Difference between revisions of "Agricultural Processing"

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About 30 per cent of the energy used worldwide goes into the production and processing of food from field to table. The vast majority of it comes from fossil fuels, being responsible for some 20 per cent of global greenhouse gas emissions <ref>FAO, 2011. Energy-Smart Food for People and Climate – Issue Paper.</ref>. Primary agriculture consumes only about [http://www.fao.org/docrep/014/i2454e/i2454e00.pdf 20 per cent], whilst '''food processing '''including transport uses around [http://www.fao.org/docrep/014/i2454e/i2454e00.pdf 40 per cent] and thereby significantly contributes to global energy consumption along agricultural value chains.<br/><br/>Especially in emerging countries, the rapidly growing agro-industry faces the challenge to cover its energy needs within processing. In India for example, the installed capacity of the fruit and vegetable processing industry has been doubled between 1993 and 2006. Energy consumption of the Indian food processing industry (including the production of meat, fish, fruit, vegetables and oil, beverages, products by grain mills and dairies, and other foods such as bakery products, convenience products, cocoa products or salty snacks) requires 5,300 kilotons of oil equivalent per year.<br/><br/>Most energy is consumed by processes of washing and cleaning, cooking, cooling, extraction, pureeing, brewing, baking, pasteurizing, boiling, drying and dehydration. With regards to ​​meat, fish, fruit, vegetables and edible oil, electrical energy accounts for about 50 per cent of energy consumption, especially for preservation and processing. In further segments such as beverages and other foods a high proportion of the required energy is needed for heating processes – which to a large extent is delivered by petroleum and biomass<sup class="reference" id="cite_ref-3">[[Energy within Food and Agricultural Value Chains|[4]]]</sup>.<br/><br/>Broadly, the most energy intensive activities are drying, cooling, postharvest and storage, food and beverage processing. Especially in developing countries, demand for cooling is increasing rapidly, where [[Solar Cooling|solar powered cooling]] is an option.<br/><br/><br/>
 
About 30 per cent of the energy used worldwide goes into the production and processing of food from field to table. The vast majority of it comes from fossil fuels, being responsible for some 20 per cent of global greenhouse gas emissions <ref>FAO, 2011. Energy-Smart Food for People and Climate – Issue Paper.</ref>. Primary agriculture consumes only about [http://www.fao.org/docrep/014/i2454e/i2454e00.pdf 20 per cent], whilst '''food processing '''including transport uses around [http://www.fao.org/docrep/014/i2454e/i2454e00.pdf 40 per cent] and thereby significantly contributes to global energy consumption along agricultural value chains.<br/><br/>Especially in emerging countries, the rapidly growing agro-industry faces the challenge to cover its energy needs within processing. In India for example, the installed capacity of the fruit and vegetable processing industry has been doubled between 1993 and 2006. Energy consumption of the Indian food processing industry (including the production of meat, fish, fruit, vegetables and oil, beverages, products by grain mills and dairies, and other foods such as bakery products, convenience products, cocoa products or salty snacks) requires 5,300 kilotons of oil equivalent per year.<br/><br/>Most energy is consumed by processes of washing and cleaning, cooking, cooling, extraction, pureeing, brewing, baking, pasteurizing, boiling, drying and dehydration. With regards to ​​meat, fish, fruit, vegetables and edible oil, electrical energy accounts for about 50 per cent of energy consumption, especially for preservation and processing. In further segments such as beverages and other foods a high proportion of the required energy is needed for heating processes – which to a large extent is delivered by petroleum and biomass<sup class="reference" id="cite_ref-3">[[Energy within Food and Agricultural Value Chains|[4]]]</sup>.<br/><br/>Broadly, the most energy intensive activities are drying, cooling, postharvest and storage, food and beverage processing. Especially in developing countries, demand for cooling is increasing rapidly, where [[Solar Cooling|solar powered cooling]] is an option.<br/><br/><br/>
 
+
<br/>
 
 
 
 
 
= Further Information<br/> =
 
= Further Information<br/> =
 
'''Practical Experiences'''<br/><br/>Energy for Processing of Food (WISIONS):<br/>
 
'''Practical Experiences'''<br/><br/>Energy for Processing of Food (WISIONS):<br/>
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*[[Sheabutter Processing|Sheabutter Processing]]<br/>
 
*[[Sheabutter Processing|Sheabutter Processing]]<br/>
 
*[[Renewable Energy for Food Preparation and Processing - WISIONS|Basic Information about Processing of Food]]<br/>
 
*[[Renewable Energy for Food Preparation and Processing - WISIONS|Basic Information about Processing of Food]]<br/>
<br/>
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<br/>Cooperation between GIZ SLMP and TAMPA:<br/>
Cooperation between GIZ SLMP and TAMPA:<br/>
 
