Difference between revisions of "Trigeneration"

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= Overview<br/> =
 
= Overview<br/> =
  
'''Trigeneration'''&nbsp;or '''combined cooling, heat and power (CCHP)&nbsp;'''expands the basic idea of&nbsp;[[Cogeneration|cogeneration]]&nbsp;by additionally producing cooling energy when generating&nbsp;electricity and useful heat simultaneously in one combined process.<br/>
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'''Trigeneration''' or '''combined cooling, heat and power (CCHP) '''expands the basic idea of [[Cogeneration|cogeneration]] by additionally producing cooling energy when generating electricity and useful heat simultaneously in one combined process. Information provided in this article is based on the [https://www.giz.de/fachexpertise/downloads/2016-en-energy-cogeneration-trigeneration-guide.pdf Cogeneration & Trigeneration Guide]<ref name="DFIC - Dr. Fromme International Consulting, published by Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH:">DFIC - Dr. Fromme International Consulting, published by Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH: "Cogeneration & Trigeneration - How to Produce Energy Efficiently", 2016, Eschborn, Germany, available here: https://www.giz.de/fachexpertise/html/13387.html </ref>published by GIZ.<br/>
  
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= Applications<br/> =
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= Applications =
  
All fields of [[Cogeneration|Cogeneration]]&nbsp;application can be considered as a potential application of trigeneration,&nbsp;when -&nbsp;in addition to electricity and heating demand -&nbsp;there is a need for cooling. For instance, trigeneration plants are commonly found in central&nbsp;and [[Cooling|cooling]]&nbsp;systems for hospitals, hotels and industrial plants.<br/>
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All fields of [[Cogeneration|Cogeneration]] application can be considered as a potential application of trigeneration, when -in addition to electricity and heating demand -there is a need for cooling. For instance, trigeneration plants are commonly found in centralheating and [[Cooling|cooling]] systems for hospitals, hotels and industrial plants.
  
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= Technologies =
  
= Technologies<br/> =
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Trigeneration systems are typically a combination of cogeneration plants and chillers to produce electricity, heat and cooling energy in one process. Waste heat is thereby converted to chilled water, either by absorption or adsorption chiller technology.
  
Trigeneration systems are typically a combination of cogeneration plants and chillers to produce electricity, heat and cooling energy in one process. Waste heat is thereby converted to chilled water, either by absorption or adsorption chiller technology.<br/>
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= References  =
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<references />
  
 
[[Category:Cogeneration]]
 
[[Category:Cogeneration]]
 
[[Category:Cooling]]
 
[[Category:Cooling]]
 
[[Category:Energy_Efficiency]]
 
[[Category:Energy_Efficiency]]

Latest revision as of 08:08, 8 August 2016

Overview

Trigeneration or combined cooling, heat and power (CCHP) expands the basic idea of cogeneration by additionally producing cooling energy when generating electricity and useful heat simultaneously in one combined process. Information provided in this article is based on the Cogeneration & Trigeneration Guide[1]published by GIZ.


Applications

All fields of Cogeneration application can be considered as a potential application of trigeneration, when -in addition to electricity and heating demand -there is a need for cooling. For instance, trigeneration plants are commonly found in centralheating and cooling systems for hospitals, hotels and industrial plants.

Technologies

Trigeneration systems are typically a combination of cogeneration plants and chillers to produce electricity, heat and cooling energy in one process. Waste heat is thereby converted to chilled water, either by absorption or adsorption chiller technology.

References

  1. DFIC - Dr. Fromme International Consulting, published by Deutsche Gesellschaft für Internationale Zusammenarbeit (GIZ) GmbH: "Cogeneration & Trigeneration - How to Produce Energy Efficiently", 2016, Eschborn, Germany, available here: https://www.giz.de/fachexpertise/html/13387.html