Difference between revisions of "Portal:Water and Energy for Food"

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{{French Version|Portal:Eau et Energie pour lAllimentation}}
|:Portal:Powering Agriculture|Portal Powering Agriculture
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|:Group:Powering Agriculture|Group Powering Agriculture
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|:Portal:Water and Energy for Food|Water & Energy for Food
|:Category:Powering Agriculture|All Powering Agriculture Articles
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|WE4F_Resources|WE4F Resources
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|Toolbox_on_SPIS|SPIS Toolbox
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|:Category:Water-Energy-Food Nexus|Water & Energy for Food Articles
 
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<div class="header-banner header-banner-country-portal" style="background: linear-gradient(90deg,#f5f7fb 0%,#f5f7fb 33%,#f5f7fb 66%); border-color: #ffffff">
== Welcome to the Powering Agriculture Portal ==
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Welcome to the <big>'''Water and Energy for Food (WE4F) Portal'''</big>
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Many farmers and agribusinesses in developing countries lack access to reliable, affordable, and clean energy services. This limits their ability to adopt modern agricultural practices, increase food production, improve efficiency of their operations, and benefit from broad-based, low-carbon economic growth. As the global population steadily increases, substantial agricultural intensification will need to occur – which is intrinsically tied to an increase in energy demand. Along the value chain – from obtaining agri-inputs, planting, irrigation, and harvesting to processing, transportation, and storage – there are opportunities for increased use of clean energy technologies as well as increased energy efficiency to enhance agriculture production and value. Not only is there an identified need for technology development, but also for creative approaches to bring clean energy innovations to commercial scale.
 
  
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'''Water and Energy for Food''' is a joint international initiative that provides financial support, technical assistance, and investment facilitation to water-energy-food innovations. This portal provides information and tools that targets the integration of water, food, and energy to further agricultural productivity and efficiency. [[Water_and_Energy_for_Food|Read more]]<!--<svgmap width="100%" color="#79d248" mark="ng" mark-color="#ffc714" flag="true" flag-size=""></svgmap>-->
 
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<div class="width-3-4"><div class="width-1-1"><center>{{WE4F Coverpic}}<br><br></center></div>
=== The Energy Agriculture Nexus ===
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<!--<div class="width-3-4"><div class="width-1-1" style="overflow: scroll;"><center>{{WE4F Coverpic}}<br><br></center></div>-->
  
[[File:Energy Input in Agricultural Value Chains.png|border|center|215px|alt=Energy Input in Agricultural Value Chains.png]]
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<div class="grid stretch-items">
*[[Literature Analysis: Energy in Agriculture|Literature Analysis: Energy in Agriculture]]
 
*[[Energy within Food and Agricultural Value Chains|Energy within Food and Agricultural Value Chains]]
 
*[[Energy Saving Potentials in Agriculture|Energy Saving Potentials within Agriculture]]
 
  
===== =====
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<div class="width-1-2 card">
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=== [[file:SustainableEnergy teal.svg|25px|link=]] Sustainable Energy for Food ===
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Agriculture is both one of the main energy consuming sectors and one of the most affected sectors by the effects of climate change. Understanding the nexus between energy and food is essential to develop climate-smart solutions in the agricultural sector.
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*[[The Links between Energy & Food|The Links between Energy & Food]]
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*[[Energy Needs and Greenhouse Gas Emissions in Agriculture|Energy Needs and Greenhouse Gas Emissions in Agriculture]]
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*[[The Potential of Climate-Smart Agriculture|The Potential of Climate-Smart Agriculture]]
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</div>
  
*[[Powering Agriculture: An Energy Grand Challenge for Development|A global multi-donor initiative: "Powering Agriculture: An Energy Grand Challenge for Development"]]
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<div class="width-1-2 card">
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=== [[file:WaterinAgriculture blue.svg|25px|link=]] Water Use in Agriculture ===
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Around 70 percent of global freshwater withdrawals go into agriculture. Sustainable water management is pivotal in order to increase water use efficiency and ensure food and nutrition security.
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*[[Water Use in Agriculture|Water Use in Agriculture ]]
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</div>
  
