Difference between revisions of "Solar Energy in Powering Agriculture"

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= Overview<br/> =
 
= Overview<br/> =
 
This page shall serve as an overview page of articles, studies, publications etc. relating to solar energy within the energy agriculture nexus.<br/>
 
This page shall serve as an overview page of articles, studies, publications etc. relating to solar energy within the energy agriculture nexus.<br/>
Solar energy plays an important part for agricultural production and processing:<br/>
+
<br/>Solar energy plays an important part for agricultural production and processing:<br/>
 +
<br/>
 
*'''Solar Drying'''<br/>
 
*'''Solar Drying'''<br/>
In many developing countries large quantities of fruits and vegetables spoil due to inadequate infrastructure, insufficient processing capacities, and growing marketing difficulties caused by intensifying competition and protectionism in the worldwide agricultural markets. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions.<sup class="reference" id="cite_ref-http:.2f.2fwww.innotech-ing.de.2finnotech.2fenglish.2fprocessing.html_1-0">[[Solar_Drying|[2]]]</sup> Drying these products can help solve these problems, while also making an important contribution to improving the population's income and supply situation.<br/>
+
In many developing countries large quantities of fruits and vegetables spoil due to inadequate infrastructure, insufficient processing capacities, and growing marketing difficulties caused by intensifying competition and protectionism in the worldwide agricultural markets. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions.<sup class="reference" id="cite_ref-http:.2f.2fwww.innotech-ing.de.2finnotech.2fenglish.2fprocessing.html_1-0">[[Solar Drying|[2]]]</sup> Drying these products can help solve these problems, while also making an important contribution to improving the population's income and supply situation.<br/>Drying is an important form of food preservation that is often carried out at farm level right after harvest, or especially with highly perishable crops, at peak harvest time when local markets are saturated. Drying vegetables, fruits and meat with thermal energy enables longer storage times and easier transportation. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions (INNOTECH, 2012). For more information please see [[Solar Drying|here]].<br/>
Drying is an important form of food preservation that is often carried out at farm level right after harvest, or especially with highly perishable crops, at peak harvest time when local markets are saturated. Drying vegetables, fruits and meat with thermal energy enables longer storage times and easier transportation. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions (INNOTECH, 2012). For more information please see [[Solar_Drying|here]].<br/>
 
 
<br/>
 
<br/>
 
*'''Solar Powered Irrigation'''<br/>
 
*'''Solar Powered Irrigation'''<br/>
Solar energy presents a huge potential for agricultural irrigation. Experience from past projects has proven photovoltaic pumping systems to be technically mature and suitable for utilization in rural areas of developing countries. <br/>
+
Solar energy presents a huge potential for agricultural irrigation. Experience from past projects has proven photovoltaic pumping systems to be technically mature and suitable for utilization in rural areas of developing countries.<br/>
*For more information on PV pumping systems please see [[Photovoltaic_(PV)_Pumping_Systems_for_Irrigation|here]].<br/>
+
*For more information on PV pumping systems for irrigation see [[Photovoltaic_(PV)_Pumping_Systems_for_Irrigation|here]]<br/>
*For a case study from Egypt on solar powered irrigation systems please see [[Solar_Powered_Irrigation_Systems_in_Egypt|here]].<br/>
+
*For more information on PV pumping systems in general please see [[Photovoltaic (PV) Pumping Systems for Irrigation|here]]<br/>
<br/>
+
*For a case study from Egypt on solar powered irrigation systems please see [[Solar Powered Irrigation Systems in Egypt|here]]<br/>
<br/>
 
*[[Photovoltaic (PV) Pumping Systems for Irrigation|Photovoltaic (PV) pumping systems for Irrigation]]<br/>
 
*[[Solar Drying|Solar Drying]]<br/>
 
*[[Solar Cooling|Solar Cooling]]<br/>
 
 
<br/>
 
<br/>
= <br/><br/> =
+
*'''Solar Cooling'''<br/>
 
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Cooling and refrigeration is essential in agricultural production and processing, e.g. for preserving food products. It generally is a very energy-intensive process. Solar powered cooling presents an important clean energy opportunity, particularly in rural areas without access to the national grid, but also for other processors. For more information please see [[Solar_Cooling|here]].<br/><br/>
 
