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Difference between revisions of "Climate-Smart Agrifood Systems: Links"
From energypedia
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| − | {{Back to PA portal2}} | + | {{Back to PA portal2}}<br/> |
| − | = Sustainable Energy for Food<br/> = | + | = <span style="color:#00A3AD">Sustainable Energy for Food</span><br/> = |
*[https://csa.guide/ Climate-Smart Agriculture 101]<br/> | *[https://csa.guide/ Climate-Smart Agriculture 101]<br/> | ||
| Line 20: | Line 20: | ||
<br/> | <br/> | ||
| − | = Application<br/> = | + | = <span style="color:#00A3AD">Application</span><br/> = |
| − | == Pumping and Irrigation<br/> == | + | == <span style="color:#00A3AD">Pumping and Irrigation</span><br/> == |
*[[Powering Agriculture: Irrigation|Irrigation Types]]<br/> | *[[Powering Agriculture: Irrigation|Irrigation Types]]<br/> | ||
| Line 46: | Line 46: | ||
*[[Solar Powered Irrigation Systems - Technology, Economy, Impacts|Solar-powered irrigation systems – Technology, Economy, Impacts]]<br/> | *[[Solar Powered Irrigation Systems - Technology, Economy, Impacts|Solar-powered irrigation systems – Technology, Economy, Impacts]]<br/> | ||
| − | == Cooling<br/> == | + | == <span style="color:#00A3AD">Cooling</span><br/> == |
*[[Evaporative Cooling Devices|Evaporative Cooling Devices]]<br/> | *[[Evaporative Cooling Devices|Evaporative Cooling Devices]]<br/> | ||
| Line 56: | Line 56: | ||
*[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | *[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | ||
| − | == Drying<br/> == | + | == <span style="color:#00A3AD">Drying</span><br/> == |
*[[Solar Drying|Solar Drying]]<br/> | *[[Solar Drying|Solar Drying]]<br/> | ||
| Line 66: | Line 66: | ||
<br/> | <br/> | ||
| − | == Other Types of Food Processing<br/> == | + | == <span style="color:#00A3AD">Other Types of Food Processing</span><br/> == |
*[https://poweringag.org/innovators/field-evaluation-passive-aeration-system-aquaculture Field Evaluation of a Passive Aeration System for Aquaculture]<br/> | *[https://poweringag.org/innovators/field-evaluation-passive-aeration-system-aquaculture Field Evaluation of a Passive Aeration System for Aquaculture]<br/> | ||
| Line 77: | Line 77: | ||
<br/> | <br/> | ||
| − | = Energy Efficiency<br/> = | + | = <span style="color:#00A3AD">Energy Efficiency</span><br/> = |
*[[Energy Efficiency Introduction|Energy Efficiency Introduction]]<br/> | *[[Energy Efficiency Introduction|Energy Efficiency Introduction]]<br/> | ||
| Line 87: | Line 87: | ||
<br/> | <br/> | ||
| − | = Energy Source-Solar Power<br/> = | + | = <span style="color:#00A3AD">Energy Source-Solar Power</span><br/> = |
| − | == Introduction<br/> == | + | == <span style="color:#00A3AD">Introduction</span><br/> == |
*[[Solar Energy|Solar Energy]]<br/> | *[[Solar Energy|Solar Energy]]<br/> | ||
| Line 96: | Line 96: | ||
*[[Solar Thermal Technologies|Solar Thermal Technologies]]<br/> | *[[Solar Thermal Technologies|Solar Thermal Technologies]]<br/> | ||
| − | == Solar Powered Irrigation<br/> == | + | == <span style="color:#00A3AD">Solar Powered Irrigation</span><br/> == |
*[[#.23https:.2F.2Fenergypedia.info.2Fwiki.2FSPIS_Toolbox_-_Solar_-_powered_Irrigation_Systems|Solar powered water pumps]]<br/> | *[[#.23https:.2F.2Fenergypedia.info.2Fwiki.2FSPIS_Toolbox_-_Solar_-_powered_Irrigation_Systems|Solar powered water pumps]]<br/> | ||
