Sustainable Energy Solutions for Remote Areas in the Tropics:
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Cham
Springer International Publishing AG
2020
|
| Schriftenreihe: | Green Energy and Technology Ser
|
| Schlagworte: | |
| Beschreibung: | Description based on publisher supplied metadata and other sources |
| Beschreibung: | 1 Online-Ressource (294 pages) |
| ISBN: | 9783030419523 |
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| 505 | 8 | |a Intro -- Preface -- Contents -- Editors and Contributors -- Abbreviations -- Introduction -- 1 The Remote Tropics -- 2 Scope and Outline of the Book -- References -- The Energy Problems and Solutions in the Remote Tropics -- Sustainable Cooking: Beyond the Cooking Problem with the Lens of Human-Centred Design -- 1 Introduction -- 2 The Cooking Problem -- 2.1 Poverty Premium: Fairness? -- 2.2 Women: The Victims of Time Poverty -- 3 The Available Cookstoves in Indonesia -- 3.1 Traditional Chimney-Installed Stoves -- 3.2 Traditional Charcoal-Based Clean Cookstoves -- 3.3 Traditional Wood-Based Clean Cookstoves -- 3.4 Modern Wood-Based Clean Cookstoves -- 3.5 Modern Pellet-Based Clean Cookstoves -- 4 Lenses of Human-Centred Design Solutions from an Indonesian Case Study -- 4.1 Clean Cookstoves Stakeholders in Indonesia -- 4.2 Human-Centred Design for Clean Cookstoves Sector in Indonesia -- 5 Conclusion -- References -- Solar-Powered Cooling for the Remote Tropics -- 1 The Need for Cooling -- 2 Technologies to Solve the Problem -- 3 Applications of the Technologies -- 3.1 Refrigerator -- 3.2 Containerised Cold Storage -- 3.3 Ice Maker -- 3.4 Air Conditioner -- 4 Business Models -- 5 Impact -- 6 Future and More Sustainable Solutions -- References -- Swarm Electrification: From Solar Home Systems to the National Grid and Back Again? -- 1 Introduction -- 2 The Technical System -- 3 Overview of the Problem -- 4 Proposal of New Categories -- 4.1 Off-Grid -- 4.2 Close-to-the-Grid -- 4.3 Weak-on-Grid -- 5 Technologies to Solve the Problem -- 6 Applications of the Technology -- 7 Business Models -- 7.1 Microfinance ... -- 7.2 ... and PAYG -- 8 Swarm Electrification as the Future -- References -- The Sustainability Dilemma of Solar Photovoltaic Mini-grids for Rural Electrification -- 1 Introduction -- 2 Technologies and Applications -- 3 Operation Models | |
| 505 | 8 | |a 3.1 Community-Based Model -- 3.2 Utility Operator Model -- 3.3 Private Operator Model -- 3.4 Hybrid Operator Model -- 4 Sustainability Challenges and Possible Solutions -- 4.1 Is It Economically Viable? -- 4.2 Is It Socially Acceptable? -- 4.3 Is It Environmentally Sustainable? -- 5 Conclusions -- References -- Micro-hydro Power System -- 1 Introduction -- 2 The Role of Micro-hydro -- 3 Implementation of a Micro-hydro Power System -- 3.1 Planning and Feasibility Study -- 3.2 Development of an MHP System -- 3.3 The Use of MHP -- 4 The Micro-hydro Power Plant System -- 4.1 Intake Weir -- 4.2 Headrace and Tailrace Canal -- 4.3 Silt Basin -- 4.4 Forebay -- 4.5 Penstock -- 4.6 Canal Crossing, Retaining Walls and Other Safety Features -- 4.7 Turbines -- 4.8 Governing -- 4.9 Transmission -- 5 Social Dimension in MHP -- 6 The Economics of Micro-hydro Power System -- 7 Case Study: MHP System in the Philippines -- 7.1 Introduction -- 7.2 Signing of the Memorandum of Agreement (MOA) -- 7.3 Community Engagement -- 7.4 Social Mobilization -- 7.5 Hydrologic Survey -- 7.6 Groundbreaking Ceremony -- 7.7 Building the Actual MHP System -- 7.8 Sustainability and Benefits of the MHP Plant -- 7.9 Capacity Building Programme -- 7.10 Inauguration, Commissioning of the MHP Plant and Launching of Livelihood Projects -- 8 Conclusion -- References -- Tools Enabling the Solutions and Future Development -- Assessment of Microgrid Potential in Southeast Asia Based on the Application of Geospatial and Microgrid Simulation and Planning Tools -- 1 Southeast Asian Island Landscape -- 1.1 Geospatial Analysis of Island Landscape -- 1.2 Classification of Island Landscape and Implications for Microgrids -- 1.3 Implications for Future Microgrid Development -- 2 Application of Energy System Modelling Tools -- 2.1 Literature Survey on Simulation Tools -- 2.2 Description of Tools Applied | |
| 505 | 8 | |a 2.3 Description of Case Study -- 2.4 Case Study I: Small Island -- 2.5 Case Study II: Mid-Sized Island -- 2.6 Case Study III: Large Island -- 2.7 Comparative Discussion -- 2.8 Advantages and Disadvantages of Applied Tools -- 3 Conclusion -- References -- Solar Project Financing, Bankability, and Resource Assessment -- 1 Introduction -- 2 An Overview of Solar Project Financing and Bankability -- 2.1 Bankability of Solar Projects -- 2.2 Determining Loan Amount -- 2.3 Financing Microgrid PV -- 3 Solar Resource Calculation -- 3.1 Transposition Models -- 3.2 Separation Models -- 3.3 Optimal PV Orientation -- 4 Solar Radiation Data Sources -- 4.1 Ground-Based Data -- 4.2 Publicly Available Satellite-Derived Solar Data -- 4.3 Commercial Satellite-Derived Solar Data -- 4.4 Reanalysis Data -- 5 Handling Data Uncertainty -- 5.1 Mean Square Error and Site Adaptation -- 5.2 Ignorance Score and Ensemble Model Output Statistics -- 5.3 Uncertainty Mitigation Without Ground-Based Data -- 5.4 Site Adaptation in Brasilia: A Case Study -- 6 Conclusion -- References -- Understanding Social Impact and How to Measure It -- 1 Introduction: Show Me the Impact -- 2 What Is Social Impact Measurement? -- 2.1 Understanding Inputs, Outputs, Outcomes and Impact -- 3 Theory of Change: Beginning with the End-Goal in Mind -- 4 Choosing the Appropriate Indicators and Metrics -- 5 Evaluation Methodologies -- 6 Collection of Data -- 7 Conclusion -- Appendix I - The Project Hope of Sumba -- Introduction -- PV System Design -- Implementation -- Outcome -- Cost -- Summary -- Appendix of the Project Report -- References -- The Grid of the Future -- 1 Electrification in Tropical Areas -- 1.1 Environmental Situation -- 1.2 Population -- 1.3 Implications -- 1.4 Grid Situation -- 2 Technologies for Sustainable Energy Solutions -- 2.1 State-of-the-Art Technologies -- 2.2 Trends | |
| 505 | 8 | |a 2.3 Overview-Vision -- 2.4 Future System Requirement -- 2.5 Scenarios for Smart Grid Cells -- 3 Applications of the Technologies -- 3.1 Installation -- 3.2 Fault Protection -- 3.3 Structures -- 3.4 Moving from off-grid to Meshed Micro-grids -- 3.5 Moving from Non-reliable Grid to Meshed Micro-grid -- 4 Business Models -- 4.1 Local Differences for Future Business Models -- 4.2 Different Business Models -- 4.3 Future Business Models -- 5 Impact -- 5.1 Social Impact -- 5.2 Environmental Impact -- 6 Future and More Sustainable Solutions -- References -- Index | |
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Datensatz im Suchindex
| _version_ | 1804184004174282752 |
|---|---|
| adam_txt | |
| any_adam_object | |
| any_adam_object_boolean | |
| author | Gandhi, Oktoviano |
| author_facet | Gandhi, Oktoviano |
| author_role | aut |
| author_sort | Gandhi, Oktoviano |
| author_variant | o g og |
| building | Verbundindex |
