Solar Cooking
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[[Institutional solar cooking]] involves cooking for groups with an single integrated solar cooking system, rather than simply using many smaller solar cookers. It may be designed for communal village use, a restaurant or bakery, or large scale production facilities preparing many thousands of meals per day. The cooking equipment employs basic solar cooking principles, and takes advantage of economy of scale.
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'''Institutional solar cooking''' involves cooking for groups with an single integrated solar cooking system, rather than simply using many smaller solar cookers. It may be designed for communal village use, a restaurant or bakery, or large-scale production facilities preparing many thousands of meals per day. The cooking equipment employs basic solar cooking principles, and takes advantage of economy of scale. Steam production is also an option for institutional solar cooking systems, allowing the cooking to take place indoors.
   
 
==Solar cooking with steam heat==
 
==Solar cooking with steam heat==
 
[[File:Tirupati solar installation.jpg|thumb|350px|Rooftop [[Scheffler reflector]]s used to create steam for cooking at the Tirupati shrine in [[India]]]]
 
[[File:Auroville Solar Bowl 2.jpg|thumb|right|350px|[[Solar Bowl]] on the roof of the [[Auroville Solar Kitchen]].]]
 
Some of the most familiar examples of institutional cooking have used [[Scheffler reflector]] technology to heat water to create steam for cooking. Installations at religous shrines, such as those at Tirupati and Shirdi in [[India]], illustrate the prodigious cooking capability of this approach. The system at the Shirdi shrine uses seventy-three parabolic reflectors mounted on the kitchen rooftop, and prepares food for 20,000 devotees daily. It is in use over 300 days per year. The remaining days it uses the back-up wood fired boiler, which had been their sole source for cooking until January 2011.
   
 
Another example of concentrating parabolic reflector techinology is used at the [[Auroville Solar Kitchen]], a collective kitchen for the Auroville community, an "experimental" township in the Viluppuram district, in {{state|Tamil Nadu}}, [[India]]. It serves lunch daily in its dining hall, and sends lunches out to schools and to individuals as well. It derives its name from the large [[Auroville Solar Bowl]]on its roof, which provides the steam for cooking on all the sunny days of the year. Back-up steam, if needed, is provided by a diesel fired boiler.
[[File:Tirupati_solar_installation.jpg|thumb|350px|Rooftop [[Scheffler reflector]]s used to create steam for cooking at the Tirupati shrine in [[India]]]]
 
[[File:Auroville_Solar_Bowl_2.jpg|thumb|right|350px|[[Solar Bowl]] on the roof of the [[Auroville Solar Kitchen]].]]
 
Some of the most familiar examples of institutional cooking have used [[Scheffler reflector]] technology to heat water to create steam for cooking. Installations at religous shrines, such as those at Tirupati and Shirdi in [[India]], illustrate the prodigious cooking capability of this approach. The system at the Shridi shrine uses seventy-three parabolic reflectors mounted on the kitchen complex roof, and prepares food for 20,000 devotees daily. It is in use over 300 days per year. The remaining days it uses the back-up wood fired boiler, which had been their sole source for cooking until January 2011.
 
 
Another example of concentrating parabolic reflector techinology is used at the [[Auroville Solar Kitchen]], a collective kitchen for the Auroville community, an "experimental" township in the Viluppuram district, in {{state|Tamil Nadu}}, [[India]]. It serves lunch daily in its dining hall, and sends lunches out to schools and to individuals as well. It derives its name from the large [[Auroville Solar Bowl]] on its roof, which provides the steam for cooking on all the sunny days of the year. Back-up steam, if needed, is provided by a diesel fired boiler.
 
 
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==Solar cooking directly with sunlight==
 
   
 
==Solar cooking directly with sunlight==
[[Image:Scheffler_Kitchen.jpg|350px|thumb|Egypt’s first Scheffler Community Kitchen at El Sherouk Farm near Alexandria using sunlight directly.]]
 
Institutional, or community systems, can also use large [[Parabolic solar reflectors]] to focus sunlight directly onto a cooking chamber, often with an integral grilling surface. [[Image:Scheffler-idea1.gif|thumb|350px|Scheffler reflector principles]]
 
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[[Image:Scheffler Kitchen.jpg|350px|thumb|[[Egypt]]’s first [[Scheffler Community Kitchen]] at El Sherouk Farm near Alexandria using sunlight directly.]]
[[Image:Paul_Munsen_Flickr.jpg|thumb|350px|[[Paul Munsen]] demonstrates a Villiager Sun Oven.]]
 
 
Institutional, or community systems, can also use large [[Parabolic solar reflectors]] to focus sunlight directly onto a cooking chamber, often with an integral grilling surface used with the [[Scheffler Community Kitchen]].
[[File:Business_2.0_VSO_picture.jpg|thumb|350px|[[Villager Sun Oven]]]]
 
A [[Solar box cookers|solar box cooker]] approach, scaled for coummunity use, has been created by [[Sun Ovens International]], and is called the [[Villager Sun Oven]]. Villager Sun Ovens are currently in use in fifty-five countries around the world. The primary use is in large scale feeding or in bakeries and is capable of reaching temperatures in excess of 260°C (500°F).
 
   
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A smaller scale example of a parabolic community solar cooker is the [[Community Solar Cooker 3 SQ MT]] designed by [[Ajay Chandak]].[[Image:Scheffler-idea1.gif|thumb|350px|Scheffler reflector principles]]
There is an optional 150 piece Sun-Bakery package, enabling the creation of a self-sustaining micro-enterprise to turn out fresh baked goods, while creating jobs and eliminating the cost of fuel. Some schools use a Villager oven to cook lunches and then bake bread in the afternoon. The bread is sold to help generate income.
 