| Line 113: | Line 113: | ||
*[[Photovoltaic (PV) Pumping Systems for Irrigation|Photovoltaic|(PV) Pumping Systems for Irrigation]]<br/> | *[[Photovoltaic (PV) Pumping Systems for Irrigation|Photovoltaic|(PV) Pumping Systems for Irrigation]]<br/> | ||
| − | == Solar Powered Cooling<br/> == | + | == <span style="color:#00A3AD">Solar Powered Cooling</span><br/> == |
*[https://poweringag.org/innovators/solar-powered-refrigeration-dairy-farms SunDanzer: Solar Powered Refrigeration for Kenyan Dairy Farms]<br/> | *[https://poweringag.org/innovators/solar-powered-refrigeration-dairy-farms SunDanzer: Solar Powered Refrigeration for Kenyan Dairy Farms]<br/> | ||
| Line 120: | Line 120: | ||
*[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | *[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | ||
| − | == Solar Powered Drying<br/> == | + | == <span style="color:#00A3AD">Solar Powered Drying</span><br/> == |
*[[Solar Drying|Solar Drying]]<br/> | *[[Solar Drying|Solar Drying]]<br/> | ||
| Line 128: | Line 128: | ||
*[[Solar Drying|Drying Chili Peppers with Solar Dryers in Peru]]<br/> | *[[Solar Drying|Drying Chili Peppers with Solar Dryers in Peru]]<br/> | ||
| − | == Other Solar Powered Applications<br/> == | + | == <span style="color:#00A3AD">Other Solar Powered Applications</span><br/> == |
*[https://poweringag.org/innovators/renewable-microgrids-grid-fish-hatcheries-surrounding-communities Renewable Microgrids for Off-Grid Fish Hatcheries and Surrounding Communities]<br/> | *[https://poweringag.org/innovators/renewable-microgrids-grid-fish-hatcheries-surrounding-communities Renewable Microgrids for Off-Grid Fish Hatcheries and Surrounding Communities]<br/> | ||
| Line 139: | Line 139: | ||
<br/> | <br/> | ||
| − | = Energy Source-Biomass/Biogas<br/> = | + | = <span style="color:#00A3AD">Energy Source-Biomass/Biogas</span><br/> = |
*[[Biogas in Powering Agriculture|Biogas in Powering Agriculture]]<br/> | *[[Biogas in Powering Agriculture|Biogas in Powering Agriculture]]<br/> | ||
| Line 154: | Line 154: | ||
<br/> | <br/> | ||
| − | = Energy Source-Wind and Hydro Power<br/> = | + | = <span style="color:#00A3AD">Energy Source-Wind and Hydro Power</span><br/> = |
| − | == Hydropower<br/> == | + | == <span style="color:#00A3AD">Hydropower</span><br/> == |
*[[Hydropower in Powering Agriculture|Hydropower in Powering Agriculture]]<br/> | *[[Hydropower in Powering Agriculture|Hydropower in Powering Agriculture]]<br/> | ||
*[https://securingwaterforfood.org/innovators/the-barsha-pump-aqysta Barsha Pump – Aqysta Holding BV – A Water Powered Water Pump]<br/> | *[https://securingwaterforfood.org/innovators/the-barsha-pump-aqysta Barsha Pump – Aqysta Holding BV – A Water Powered Water Pump]<br/> | ||
| − | == Wind Power<br/> == | + | == <span style="color:#00A3AD">Wind Power</span><br/> == |
*[[Wind Energy in Powering Agriculture|Wind Energy in Powering Agriculture]]<br/> | *[[Wind Energy in Powering Agriculture|Wind Energy in Powering Agriculture]]<br/> | ||
| Line 168: | Line 168: | ||
<br/> | <br/> | ||
| − | = Financing and Business Models<br/> = | + | = <span style="color:#00A3AD">Financing and Business Models</span><br/> = |