| bvnumber | BV048222668 |
| collection | ZDB-30-PQE |
| contents | Intro -- Preface -- Contents -- Editors and Contributors -- Abbreviations -- Introduction -- 1 The Remote Tropics -- 2 Scope and Outline of the Book -- References -- The Energy Problems and Solutions in the Remote Tropics -- Sustainable Cooking: Beyond the Cooking Problem with the Lens of Human-Centred Design -- 1 Introduction -- 2 The Cooking Problem -- 2.1 Poverty Premium: Fairness? -- 2.2 Women: The Victims of Time Poverty -- 3 The Available Cookstoves in Indonesia -- 3.1 Traditional Chimney-Installed Stoves -- 3.2 Traditional Charcoal-Based Clean Cookstoves -- 3.3 Traditional Wood-Based Clean Cookstoves -- 3.4 Modern Wood-Based Clean Cookstoves -- 3.5 Modern Pellet-Based Clean Cookstoves -- 4 Lenses of Human-Centred Design Solutions from an Indonesian Case Study -- 4.1 Clean Cookstoves Stakeholders in Indonesia -- 4.2 Human-Centred Design for Clean Cookstoves Sector in Indonesia -- 5 Conclusion -- References -- Solar-Powered Cooling for the Remote Tropics -- 1 The Need for Cooling -- 2 Technologies to Solve the Problem -- 3 Applications of the Technologies -- 3.1 Refrigerator -- 3.2 Containerised Cold Storage -- 3.3 Ice Maker -- 3.4 Air Conditioner -- 4 Business Models -- 5 Impact -- 6 Future and More Sustainable Solutions -- References -- Swarm Electrification: From Solar Home Systems to the National Grid and Back Again? -- 1 Introduction -- 2 The Technical System -- 3 Overview of the Problem -- 4 Proposal of New Categories -- 4.1 Off-Grid -- 4.2 Close-to-the-Grid -- 4.3 Weak-on-Grid -- 5 Technologies to Solve the Problem -- 6 Applications of the Technology -- 7 Business Models -- 7.1 Microfinance ... -- 7.2 ... and PAYG -- 8 Swarm Electrification as the Future -- References -- The Sustainability Dilemma of Solar Photovoltaic Mini-grids for Rural Electrification -- 1 Introduction -- 2 Technologies and Applications -- 3 Operation Models 3.1 Community-Based Model -- 3.2 Utility Operator Model -- 3.3 Private Operator Model -- 3.4 Hybrid Operator Model -- 4 Sustainability Challenges and Possible Solutions -- 4.1 Is It Economically Viable? -- 4.2 Is It Socially Acceptable? -- 4.3 Is It Environmentally Sustainable? -- 5 Conclusions -- References -- Micro-hydro Power System -- 1 Introduction -- 2 The Role of Micro-hydro -- 3 Implementation of a Micro-hydro Power System -- 3.1 Planning and Feasibility Study -- 3.2 Development of an MHP System -- 3.3 The Use of MHP -- 4 The Micro-hydro Power Plant System -- 4.1 Intake Weir -- 4.2 Headrace and Tailrace Canal -- 4.3 Silt Basin -- 4.4 Forebay -- 4.5 Penstock -- 4.6 Canal Crossing, Retaining Walls and Other Safety Features -- 4.7 Turbines -- 4.8 Governing -- 4.9 Transmission -- 5 Social Dimension in MHP -- 6 The Economics of Micro-hydro Power System -- 7 Case Study: MHP System in the Philippines -- 7.1 Introduction -- 7.2 Signing of the Memorandum of Agreement (MOA) -- 7.3 Community Engagement -- 7.4 Social Mobilization -- 7.5 Hydrologic Survey -- 7.6 Groundbreaking Ceremony -- 7.7 Building the Actual MHP System -- 7.8 Sustainability and Benefits of the MHP Plant -- 7.9 Capacity Building Programme -- 7.10 Inauguration, Commissioning of the MHP Plant and Launching of Livelihood Projects -- 8 Conclusion -- References -- Tools Enabling the Solutions and Future Development -- Assessment of Microgrid Potential in Southeast Asia Based on the Application of Geospatial and Microgrid Simulation and Planning Tools -- 1 Southeast Asian Island Landscape -- 1.1 Geospatial Analysis of Island Landscape -- 1.2 Classification of Island Landscape and Implications for Microgrids -- 1.3 Implications for Future Microgrid Development -- 2 Application of Energy System Modelling Tools -- 2.1 Literature Survey on Simulation Tools -- 2.2 Description of Tools Applied 2.3 Description of Case Study -- 2.4 Case Study I: Small Island -- 2.5 Case Study II: Mid-Sized Island -- 2.6 Case Study III: Large Island -- 2.7 Comparative Discussion -- 2.8 Advantages and Disadvantages of Applied Tools -- 3 Conclusion -- References -- Solar Project Financing, Bankability, and Resource Assessment -- 1 Introduction -- 2 An Overview of Solar Project Financing and Bankability -- 2.1 Bankability of Solar Projects -- 2.2 Determining Loan Amount -- 2.3 Financing Microgrid PV -- 3 Solar Resource Calculation -- 3.1 Transposition Models -- 3.2 Separation Models -- 3.3 Optimal PV Orientation -- 4 Solar Radiation Data Sources -- 4.1 Ground-Based Data -- 4.2 Publicly Available Satellite-Derived Solar Data -- 4.3 Commercial Satellite-Derived Solar Data -- 4.4 Reanalysis Data -- 5 Handling Data Uncertainty -- 5.1 Mean Square Error and Site Adaptation -- 5.2 Ignorance Score and Ensemble Model Output Statistics -- 5.3 Uncertainty Mitigation Without Ground-Based Data -- 5.4 Site Adaptation in Brasilia: A Case Study -- 6 Conclusion -- References -- Understanding Social Impact and How to Measure It -- 1 Introduction: Show Me the Impact -- 2 What Is Social Impact Measurement? -- 2.1 Understanding Inputs, Outputs, Outcomes and Impact -- 3 Theory of Change: Beginning with the End-Goal in Mind -- 4 Choosing the Appropriate Indicators and Metrics -- 5 Evaluation Methodologies -- 6 Collection of Data -- 7 Conclusion -- Appendix I - The Project Hope of Sumba -- Introduction -- PV System Design -- Implementation -- Outcome -- Cost -- Summary -- Appendix of the Project Report -- References -- The Grid of the Future -- 1 Electrification in Tropical Areas -- 1.1 Environmental Situation -- 1.2 Population -- 1.3 Implications -- 1.4 Grid Situation -- 2 Technologies for Sustainable Energy Solutions -- 2.1 State-of-the-Art Technologies -- 2.2 Trends 2.3 Overview-Vision -- 2.4 Future System Requirement -- 2.5 Scenarios for Smart Grid Cells -- 3 Applications of the Technologies -- 3.1 Installation -- 3.2 Fault Protection -- 3.3 Structures -- 3.4 Moving from off-grid to Meshed Micro-grids -- 3.5 Moving from Non-reliable Grid to Meshed Micro-grid -- 4 Business Models -- 4.1 Local Differences for Future Business Models -- 4.2 Different Business Models -- 4.3 Future Business Models -- 5 Impact -- 5.1 Social Impact -- 5.2 Environmental Impact -- 6 Future and More Sustainable Solutions -- References -- Index |
| ctrlnum | (ZDB-30-PQE)EBC6185864 (ZDB-30-PAD)EBC6185864 (ZDB-89-EBL)EBL6185864 (OCoLC)1153085544 (DE-599)BVBBV048222668 |
| dewey-full | 333.79399999999998 |
| dewey-hundreds | 300 - Social sciences |
| dewey-ones | 333 - Economics of land and energy |
| dewey-raw | 333.79399999999998 |
| dewey-search | 333.79399999999998 |
| dewey-sort | 3333.79399999999998 |
| dewey-tens | 330 - Economics |
| discipline | Wirtschaftswissenschaften |
| discipline_str_mv | Wirtschaftswissenschaften |
| format | Electronic eBook |
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| id | DE-604.BV048222668 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T19:50:37Z |
| indexdate | 2024-07-10T09:32:26Z |
| institution | BVB |
| isbn | 9783030419523 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-033603401 |
| oclc_num | 1153085544 |
| open_access_boolean | |