===== =====
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<div class="width-1-2 card">
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=== [[file:Application blue.svg|25px|link=]] Application in Food and Agriculture ===
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Sustainable energy can be applied in a large variety of agricultural activities, ensuring electricity supply in remote areas while increasing farmers’ incomes by saving costs on energy provision from traditional sources.
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*[[Sustainable Energy for Pumping and Irrigation|Pumping and Irrigation]]
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*[[Sustainable Energy for Cooling|Cooling]]
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*[[Sustainable Energy for Drying|Drying]]
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*[[Sustainable Energy for Food Processing|Food Processing]]
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</div>
  
=== Energy Technologies:<br/>Renewables and Energy Efficiency ===
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<div class="width-1-2 card">
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=== [[file:EnergySource blue.svg|25px|link=]] Energy Source for Food Production ===
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Depending on the geographical location, some energy sources are more suitable for agricultural production and processing steps than others. Adapting to local conditions is essential to improve energy efficiency.
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*[[Solar Power as Energy Source in Agrifood Systems|Solar Power]]
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*[[Biomass and Biogas as Energy Source in Agrifood Systems|Biomass and Biogas]]
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*[[Wind, Hydro and other Energy Sources in Agrifood Systems|Wind, Hydro and other Energy Sources]]
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</div>
  
'''Energy Efficiency'''
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<div class="width-1-2 card">
*[http://giz.energypedia.info/wiki/Portal:GIZ_Energy_Efficiency Portal Energy Efficiency]
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=== [[file:ValueChain blue.svg|100px|link=]] Value Chain ===
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The implementation of sustainable energy can be found among all steps of different value chains. Depending on production requirements and local conditions, technical innovations can improve farmers’ livelihoods considerably.
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*[[Sustainable Energy Use in the Dairy Value Chain|Dairy]]
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*[[Sustainable Energy Use in the Rice Value Chain|Rice]]
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*[[Sustainable Energy Use in Fruit and Vegetable Value Chains|Fruit and Vegetable]]
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*[[Sustainable Energy Use in the Fish Value Chain|Fish]]
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</div>
  
<br/>'''Solar'''
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<div class="width-1-2 card">
*[[Photovoltaic (PV) Pumping Systems for Irrigation|Photovoltaic (PV) pumping systems for Irrigation]]
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=== [[file:EnergyEfficiency blue.svg|25px|link=]] Energy Efficiency ===
*[[Solar Drying|Solar Drying]]
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The world’s first fuel is energy efficiency, key to protect natural resources and the climate. Identifying and solving efficiency gaps is crucial for sustainable development.
*[[Solar Cooling|Solar Cooling]]
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*[[Energy Efficiency in Agrifood Systems|Energy Efficiency in Agrifood Systems]]
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</div>
  
<br/>'''Bioenergy'''
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<div class="width-1-2 card">
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=== [[file:PoliciesRegulations blue.svg|25px|link=]] Policies and Regulations ===
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The adoption of clean energy solutions can improve considerably when governmental action and regulations provide clear incentives and complement market development.
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*[[Policies and Regulations for Sustainable Agrifood Systems|Policies and Regulations for Sustainable Agrifood Systems]]
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</div>
  
<u>Biomass</u>
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<div class="width-1-2 card">
*Bioenergy for agricultural production
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=== [[file:Financingteal.svg|25px|link=]] Financing and Business Models ===
*[http://www.unep.org/ietc/Portals/136/Publications/Waste Compenidum of Technologies: Converting Waste Agricultural Biomass into a Resource]
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As financing is usually the main barrier to gain access to innovative sustainable technologies, both appropriate financial instruments and thoughtful business models are necessary to promote and finance sustainable innovations.
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*[[Financial Instruments and Financing for Sustainable Agrifood Systems|Financial Instruments and Financing]]
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*[[Business Models for Sustainable Agrifood Systems|Business Models]]
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</div>
  