= Specific Publications<br/> =
 
= Specific Publications<br/> =
  
 
*[[:File:GIZ-DOE 2015 SPV-Diesel-Hybrid Checklist Philippines.pdf|Solar PV-diesel hybrid business planning]]: This publication by GIZ provides a systematic approach to asses and develop solar PV-diesel hybrid applications - in general, but also within the agricultural and food industry. The document contains a checklist for the major parameters related to the development of technically feasible and economically viable SPV-hybrid business cases for power generation in off-grid areas. For each of these parameters, this checklist presents general specifications and critical issues/recommendations, which should be taken into consideration. Please see Table 2 “[[Solar PV-diesel Hybrid Business Planning Checklist|Business planning checklist]]” on page 8 of the document.<br/>
 
*[[:File:GIZ-DOE 2015 SPV-Diesel-Hybrid Checklist Philippines.pdf|Solar PV-diesel hybrid business planning]]: This publication by GIZ provides a systematic approach to asses and develop solar PV-diesel hybrid applications - in general, but also within the agricultural and food industry. The document contains a checklist for the major parameters related to the development of technically feasible and economically viable SPV-hybrid business cases for power generation in off-grid areas. For each of these parameters, this checklist presents general specifications and critical issues/recommendations, which should be taken into consideration. Please see Table 2 “[[Solar PV-diesel Hybrid Business Planning Checklist|Business planning checklist]]” on page 8 of the document.<br/>
  
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[[Category:Productive_Use]]
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[[Category:Irrigation]]
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[[Category:Agriculture]]
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[[Category:Solar]]
 
[[Category:Powering_Agriculture]]
 
[[Category:Powering_Agriculture]]
[[Category:Solar]]
 
[[Category:Agriculture]]
 
[[Category:Irrigation]]
 
[[Category:Productive_Use]]
 

Revision as of 09:28, 16 March 2015

Overview

This page shall serve as an overview page of articles, studies, publications etc. relating to solar energy within the energy agriculture nexus.

Solar energy plays an important part for agricultural production and processing:

  • Solar Drying

In many developing countries large quantities of fruits and vegetables spoil due to inadequate infrastructure, insufficient processing capacities, and growing marketing difficulties caused by intensifying competition and protectionism in the worldwide agricultural markets. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions.[2] Drying these products can help solve these problems, while also making an important contribution to improving the population's income and supply situation.
Drying is an important form of food preservation that is often carried out at farm level right after harvest, or especially with highly perishable crops, at peak harvest time when local markets are saturated. Drying vegetables, fruits and meat with thermal energy enables longer storage times and easier transportation. Up to 70 per cent of agricultural products spoil during the traditional process of open-air drying, especially in tropical and subtropical regions (INNOTECH, 2012). For more information please see here.

  • Solar Powered Irrigation

Solar energy presents a huge potential for agricultural irrigation. Experience from past projects has proven photovoltaic pumping systems to be technically mature and suitable for utilization in rural areas of developing countries.

  • For more information on PV pumping systems for irrigation see here
  • For more information on PV pumping systems in general please see here
  • For a case study from Egypt on solar powered irrigation systems please see here


  • Solar Cooling

Cooling and refrigeration is essential in agricultural production and processing, e.g. for preserving food products. It generally is a very energy-intensive process. Solar powered cooling presents an important clean energy opportunity, particularly in rural areas without access to the national grid, but also for other processors. For more information please see here.

Specific Publications

  • Solar PV-diesel hybrid business planning: This publication by GIZ provides a systematic approach to asses and develop solar PV-diesel hybrid applications - in general, but also within the agricultural and food industry. The document contains a checklist for the major parameters related to the development of technically feasible and economically viable SPV-hybrid business cases for power generation in off-grid areas. For each of these parameters, this checklist presents general specifications and critical issues/recommendations, which should be taken into consideration. Please see Table 2 “Business planning checklist” on page 8 of the document.