| physical | 1 Online-Ressource (294 pages) |
| psigel | ZDB-30-PQE |
| publishDate | 2020 |
| publishDateSearch | 2020 |
| publishDateSort | 2020 |
| publisher | Springer International Publishing AG |
| record_format | marc |
| series2 | Green Energy and Technology Ser |
| spelling | Gandhi, Oktoviano Verfasser aut Sustainable Energy Solutions for Remote Areas in the Tropics Cham Springer International Publishing AG 2020 ©2020 1 Online-Ressource (294 pages) txt rdacontent c rdamedia cr rdacarrier Green Energy and Technology Ser Description based on publisher supplied metadata and other sources Intro -- Preface -- Contents -- Editors and Contributors -- Abbreviations -- Introduction -- 1 The Remote Tropics -- 2 Scope and Outline of the Book -- References -- The Energy Problems and Solutions in the Remote Tropics -- Sustainable Cooking: Beyond the Cooking Problem with the Lens of Human-Centred Design -- 1 Introduction -- 2 The Cooking Problem -- 2.1 Poverty Premium: Fairness? -- 2.2 Women: The Victims of Time Poverty -- 3 The Available Cookstoves in Indonesia -- 3.1 Traditional Chimney-Installed Stoves -- 3.2 Traditional Charcoal-Based Clean Cookstoves -- 3.3 Traditional Wood-Based Clean Cookstoves -- 3.4 Modern Wood-Based Clean Cookstoves -- 3.5 Modern Pellet-Based Clean Cookstoves -- 4 Lenses of Human-Centred Design Solutions from an Indonesian Case Study -- 4.1 Clean Cookstoves Stakeholders in Indonesia -- 4.2 Human-Centred Design for Clean Cookstoves Sector in Indonesia -- 5 Conclusion -- References -- Solar-Powered Cooling for the Remote Tropics -- 1 The Need for Cooling -- 2 Technologies to Solve the Problem -- 3 Applications of the Technologies -- 3.1 Refrigerator -- 3.2 Containerised Cold Storage -- 3.3 Ice Maker -- 3.4 Air Conditioner -- 4 Business Models -- 5 Impact -- 6 Future and More Sustainable Solutions -- References -- Swarm Electrification: From Solar Home Systems to the National Grid and Back Again? -- 1 Introduction -- 2 The Technical System -- 3 Overview of the Problem -- 4 Proposal of New Categories -- 4.1 Off-Grid -- 4.2 Close-to-the-Grid -- 4.3 Weak-on-Grid -- 5 Technologies to Solve the Problem -- 6 Applications of the Technology -- 7 Business Models -- 7.1 Microfinance ... -- 7.2 ... and PAYG -- 8 Swarm Electrification as the Future -- References -- The Sustainability Dilemma of Solar Photovoltaic Mini-grids for Rural Electrification -- 1 Introduction -- 2 Technologies and Applications -- 3 Operation Models 3.1 Community-Based Model -- 3.2 Utility Operator Model -- 3.3 Private Operator Model -- 3.4 Hybrid Operator Model -- 4 Sustainability Challenges and Possible Solutions -- 4.1 Is It Economically Viable? -- 4.2 Is It Socially Acceptable? -- 4.3 Is It Environmentally Sustainable? -- 5 Conclusions -- References -- Micro-hydro Power System -- 1 Introduction -- 2 The Role of Micro-hydro -- 3 Implementation of a Micro-hydro Power System -- 3.1 Planning and Feasibility Study -- 3.2 Development of an MHP System -- 3.3 The Use of MHP -- 4 The Micro-hydro Power Plant System -- 4.1 Intake Weir -- 4.2 Headrace and Tailrace Canal -- 4.3 Silt Basin -- 4.4 Forebay -- 4.5 Penstock -- 4.6 Canal Crossing, Retaining Walls and Other Safety Features -- 4.7 Turbines -- 4.8 Governing -- 4.9 Transmission -- 5 Social Dimension in MHP -- 6 The Economics of Micro-hydro Power System -- 7 Case Study: MHP System in the Philippines -- 7.1 Introduction -- 7.2 Signing of the Memorandum of Agreement (MOA) -- 7.3 Community Engagement -- 7.4 Social Mobilization -- 7.5 Hydrologic