*[[Agri-food Enterprises in the Energy-Agriculture Nexus|Agri-Food Enterprises in the Energy-Food Nexus]]<br/> | *[[Agri-food Enterprises in the Energy-Agriculture Nexus|Agri-Food Enterprises in the Energy-Food Nexus]]<br/> | ||
| Line 178: | Line 178: | ||
<br/> | <br/> | ||
| − | = Policies and Regulations<br/> = | + | = <span style="color:#00A3AD">Policies and Regulations</span><br/> = |
*[[Policies and Regulations for the Energy-Agriculture Nexus|Policies and Regulations for the Energy-Agriculture Nexus]]<br/> | *[[Policies and Regulations for the Energy-Agriculture Nexus|Policies and Regulations for the Energy-Agriculture Nexus]]<br/> | ||
| Line 186: | Line 186: | ||
<br/> | <br/> | ||
| − | = Value Chain<br/> = | + | = <span style="color:#00A3AD">Value Chain</span><br/> = |
| − | == Dairy<br/> == | + | == <span style="color:#00A3AD">Dairy</span><br/> == |
*[https://foodsafety.foodscience.cornell.edu/mqip/information-sheets/ Food Safety Laboratory and Milk Quality Improvement Program (College of Agriculture and Life Sciences Cornell University)]<br/> | *[https://foodsafety.foodscience.cornell.edu/mqip/information-sheets/ Food Safety Laboratory and Milk Quality Improvement Program (College of Agriculture and Life Sciences Cornell University)]<br/> | ||
| Line 198: | Line 198: | ||
*[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | *[[Solar Milk Cooling with Insulated Milk Cans|Solar Milk Cooling with Insulated Milk Cans]]<br/> | ||
| − | == Rice<br/> == | + | == <span style="color:#00A3AD">Rice</span><br/> == |
*[http://www.ricepedia.org/ Ricepedia]<br/> | *[http://www.ricepedia.org/ Ricepedia]<br/> | ||
| Line 207: | Line 207: | ||
*[https://poweringag.org/docs/costs-benefits-clean-technologies-philippines-rice-value-chain Costs and Benefits of Clean Energy Technologies in the Philippines’ Rice Value Chain]<br/> | *[https://poweringag.org/docs/costs-benefits-clean-technologies-philippines-rice-value-chain Costs and Benefits of Clean Energy Technologies in the Philippines’ Rice Value Chain]<br/> | ||
| − | == Fruit & Vegetables<br/> == | + | == <span style="color:#00A3AD">Fruit & Vegetables</span><br/> == |
*[https://securingwaterforfood.org/innovators/circular-economy-waste-stichting Waste Stitching – Circular Economy]<br/> | *[https://securingwaterforfood.org/innovators/circular-economy-waste-stichting Waste Stitching – Circular Economy]<br/> | ||
| Line 216: | Line 216: | ||
<br/> | <br/> | ||
| − | = Water Use in Agriculture<br/> = | + | = <span style="color:#00A3AD">Water Use in Agriculture</span><br/> = |
*[http://www.FAO.org/land-water/water/en FAO Water– The Importance of Sustainable Water Management]<br/> | *[http://www.FAO.org/land-water/water/en FAO Water– The Importance of Sustainable Water Management]<br/> | ||
| Line 228: | Line 228: | ||
*[[SPIS Toolbox - Irrigation Efficiency Tips|SPIS Toolbox - Irrigation Efficiency Tips]]<br/> | *[[SPIS Toolbox - Irrigation Efficiency Tips|SPIS Toolbox - Irrigation Efficiency Tips]]<br/> | ||
| − | = Gender<br/> = | + | = <span style="color:#00A3AD">Gender</span><br/> = |
*[https://www.sida.se/English/partners/methods-materials/gender-tool-box/?id=138563 Gender Toolbox]<br/> | *[https://www.sida.se/English/partners/methods-materials/gender-tool-box/?id=138563 Gender Toolbox]<br/> | ||
| + | [[Category:Powering_Agriculture]] | ||
[[Category:Water-Energy-Food_Nexus]] | [[Category:Water-Energy-Food_Nexus]] | ||