  +
 
[[Image:Paul Munsen Flickr.jpg|thumb|350px|[[Paul Munsen]] demonstrates a Villiager Sun Oven.]]
 
A [[Solar box cookers|solar box cooker]] approach, scaled for community use, has been created by [[Sun Ovens International]], and is called the [[Villager Sun Oven]]. Villager Sun Ovens are currently in use in fifty-five countries around the world. The primary use is for large scale feeding or for [[bakeries]]. The oven is capable of reaching temperatures in excess of 260°C (500°F).
  +
 
There is an optional 150 piece Sun-Bakery package, enabling the creation of a self-sustaining micro-enterprise to turn out fresh baked goods, while creating jobs and eliminating the cost of fuel. Some schools use a Villager oven to cook lunches and then bake bread in the afternoon. The bread is sold to help generate income.
 
{{clr}}
   
 
==Recent news and developments==
 
==Recent news and developments==
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*'''September 2008:''' [[Media:2008 Kaushik Energy.pdf|Energy and exergy efficiency comparison of community-size and domestic-size paraboloidal solar cooker performance]] - ''S.C. Kaushik and M.K. Guptasible''
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==Audio and video==
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'''July 2014:'''
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::[[File:Otte Relevant factors for the successful adoption of institutional solar cookers|thumb|none|400 px]]
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*'''March 2010:'''
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::[[File:Shirdi - Solar Cooking for 100,000 - CNN.flv|none|400px|left|[[Deepak Gadhia]] explains the workings of the [[Scheffler reflector|Scheffler]] solar cooking kitchen at Shirdi in Maharashtra, [[India]].]]
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==Reports==
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*'''August 2014:''' [http://www.ises-online.de/fileadmin/user_upload/PDF/ISES_Webinar_SolarCookers_A_Chandak.pdf Solar Cookers for Community Cooking] - ''[[Ajay Chandak]]''
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==Institutional cookers==
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==See also==
 
==See also==
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*[[Cooking for large groups]]
*[[Scheffler Community Kitchen]]
 
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*[[Solar restaurants and bakeries]]
*[[Villager Sun Oven]]
 
 
[[Category:Institutional solar cookers]]
 
[[Category:Institutional solar cookers]]

Revision as of 18:23, 10 March 2015

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Last edited: 13 November 2014      

Institutional solar cooking involves cooking for groups with an single integrated solar cooking system, rather than simply using many smaller solar cookers. It may be designed for communal village use, a restaurant or bakery, or large-scale production facilities preparing many thousands of meals per day. The cooking equipment employs basic solar cooking principles, and takes advantage of economy of scale. Steam production is also an option for institutional solar cooking systems, allowing the cooking to take place indoors.

Solar cooking with steam heat

Tirupati solar installation

Rooftop Scheffler reflectors used to create steam for cooking at the Tirupati shrine in India

Auroville Solar Bowl 2

Solar Bowl on the roof of the Auroville Solar Kitchen.

Some of the most familiar examples of institutional cooking have used Scheffler reflector technology to heat water to create steam for cooking. Installations at religous shrines, such as those at Tirupati and Shirdi in India, illustrate the prodigious cooking capability of this approach. The system at the Shirdi shrine uses seventy-three parabolic reflectors mounted on the kitchen rooftop, and prepares food for 20,000 devotees daily. It is in use over 300 days per year. The remaining days it uses the back-up wood fired boiler, which had been their sole source for cooking until January 2011.

Another example of concentrating parabolic reflector techinology is used at the Auroville Solar Kitchen, a collective kitchen for the Auroville community, an "experimental" township in the Viluppuram district, in Tamil Nadu, India. It serves lunch daily in its dining hall, and sends lunches out to schools and to individuals as well. It derives its name from the large Auroville Solar Bowlon its roof, which provides the steam for cooking on all the sunny days of the year. Back-up steam, if needed, is provided by a diesel fired boiler.

Solar cooking directly with sunlight

Scheffler Kitchen

Egypt’s first Scheffler Community Kitchen at El Sherouk Farm near Alexandria using sunlight directly.

Institutional, or community systems, can also use large Parabolic solar reflectors to focus sunlight directly onto a cooking chamber, often with an integral grilling surface used with the Scheffler Community Kitchen.

A smaller scale example of a parabolic community solar cooker is the Community Solar Cooker 3 SQ MT designed by Ajay Chandak.

Scheffler-idea1

Scheffler reflector principles

Paul Munsen Flickr

Paul Munsen demonstrates a Villiager Sun Oven.

A solar box cooker approach, scaled for community use, has been created by Sun Ovens International, and is called the Villager Sun Oven. Villager Sun Ovens are currently in use in fifty-five countries around the world. The primary use is for large scale feeding or for bakeries. The oven is capable of reaching temperatures in excess of 260°C (500°F).

There is an optional 150 piece Sun-Bakery package, enabling the creation of a self-sustaining micro-enterprise to turn out fresh baked goods, while creating jobs and eliminating the cost of fuel. Some schools use a Villager oven to cook lunches and then bake bread in the afternoon. The bread is sold to help generate income.

Recent news and developments

Audio and video

July 2014:

Otte_Relevant_factors_for_the_successful_adoption_of_institutional_solar_cookers

Otte Relevant factors for the successful adoption of institutional solar cookers

  • March 2010:

Reports

Institutional cookers


See also