Survey -- 7.6 Groundbreaking Ceremony -- 7.7 Building the Actual MHP System -- 7.8 Sustainability and Benefits of the MHP Plant -- 7.9 Capacity Building Programme -- 7.10 Inauguration, Commissioning of the MHP Plant and Launching of Livelihood Projects -- 8 Conclusion -- References -- Tools Enabling the Solutions and Future Development -- Assessment of Microgrid Potential in Southeast Asia Based on the Application of Geospatial and Microgrid Simulation and Planning Tools -- 1 Southeast Asian Island Landscape -- 1.1 Geospatial Analysis of Island Landscape -- 1.2 Classification of Island Landscape and Implications for Microgrids -- 1.3 Implications for Future Microgrid Development -- 2 Application of Energy System Modelling Tools -- 2.1 Literature Survey on Simulation Tools -- 2.2 Description of Tools Applied 2.3 Description of Case Study -- 2.4 Case Study I: Small Island -- 2.5 Case Study II: Mid-Sized Island -- 2.6 Case Study III: Large Island -- 2.7 Comparative Discussion -- 2.8 Advantages and Disadvantages of Applied Tools -- 3 Conclusion -- References -- Solar Project Financing, Bankability, and Resource Assessment -- 1 Introduction -- 2 An Overview of Solar Project Financing and Bankability -- 2.1 Bankability of Solar Projects -- 2.2 Determining Loan Amount -- 2.3 Financing Microgrid PV -- 3 Solar Resource Calculation -- 3.1 Transposition Models -- 3.2 Separation Models -- 3.3 Optimal PV Orientation -- 4 Solar Radiation Data Sources -- 4.1 Ground-Based Data -- 4.2 Publicly Available Satellite-Derived Solar Data -- 4.3 Commercial Satellite-Derived Solar Data -- 4.4 Reanalysis Data -- 5 Handling Data Uncertainty -- 5.1 Mean Square Error and Site Adaptation -- 5.2 Ignorance Score and Ensemble Model Output Statistics -- 5.3 Uncertainty Mitigation Without Ground-Based Data -- 5.4 Site Adaptation in Brasilia: A Case Study -- 6 Conclusion -- References -- Understanding Social Impact and How to Measure It -- 1 Introduction: Show Me the Impact -- 2 What Is Social Impact Measurement? -- 2.1 Understanding Inputs, Outputs, Outcomes and Impact -- 3 Theory of Change: Beginning with the End-Goal in Mind -- 4 Choosing the Appropriate Indicators and Metrics -- 5 Evaluation Methodologies -- 6 Collection of Data -- 7 Conclusion -- Appendix I - The Project Hope of Sumba -- Introduction -- PV System Design -- Implementation -- Outcome -- Cost -- Summary -- Appendix of the Project Report -- References -- The Grid of the Future -- 1 Electrification in Tropical Areas -- 1.1 Environmental Situation -- 1.2 Population -- 1.3 Implications -- 1.4 Grid Situation -- 2 Technologies for Sustainable Energy Solutions -- 2.1 State-of-the-Art Technologies -- 2.2 Trends 2.3 Overview-Vision -- 2.4 Future System Requirement -- 2.5 Scenarios for Smart Grid Cells -- 3 Applications of the Technologies -- 3.1 Installation -- 3.2 Fault Protection -- 3.3 Structures -- 3.4 Moving from off-grid to Meshed Micro-grids -- 3.5 Moving from Non-reliable Grid to Meshed Micro-grid -- 4 Business Models -- 4.1 Local Differences for Future Business Models -- 4.2 Different Business Models -- 4.3 Future Business Models -- 5 Impact -- 5.1 Social Impact -- 5.2 Environmental Impact -- 6 Future and More Sustainable Solutions -- References -- Index Renewable energy sources Srinivasan, Dipti Sonstige oth Erscheint auch als Druck-Ausgabe Gandhi, Oktoviano Sustainable Energy Solutions for Remote Areas in the Tropics Cham : Springer International Publishing AG,c2020 9783030419516 |