<u>Biogas</u>
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<div class="width-1-2 card">
*[https://energypedia.info/wiki/Portal:Biogas Biogas Portal]
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=== [[file:Crosscutting icon.svg|25px|link=]] Cross-cutting Issues ===
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The linkages between water, energy and agriculture impact a multitude of cross-cutting issues, such as gender, health and land rights.  
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*[[Gender Aspects in Agriculture|Gender and Agriculture]]
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*[[Digitalisation in Agriculture|Digitalisation in Agriculture]]
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</div>
  
<br/>'''Hydro'''
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<div class="width-1-2 card">
*<span dir="auto">[[Productive Use of Micro Hydro Power (MHP)|Productive Use of Micro Hydro Power (MHP)]]</span>
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=== [[file:blank icon.svg|25px|link=]] Downloads and Links ===
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All links for reports, case studies, innovations, tools and useful training material can be found here.
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*[[Climate-Smart Agrifood Systems: Publications|Publications]]
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*[[Climate-Smart Agrifood Systems: Links|Links]]
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*[[Climate-Smart Agrifood Systems: Tools & Software|Tools & Software]]
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</div>
  
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=====  =====
 
 
 
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=== Energy within Agro-Processes ===
 
 
 
*Irrigation
 
*Drying
 
*Cooling
 
*Processing heat & co-generation
 
  
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<div class="width-1-4"> <!-- Resources Column -->
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<div class="box offers"> <!-- Start Box offers -->
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== Further Information ==
 
<br/>
 
<br/>
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==== External Websites ====
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*<center>[https://www.giz.de/en/worldwide/156008.html Saving water and energy in agriculture and food production - giz.de]</center>
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*<center>[https://www.water-energy-food.org/ Home | Nexus - The Water, Energy & Food Security Resource Platform]</center>
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*<center>[https://we4f.pageflow.io/we4f#353415735 Digital Exhibition | WE4F innovators in the East African Region]</center>
  
=== Energy-intensive Agricultural Value Chains ===
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==== SPIS Toolbox ====
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[[Toolbox on SPIS|Toolbox on Solar Powered Irrigation Systems (SPIS)]]
  
*Rice: [http://www.knowledgebank.irri.org/ Rice Knowlege Bank]
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==== Latest Publications ====
*Tapioca
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<!--*[[:File:Solar Powered Irrigation Systems (SPIS) - Technology, Economy, Impacts.pdf|Solar Powered Irrigation Systems (SPIS) - Technology, Economy, Impacts]]-->
*Sugar
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*<center>[[File:WE4F-Innovator-Compendium-September-2024.pdf|link=https://energypedia.info/images/9/9c/WE4F-Innovator-Compendium-September-2024.pdf|Innovator Compendium]]</center>
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*<center>[[File:WE4F-techsheet-compendium-september-2024.pdf|link=https://energypedia.info/images/0/0e/WE4F-techsheet-compendium-september-2024.pdf|Technology Compendium]]</center>
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<!--===  SPIS Newsletter ===
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[https://subscribe.newsletter2go.com/?n2g=7z7npd8n-asvc51dv-r6j Sign up for the SPIS newsletter!]
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===  News of the Month ===
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[[Opportunity - SPIS Toolbox - Online Trainings for Advisors|SPIS Toolbox - Online Trainings for Advisors]]
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[http://sip.africa.iwmi.org/ New tool to assess land suitability for irrigation using solar energy]
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[https://www.powerforall.org/resources/fact-sheets/fact-sheet-productive-uses-of-energy?utm_source=ZohoCRM+Contacts&utm_campaign=34141ee49c-EMAIL_CAMPAIGN_1_30_2018_COPY_01&utm_medium=email&utm_term=0_7c3f1e0b60-34141ee49c-326791533 Fact Sheet: Productive uses of energy]
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===  Events ===
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{{#ask:[[Belongs to::Events]] [[Focus::~*Water and Energy for Food*]] [[Beginning::>{{CURRENTYEAR}}-{{CURRENTMONTH}}-{{CURRENTDAY}}]] |?Event title |?Beginning |format=template |template=Event List Row |limit=3 |searchlabel= |offset=0 |sort=Beginning |link=none }}
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<div class="more-link">[[:Category:Events|All Events]]</div>
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=== Start a Discussion ===
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Have a query? Discuss it with the agriculture experts on energypedia '''[[Group:Water_and_Energy_for_Food|here]]'''!-->
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<div class="box offers social-links">
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====  Follow Us On ====
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* [[File:Facebook icon for the PA portal.png|Facebook|35px|center|link=https://www.facebook.com/WaterEnergy4Food]]
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* [[File:Twitter icon for PA portal.png|Twitter|35px|center|link=https://twitter.com/WE4FGCD]]
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* [[File:Linkedin icon for the PA portal.png|35px|Linkedin|center|link=https://www.linkedin.com/company/water-and-energy-for-food-grand-challenge]]
  