| − | |||
Revision as of 08:36, 15 July 2020
| ►Back to the WE4F Portal |
Sustainable Energy for Food
- Climate-Smart Agriculture 101
- Introducing the Energy-Agriculture Nexus
- Energy Inputs in Agriculture
- Greenhouse Gas Emissions from Agriculture
- Energy for Agriculture
- Energy Needs in Smallholder Agriculture
- Climate Smarte Agriculture
- Renewable Energy Resources in Powering Agriculture
- Energy for Processing Food
- E-Learning: Free Online edX CourseSustainable Development
- SDGAcademyX-Free online courses from SDG Academy
- Nexus Case Studies
- Massive Open Online Course: Powering Agriculture
Application
Pumping and Irrigation
- Irrigation Types
- Drip Irrigation
- Surface Irrigation
- Sprinkler Irrigation
- Battery Based System Pump
- Basics and SWOT Analysis of SPIS
- Solar Powered Water Pump
- Water Powered Water Pumps
- Sustainable Groundwater Extraction
- Solar Powered Pumps for Improved Irrigation
- A Hydroponic Green Farming Initiative
- Low-Cost Pay-Per-Use Irrigation using Solar Trolley Systems
- Affordable, High-Performance Solar Irrigation for Smallholder Farmers
- PV-Integrated Drip Irrigation and Fertigation Systems
- Scaling the Distribution of Tailored Agro-Solar Irrigation Kits to Smallholder Farmers
- Renewable Microgrids for Off-Grid Fish Hatcheries and Surrounding Communities
- Sunflower Pump: Asset-Financed Solar Irrigation Pumps for Smallholder Farmers
- Micro-Solar Utilities for Small-Scale Irrigation
- Solar Powered Irrigation Systems in Egypt
- SPIS Toolbox
- Solar-powered irrigation systems – Technology, Economy, Impacts
Cooling
- Evaporative Cooling Devices
- Green Cooling
- Biogas Milk Chilling to Increase Productivity and Incomes of Dairy Farmers
- SunDanzer: Solar Powered Refrigeration for Kenyan Dairy Farms
- Reducing Milk Spoilage through Solar-Powered Chilling
- SunChill Solar Cooling for Horticultural Preservation
- Solar Milk Cooling with Insulated Milk Cans
Drying
- Solar Drying
- Biogas Powered Infrared Coffee Dryer
- Modern Solar Drying in Afghanistan
- Drying Oregano with Solar Dryers in Peru
- Drying Chili Peppers with Solar Dryers in Peru
Other Types of Food Processing
- Field Evaluation of a Passive Aeration System for Aquaculture
- Agro-Processing Power Stations
- Solar-Powered Oil Press for Sesame Seed
- Tomato Processing by Solar Energy
Energy Efficiency
- Energy Efficiency Introduction
- Energy Efficiency in Powering Agriculture
- Cogeneration
- Energy Efficiency Potentials in the Kenyan Tea Sector
- Energy Auditing
Energy Source-Solar Power
Introduction
Solar Powered Irrigation
- Solar powered water pumps
- Micro-Solar Utilities for Small-Scale Irrigation
- Solar Powered Pumps for Improved Irrigation
- Hydroponic Green Farming Initiative
- Low-Cost Pay-Per-Use Irrigation Using Solar Trolley Systems
- Affordable, High-Performance Solar Irrigation for Smallholder Farmers
- PV-Integrated Drip Irrigation and Fertigation Systems
- Scaling the Distribution of Tailored Agro-Solar Irrigation Kits to Smallholder Farmers
- Sunflower Pump: Asset-Financed Solar Irrigation Pumps for Smallholder Farmers
- Micro-Solar Utilities for Small-Scale Irrigation
- Solar Powered Irrigation Systems in Egypt
- SPIS Toolbox
- Solar-powered irrigation systems – Technology, Economy, Impacts
- Photovoltaic|(PV) Pumping Systems for Irrigation