 
*[[Business Plan for Solar Processing of Tomatoes|Solar Processing of Tomatoes]]<br/>
 
*[[Business Plan for Solar Processing of Tomatoes|Solar Processing of Tomatoes]]<br/>
 
*[[Business Plan for Solar Processing of Tomatoes|Business Plan for Solar Processing of Tomatoes]]<br/>
 
*[[Business Plan for Solar Processing of Tomatoes|Business Plan for Solar Processing of Tomatoes]]<br/>
 
*[[Tomato Processing by Solar Energy|Tomato Processing by Solar Energy]]<br/>
 
*[[Tomato Processing by Solar Energy|Tomato Processing by Solar Energy]]<br/>
<br/>
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<br/>PAEGC-Awardee:<br/>
PAEGC-Awardee:<br/>
 
 
*[[Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods in Rural Haiti|Smart Grid on Main Street (Rural Haiti)]]<br/>
 
*[[Smart Grid on Main Street: Electricity and Value-added Processing for Agricultural Goods in Rural Haiti|Smart Grid on Main Street (Rural Haiti)]]<br/>
<br/>
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<br/>Others:<br/>
Others:<br/>
 
 
*[[Solar Drying|Solar Drying]]<br/>
 
*[[Solar Drying|Solar Drying]]<br/>
 
*[[Acrocomia Aculeata – Oil Crop|Oil Crops]]<br/>
 
*[[Acrocomia Aculeata – Oil Crop|Oil Crops]]<br/>
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*[[Energy for Agriculture|Energy for Agriculture: Processing]]<br/>
 
*[[Energy for Agriculture|Energy for Agriculture: Processing]]<br/>
 
*[[Energy within Food and Agricultural Value Chains|Energy within Food and Agricultural Value Chains]]<br/>
 
*[[Energy within Food and Agricultural Value Chains|Energy within Food and Agricultural Value Chains]]<br/>
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<br/>GHG-emissions:<br/>
GHG-emissions:<br/>
 
 
*[[Greenhouse-Gas Emissions from the Production and Processing of Food|GHG-emissions from the Production and Processing of Food]]<br/>
 
*[[Greenhouse-Gas Emissions from the Production and Processing of Food|GHG-emissions from the Production and Processing of Food]]<br/>
 
<br/>'''Publications'''<br/>
 
<br/>'''Publications'''<br/>
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<br/><br/><references /><br/>
 
<br/><br/><references /><br/>
  
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[[Category:Productive_Use]]
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[[Category:Agriculture]]
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[[Category:Powering_Agriculture]]
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[[Category:Cooling]]
 
[[Category:Renewable_Energy]]
 
[[Category:Renewable_Energy]]
[[Category:Cooling]]
 
[[Category:Powering_Agriculture]]
 
[[Category:Agriculture]]
 
[[Category:Productive_Use]]
 

Revision as of 14:28, 17 March 2015

About 30 per cent of the energy used worldwide goes into the production and processing of food from field to table. The vast majority of it comes from fossil fuels, being responsible for some 20 per cent of global greenhouse gas emissions [1]. Primary agriculture consumes only about 20 per cent, whilst food processing including transport uses around 40 per cent and thereby significantly contributes to global energy consumption along agricultural value chains.

Especially in emerging countries, the rapidly growing agro-industry faces the challenge to cover its energy needs within processing. In India for example, the installed capacity of the fruit and vegetable processing industry has been doubled between 1993 and 2006. Energy consumption of the Indian food processing industry (including the production of meat, fish, fruit, vegetables and oil, beverages, products by grain mills and dairies, and other foods such as bakery products, convenience products, cocoa products or salty snacks) requires 5,300 kilotons of oil equivalent per year.

Most energy is consumed by processes of washing and cleaning, cooking, cooling, extraction, pureeing, brewing, baking, pasteurizing, boiling, drying and dehydration. With regards to ​​meat, fish, fruit, vegetables and edible oil, electrical energy accounts for about 50 per cent of energy consumption, especially for preservation and processing. In further segments such as beverages and other foods a high proportion of the required energy is needed for heating processes – which to a large extent is delivered by petroleum and biomass[4].

Broadly, the most energy intensive activities are drying, cooling, postharvest and storage, food and beverage processing. Especially in developing countries, demand for cooling is increasing rapidly, where solar powered cooling is an option.



Further Information

Practical Experiences

Energy for Processing of Food (WISIONS):


Cooperation between GIZ SLMP and TAMPA:


PAEGC-Awardee:


Others:


Basic Knowledge

Energy Consumption in the Processing of Food:


GHG-emissions:


Publications

  • ...



  1. FAO, 2011. Energy-Smart Food for People and Climate – Issue Paper.