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* [[File:Instagram PA icon.svg|Instagram|55px|center|link=https://www.instagram.com/we4fgcd/]]
 
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* [[File:YouTube PA icon.svg|YouTube|55px|center|link=https://www.youtube.com/c/WaterandEnergyforFoodGrandChallenge]]
=== Business Models & Upscaling ===
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</div>
 
 
*Innovative business models
 
  
<br/>
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</div> <!-- End Box offers -->
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</div> <!-- End Resources Column -->
  
=== The Bigger Picture ===
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</div><!-- End Main Grid --> </div> <!-- End .water-energy-food -->
 
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<!--{{PA map}}-->
*[http://agriwaterpedia.info/wiki/Water,_energy_and_food_nexus Nexus]
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{{#Widget:Heatmap}}
*[http://agriwaterpedia.info/wiki/Main_Page Agricultural water management: Agriwaterpedia]
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[[Category:Water-Energy-Food_Nexus|{{PAGENAME}}]]
*Political and Economic Framework
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__NOTITLE__ __NOEDITSECTION__ __NOTOC__
*Financial Institutions
 
 
 
<br/>
 
 
 
=== Studies and Publications ===
 
 
 
*<span dir="auto">[[Agro Industrial Biogas in Kenya - DBFZ Study|Agro Industrial Biogas in Kenya - DBFZ Study]]</span>
 
*[http://www.globalbioenergy.org/fileadmin/user_upload/gbep/docs/Indicators/The_GBEP_Sustainability_Indicators_for_Bioenergy_FINAL.pdf The Global Bioenergy Partnership Sustainability Indicators for Bioenergy]
 
 
 
<br/>
 
 
 
=== Databases and Tools ===
 
 
 
*[http://practicalaction.org/iret Interactive Renewable Energy Toolkit] by Practical Action
 
 
 
<br/>
 
 
 
=== Relevant Webpages ===
 
 
 
*[http://poweringag.org/ Powering Agriculture]
 
*[https://energypedia.info/wiki/Portal:Productive_Use Portal on Productive Use]
 
 
 
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===== Latest Powering Agriculture Articles =====
 
 
 
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===== Powering Agriculture Events =====
 
 
 
===== {{#ask:[[Belongs to::Events]] [[Focus::Powering Agriculture]] [[Beginning::>{{CURRENTYEAR}}-{{CURRENTMONTH}}-{{CURRENTDAY}}]] |?Beginning |format=template |template=Event List Row |limit=3 |searchlabel= |offset=0 |sort=Beginning }} =====
 
 
 
===== [[Form:Events|Add new]] =====
 
 
 
===== [[:Category:Events|All events]] =====
 
 
 
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== Map of Pilot Projects ==
 
 
 
{{#display_points: Ethiopia~African Bamboo~An Environmentally Friendly Bamboo Thermal Modification Process; China~A New Energy Saving Precision Irrigation Technology for North China Plain Production System; Thailand~Polycarbonate Sheet-covered Greenhouse Solardryer for Small-scaled Dried Food Industries in Thailand; Kerala,India~Biogas~A Viable Energy Source for the Small Holdings in Kerala, India; Kenya~Solar Drying in Kenya; Mexico~Renewable Energy in Agriculture Project; India~Solar-PV-Based Irrigation Pumps in India | height=500 | width=100% | zoom=2 | service=googlemaps}}
 