| spellingShingle | Gandhi, Oktoviano Sustainable Energy Solutions for Remote Areas in the Tropics Intro -- Preface -- Contents -- Editors and Contributors -- Abbreviations -- Introduction -- 1 The Remote Tropics -- 2 Scope and Outline of the Book -- References -- The Energy Problems and Solutions in the Remote Tropics -- Sustainable Cooking: Beyond the Cooking Problem with the Lens of Human-Centred Design -- 1 Introduction -- 2 The Cooking Problem -- 2.1 Poverty Premium: Fairness? -- 2.2 Women: The Victims of Time Poverty -- 3 The Available Cookstoves in Indonesia -- 3.1 Traditional Chimney-Installed Stoves -- 3.2 Traditional Charcoal-Based Clean Cookstoves -- 3.3 Traditional Wood-Based Clean Cookstoves -- 3.4 Modern Wood-Based Clean Cookstoves -- 3.5 Modern Pellet-Based Clean Cookstoves -- 4 Lenses of Human-Centred Design Solutions from an Indonesian Case Study -- 4.1 Clean Cookstoves Stakeholders in Indonesia -- 4.2 Human-Centred Design for Clean Cookstoves Sector in Indonesia -- 5 Conclusion -- References -- Solar-Powered Cooling for the Remote Tropics -- 1 The Need for Cooling -- 2 Technologies to Solve the Problem -- 3 Applications of the Technologies -- 3.1 Refrigerator -- 3.2 Containerised Cold Storage -- 3.3 Ice Maker -- 3.4 Air Conditioner -- 4 Business Models -- 5 Impact -- 6 Future and More Sustainable Solutions -- References -- Swarm Electrification: From Solar Home Systems to the National Grid and Back Again? -- 1 Introduction -- 2 The Technical System -- 3 Overview of the Problem -- 4 Proposal of New Categories -- 4.1 Off-Grid -- 4.2 Close-to-the-Grid -- 4.3 Weak-on-Grid -- 5 Technologies to Solve the Problem -- 6 Applications of the Technology -- 7 Business Models -- 7.1 Microfinance ... -- 7.2 ... and PAYG -- 8 Swarm Electrification as the Future -- References -- The Sustainability Dilemma of Solar Photovoltaic Mini-grids for Rural Electrification -- 1 Introduction -- 2 Technologies and Applications -- 3 Operation Models 3.1 Community-Based Model -- 3.2 Utility Operator Model -- 3.3 Private Operator Model -- 3.4 Hybrid Operator Model -- 4 Sustainability Challenges and Possible Solutions -- 4.1 Is It Economically Viable? -- 4.2 Is It Socially Acceptable? -- 4.3 Is It Environmentally Sustainable? -- 5 Conclusions -- References -- Micro-hydro Power System -- 1 Introduction -- 2 The Role of Micro-hydro -- 3 Implementation of a Micro-hydro Power System -- 3.1 Planning and Feasibility Study -- 3.2 Development of an MHP System -- 3.3 The Use of MHP -- 4 The Micro-hydro Power Plant System -- 4.1 Intake Weir -- 4.2 Headrace and Tailrace Canal -- 4.3 Silt Basin -- 4.4 Forebay -- 4.5 Penstock -- 4.6 Canal Crossing, Retaining Walls and Other Safety Features -- 4.7 Turbines -- 4.8 Governing -- 4.9 Transmission -- 5 Social Dimension in MHP -- 6 The Economics of Micro-hydro Power System -- 7 Case Study: MHP System in the Philippines -- 7.1 Introduction -- 7.2 Signing of the Memorandum of Agreement (MOA) -- 7.3 Community Engagement -- 7.4 Social Mobilization -- 7.5 Hydrologic Survey -- 7.6 Groundbreaking Ceremony -- 7.7 Building the Actual MHP System -- 7.8 Sustainability and Benefits of the MHP Plant -- 7.9 Capacity Building Programme -- 7.10 Inauguration, Commissioning of the MHP Plant and Launching of Livelihood Projects -- 8 Conclusion -- References -- Tools Enabling the Solutions and Future Development -- Assessment of Microgrid Potential in Southeast Asia Based on the Application of Geospatial and Microgrid Simulation and Planning Tools -- 1 Southeast Asian Island Landscape -- 1.1 Geospatial Analysis of Island Landscape -- 1.2 Classification