Solar Powered Cooling
- SunDanzer: Solar Powered Refrigeration for Kenyan Dairy Farms
- Reducing Milk Spoilage through Solar-Powered Chilling
- SunChill Solar Cooling for Horticultural Preservation
- Solar Milk Cooling with Insulated Milk Cans
Solar Powered Drying
- Solar Drying
- Biogas Powered Infrared Coffee Dryer
- Modern Solar Drying in Afghanistan
- Drying Oregano with Solar Dryers in Peru
- Drying Chili Peppers with Solar Dryers in Peru
Other Solar Powered Applications
- Renewable Microgrids for Off-Grid Fish Hatcheries and Surrounding Communities
- Solar Agro-Processing Power Stations
- Private Sector Financed Community Solar Microgrids and Agricultural Accelerators
- Field Evaluation of a Passive Aeration System for Aquaculture
- Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods
- Biomass and Solar PV Hybrid Minigrids for Off-Grid Farming Communities
Energy Source-Biomass/Biogas
- Biogas in Powering Agriculture
- Bioenergy Resources and Technologies
- Biomass and Solar PV Hybrid Minigrids for Off-Grid Farming Communities
- Building Markets for Efficient Biomass Power Provision
- Biomass-Powered Thermal Processing of Ethiopian Bamboo
- Biogas Milk Chilling for Dairy Farmers
- Biogas-Powered Evaporative Cooling for the Dairy Industry
- Biomass Potential in the Indonesian Agroindustry
- Biogas Technology in Vietnam
- Biogas for the Small Holdings in Kerala, India
Energy Source-Wind and Hydro Power
Hydropower
Wind Power
Financing and Business Models
- Agri-Food Enterprises in the Energy-Food Nexus
- Business Plan for Solar Processing of Tomatoes
- Small Scale Oil Seeds Processing
- Techno-Economic Analysis in the Agricultural Value Chain
- Comparative Financial Analysis of Irrigation Solutions
Policies and Regulations
- Policies and Regulations for the Energy-Agriculture Nexus
- Comparison of various Policy Tools for Promoting Renewable Energies
- Bioenergy Decision Support Tool
Value Chain
Dairy
- Food Safety Laboratory and Milk Quality Improvement Program (College of Agriculture and Life Sciences Cornell University)
- Clean Energy Solutions for Milk Cooling in India and Kenya
- Biogas Milk Chilling for Dairy Farmers
- Biogas-Powered Evaporative Cooling for the Dairy Industry
- SunDanzer: Solar Powered Refrigeration for Kenyan Dairy Farms
- Reducing Milk Spoilage through Solar-Powered Chilling
- Solar Milk Cooling with Insulated Milk Cans
Rice
- Ricepedia
- IRRI Axial Flow Thresher
- RiceHub
- Solar Agro-Processing Power Stations
- Biomass and Solar PV Hybrid Minigrids for Off-Grid Farming Communities
- Costs and Benefits of Clean Energy Technologies in the Philippines’ Rice Value Chain
Fruit & Vegetables
- Waste Stitching – Circular Economy
- SunChill Solar Cooling for Horticultural Preservation
- Tomato Processing by Solar Energy
- Water and Food Security – FAO
Water Use in Agriculture
- FAO Water– The Importance of Sustainable Water Management
- Water in Agriculture World Bank
- Do Solar Powered Irrigation Systems (SPIS) Contribute to the Overexploitation of Groundwater Reserves
- SPIS Toolbox on Solar Powered Irrigation Systems
- SPIS|Toolbox – Understanding Groundwater
- SPIS Safeguard Water Module
- SPIS Toolbox -Understand Water Resources
- SPIS Toolbox -Assess Environmental and Socio-Economic Impacts
- SPIS Toolbox - Irrigation Efficiency Tips
