Figure 2.6 Relative GHG Emissions of the ICT Sector, by Main Component -- Figure 2.7 Relative Contributions of Components of ICT Sector, 2010 and 2020 -- Figure 2.8 Relative Contributions of Components of ICT Sector -- Figure 2.9 Estimated Breakdown of Towers by Grid Condition: Sub-Saharan Africa, 2017 -- Figure 2.10 Data Center Energy Use, Magnitude and Trends -- Figure 2.11 Data Centers Compute Instances and Energy Usage, by Region -- Figure 2.12 Global Distribution of Large Data Centers and Data Centers' Investment in Information Technology (IT), 2019 -- Figure 2.13 Forecast of Revenue Market Share of Regional Data Centers, 2023 -- Figure 2.14 Life-Cycle GHG Emissions of an Apple iPhone -- Figure 2.15 Sustainable Initiatives Noted by Mobile Operators in Europe -- Figure 2.16 Total Cellular Site CO2 Emissions over 2020-30, by Infrastructure Sharing Strategy and Country Income Group -- Figure 2.17 Financial Cost of Universal Broadband, by Technology, 2023-30 -- Figure 2.18 Cumulative Cellular Site Emissions, by Technology, 2023-30 -- Figure 2.19 Assessment of the Impacts of Off-Grid Renewable Power Strategies for Universal Broadband Options, by Emissions Type, Colombia -- Figure B2.3.1 E-waste Management, by Region -- Figure 2.20 Technical Strategies to Decarbonize the ICT Sector -- Figure B2.4.1 Key Measures for Greening the ICT Sector in the Republic of Korea -- Figure 2.21 Access to Electricity Compared with Grid Emissions Factor, Selected Low- and Middle-Income Countries, 2020 Figure 2.22 RISE Renewable Energy Pillar Scores, 2019 -- Figure 3.1 Examples of Natural Hazard Risks to Digital Infrastructure -- Figure 3.2 Mobile Infrastructure Vulnerable to Coastal Flooding -- Figure 3.3 Mobile Infrastructure Vulnerable to Tropical Cyclones -- Figure 4.1 Emissions Profiles of Four Sectors: Energy, Transportation, Agrifood, and Urban Centers -- Maps -- Map 1.1 Areas Susceptible to Flood Hazards -- Map 1.2 Mobile Network Coverage -- Map 3.1 Mobile Infrastructure Assets at Risk in Ghana -- Map 5.1 Landslide Hazard Areas of Malawi Not Covered by 2G and 3G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Map 5.2 Riverine Flooding Areas of Ghana Not Covered by 2G and 4G Mobile Networks and Occupied by Bottom 40 Percent of Wealth Index -- Tables -- Table 1.1 Examples of Green Digital Policy Types (Nonexhaustive) -- Table 2.1 Mobile Sites and Quality of Power Solutions: Global Distribution, 2019 -- Table 2.2 Global Distribution of GHG Emissions from Diesel Generators Powering Mobile Sites, 2020 -- Table 2.3 Mobile Sites and Power Solutions: Global Distribution by 2030 -- Table 2.4 Top 10 Region-to-Region International Bandwidth Routes, 2020 and 2027 -- Table 2.5 GHG Emissions, Consumer Device Hardware Companies, 2020 -- Table 2.6 Mobile Phones and Smartphones: Global Distribution, 2020 and 2025 -- Table 3.1 Extreme Weather or Climate Change Risks to Data Infrastructure -- Table 5.1 Examples of Links between Digitalization and Adaptation -- Table 6.1 Actions to Be Pursued by Stakeholders along the Digital Value Chain -- Table A.1 Number of Countries and Economies in Analysis, by Income Level -- Table A.2 Countries and Economies Included in Analysis, by Country or Economy Income Group -- Table A.3 Classification of General Technologies Considered in Analysis, by Mitigation and Adaptation Table A.4 Classification of Digital Technologies Considered in Analysis, by Adaptation and Mitigation -- Table A.5 Number of Mentions of Mitigation and Adaptation Technologies (General and Digital) in Nationally Determined Contributions and Percentage of Countries Mentioning Technologies -- Table A.6 General and Digital Mitigation and Adaptation Technologies Mentioned in Nationally Determined Contributions, by Country Income Level -- Table A.7 Priority Sectors for Mitigation and Adaptation, by Country Income Group |
| title | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_auth | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_exact_search | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_full | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_fullStr | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_full_unstemmed | Green Digital Transformation How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| title_short | Green Digital Transformation |
| title_sort | green digital transformation how to sustainably close the digital divide and harness digital tools for climate action |
| title_sub | How to Sustainably Close the Digital Divide and Harness Digital Tools for Climate Action |
| work_keys_str_mv | AT theworldbanktheworld greendigitaltransformationhowtosustainablyclosethedigitaldivideandharnessdigitaltoolsforclimateaction |