of Island Landscape and Implications for Microgrids -- 1.3 Implications for Future Microgrid Development -- 2 Application of Energy System Modelling Tools -- 2.1 Literature Survey on Simulation Tools -- 2.2 Description of Tools Applied 2.3 Description of Case Study -- 2.4 Case Study I: Small Island -- 2.5 Case Study II: Mid-Sized Island -- 2.6 Case Study III: Large Island -- 2.7 Comparative Discussion -- 2.8 Advantages and Disadvantages of Applied Tools -- 3 Conclusion -- References -- Solar Project Financing, Bankability, and Resource Assessment -- 1 Introduction -- 2 An Overview of Solar Project Financing and Bankability -- 2.1 Bankability of Solar Projects -- 2.2 Determining Loan Amount -- 2.3 Financing Microgrid PV -- 3 Solar Resource Calculation -- 3.1 Transposition Models -- 3.2 Separation Models -- 3.3 Optimal PV Orientation -- 4 Solar Radiation Data Sources -- 4.1 Ground-Based Data -- 4.2 Publicly Available Satellite-Derived Solar Data -- 4.3 Commercial Satellite-Derived Solar Data -- 4.4 Reanalysis Data -- 5 Handling Data Uncertainty -- 5.1 Mean Square Error and Site Adaptation -- 5.2 Ignorance Score and Ensemble Model Output Statistics -- 5.3 Uncertainty Mitigation Without Ground-Based Data -- 5.4 Site Adaptation in Brasilia: A Case Study -- 6 Conclusion -- References -- Understanding Social Impact and How to Measure It -- 1 Introduction: Show Me the Impact -- 2 What Is Social Impact Measurement? -- 2.1 Understanding Inputs, Outputs, Outcomes and Impact -- 3 Theory of Change: Beginning with the End-Goal in Mind -- 4 Choosing the Appropriate Indicators and Metrics -- 5 Evaluation Methodologies -- 6 Collection of Data -- 7 Conclusion -- Appendix I - The Project Hope of Sumba -- Introduction -- PV System Design -- Implementation -- Outcome -- Cost -- Summary -- Appendix of the Project Report -- References -- The Grid of the Future -- 1 Electrification in Tropical Areas -- 1.1 Environmental Situation -- 1.2 Population -- 1.3 Implications -- 1.4 Grid Situation -- 2 Technologies for Sustainable Energy Solutions -- 2.1 State-of-the-Art Technologies -- 2.2 Trends 2.3 Overview-Vision -- 2.4 Future System Requirement -- 2.5 Scenarios for Smart Grid Cells -- 3 Applications of the Technologies -- 3.1 Installation -- 3.2 Fault Protection -- 3.3 Structures -- 3.4 Moving from off-grid to Meshed Micro-grids -- 3.5 Moving from Non-reliable Grid to Meshed Micro-grid -- 4 Business Models -- 4.1 Local Differences for Future Business Models -- 4.2 Different Business Models -- 4.3 Future Business Models -- 5 Impact -- 5.1 Social Impact -- 5.2 Environmental Impact -- 6 Future and More Sustainable Solutions -- References -- Index Renewable energy sources |
| title | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_auth | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_exact_search | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_exact_search_txtP | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_full | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_fullStr | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_full_unstemmed | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_short | Sustainable Energy Solutions for Remote Areas in the Tropics |
| title_sort | sustainable energy solutions for remote areas in the tropics |
| topic | Renewable energy sources |
| topic_facet | Renewable energy sources |
| work_keys_str_mv | AT gandhioktoviano sustainableenergysolutionsforremoteareasinthetropics AT srinivasandipti sustainableenergysolutionsforremoteareasinthetropics |