 
 
<br/>
 
*[http://poweringag.org/2013-winners/african-bamboo African Bamboo]: An Environmentally Friendly Bamboo Thermal Modification Process
 
*<span dir="auto">[https://energypedia.info/wiki/A_New_Energy_Saving_Precision_Irrigation_Technology_for_North_China_Plain_Production_System A New Energy Saving Precision Irrigation Technology for North China Plain Production System]</span>
 
*<span dir="auto">[https://energypedia.info/wiki/Biogas_-_A_Viable_Energy_Source_for_the_Small_Holdings_in_Kerala,_India Biogas - A Viable Energy Source for the Small Holdings in Kerala, India]</span>
 
*<span dir="auto">[https://energypedia.info/wiki/Development_and_Dissemination_of_Polycarbonate_Sheet-covered_Greenhouse_Solardryer_for_Small-scaled_Dried_Food_Industries_in_Thailand Polycarbonate Sheet-covered Greenhouse Solardryer for Small-scaled Dried Food Industries in Thailand]</span>
 
*[https://energypedia.info/wiki/Energy_Provision_in_Rural_Areas_of_Kenya Solar Drying in Kenya]
 
*[https://energypedia.info/wiki/Energy_Provision_in_Rural_India Solar-PV-Based Irrigation Pumps in India]
 
*[[Mexico - Renewable Energy in Agriculture Project|Mexico - Renewable Energy in Agriculture Project]]
 

Latest revision as of 16:25, 20 November 2024

WE4F-logo-color.png

Welcome to the Water and Energy for Food (WE4F) Portal


Water and Energy for Food is a joint international initiative that provides financial support, technical assistance, and investment facilitation to water-energy-food innovations. This portal provides information and tools that targets the integration of water, food, and energy to further agricultural productivity and efficiency. Read more

SustainableEnergy teal.svg Sustainable Energy for Food

Agriculture is both one of the main energy consuming sectors and one of the most affected sectors by the effects of climate change. Understanding the nexus between energy and food is essential to develop climate-smart solutions in the agricultural sector.

WaterinAgriculture blue.svg Water Use in Agriculture

Around 70 percent of global freshwater withdrawals go into agriculture. Sustainable water management is pivotal in order to increase water use efficiency and ensure food and nutrition security.

Application blue.svg Application in Food and Agriculture

Sustainable energy can be applied in a large variety of agricultural activities, ensuring electricity supply in remote areas while increasing farmers’ incomes by saving costs on energy provision from traditional sources.

EnergySource blue.svg Energy Source for Food Production

Depending on the geographical location, some energy sources are more suitable for agricultural production and processing steps than others. Adapting to local conditions is essential to improve energy efficiency.

ValueChain blue.svg Value Chain

The implementation of sustainable energy can be found among all steps of different value chains. Depending on production requirements and local conditions, technical innovations can improve farmers’ livelihoods considerably.

EnergyEfficiency blue.svg Energy Efficiency

The world’s first fuel is energy efficiency, key to protect natural resources and the climate. Identifying and solving efficiency gaps is crucial for sustainable development.

PoliciesRegulations blue.svg Policies and Regulations

The adoption of clean energy solutions can improve considerably when governmental action and regulations provide clear incentives and complement market development.

Financingteal.svg Financing and Business Models

As financing is usually the main barrier to gain access to innovative sustainable technologies, both appropriate financial instruments and thoughtful business models are necessary to promote and finance sustainable innovations.

Crosscutting icon.svg Cross-cutting Issues

The linkages between water, energy and agriculture impact a multitude of cross-cutting issues, such as gender, health and land rights.

Blank icon.svg Downloads and Links

All links for reports, case studies, innovations, tools and useful training material can be found here.