Knowledge fuels change - Support energypedia!
For over 10 years, energypedia has been connecting energy experts around the world — helping them share knowledge, learn from each other, and accelerate the global energy transition.
Today, we ask for your support to keep this platform free and accessible to all.
Even a small contribution makes a big difference! If just 10–20% of our 60,000+ monthly visitors donated the equivalent of a cup of coffee — €5 — Energypedia would be fully funded for a whole year.
Is the knowledge you’ve gained through Energypedia this year worth €5 or more?
Your donation keeps the platform running, helps us create new knowledge products, and contributes directly to achieving SDG 7.
Thank you for your support, your donation, big or small, truly matters!
Difference between revisions of "Climate-Smart Agrifood Systems: Links"
From energypedia
***** (***** | *****) m |
***** (***** | *****) m |
||
| Line 1: | Line 1: | ||
{{Back to PA portal2}}<br/> | {{Back to PA portal2}}<br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <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 21: | Line 21: | ||
= <span style="color:#00A3AD">Application</span><br/> = | = <span style="color:#00A3AD">Application</span><br/> = | ||
| − | == <span style="color:#00A3AD"> | + | == <span style="color:#00A3AD">Pumping and Irrigation</span><br/> == |
*[[Powering Agriculture: Irrigation|Irrigation Types]]<br/> | *[[Powering Agriculture: Irrigation|Irrigation Types]]<br/> | ||
| Line 45: | Line 45: | ||
*[[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <span style="color:#00A3AD">Cooling</span><br/> == |
*[[Evaporative Cooling Devices|Evaporative Cooling Devices]]<br/> | *[[Evaporative Cooling Devices|Evaporative Cooling Devices]]<br/> | ||
| Line 55: | Line 55: | ||
*[[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <span style="color:#00A3AD">Drying</span><br/> == |
*[[Solar Drying|Solar Drying]]<br/> | *[[Solar Drying|Solar Drying]]<br/> | ||
| Line 65: | Line 65: | ||
<br/> | <br/> | ||
| − | == <span style="color:#00A3AD"> | + | == <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 72: | Line 72: | ||
*[[Tomato Processing by Solar Energy|Tomato Processing by Solar Energy]]<br/> | *[[Tomato Processing by Solar Energy|Tomato Processing by Solar Energy]]<br/> | ||
| + | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | <br/> |
| + | |||
| + | = <span style="color:#00A3AD">Energy Efficiency</span><br/> = | ||
*[[Energy Efficiency Introduction|Energy Efficiency Introduction]]<br/> | *[[Energy Efficiency Introduction|Energy Efficiency Introduction]]<br/> | ||
| Line 83: | Line 86: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <span style="color:#00A3AD">Energy Source-Solar Power</span><br/> = |
== <span style="color:#00A3AD">Introduction</span><br/> == | == <span style="color:#00A3AD">Introduction</span><br/> == | ||
| Line 92: | Line 95: | ||
*[[Solar Thermal Technologies|Solar Thermal Technologies]]<br/> | *[[Solar Thermal Technologies|Solar Thermal Technologies]]<br/> | ||
| − | == <span style="color:#00A3AD">Irrigation | + | == <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 109: | Line 112: | ||
*[[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <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 116: | Line 119: | ||
*[[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <span style="color:#00A3AD">Solar Powered Drying</span><br/> == |
*[[Solar Drying|Solar Drying]]<br/> | *[[Solar Drying|Solar Drying]]<br/> | ||
| Line 124: | Line 127: | ||
*[[Solar Drying|Drying Chili Peppers with Solar Dryers in Peru]]<br/> | *[[Solar Drying|Drying Chili Peppers with Solar Dryers in Peru]]<br/> | ||
| − | == <span style="color:#00A3AD"> | + | == <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 135: | Line 138: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD">Source | + | = <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 150: | Line 153: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <span style="color:#00A3AD">Energy Source-Wind and Hydro Power</span><br/> = |
| − | == <span style="color:#00A3AD"> | + | == <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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <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 164: | Line 167: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <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 174: | Line 177: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <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 182: | Line 185: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <span style="color:#00A3AD">Value Chain</span><br/> = |
| − | == <span style="color:#00A3AD"> | + | == <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 194: | Line 197: | ||
*[[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <span style="color:#00A3AD">Rice</span><br/> == |
*[http://www.ricepedia.org/ Ricepedia]<br/> | *[http://www.ricepedia.org/ Ricepedia]<br/> | ||
| Line 203: | Line 206: | ||
*[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/> | ||
| − | == <span style="color:#00A3AD"> | + | == <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 212: | Line 215: | ||
<br/> | <br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <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 224: | Line 227: | ||
*[[SPIS Toolbox - Irrigation Efficiency Tips|SPIS Toolbox - Irrigation Efficiency Tips]]<br/> | *[[SPIS Toolbox - Irrigation Efficiency Tips|SPIS Toolbox - Irrigation Efficiency Tips]]<br/> | ||
| − | = <span style="color:#00A3AD"> | + | = <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:Water-Energy-Food_Nexus]] | ||
[[Category:Powering_Agriculture]] | [[Category:Powering_Agriculture]] | ||
| − | |||
Revision as of 13:36, 9 September 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
