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A Review of "Diffusion" Absorption Refrigeration Cycles


Affiliations
1 Department of Mechanical Engineering, H.B.T.I, Kanpur, India
 

The strong warming of the last 60 years can't explain. The 0.6 K increase in average global surface temperature during the 20th century (As IPCC). Compressors and chloro fluro carbon are partially responsible for greenhouse gas emissions and environmental pollution currently being addressed globally. The current climate models predict that global temperatures will rise by a further 1.4 to 5.8 K by the end of the 21st century. Therefore, the use of nature friendly refrigerant when the driving power comes from renewable or low-grade waste heat sources may lessen global warming and ozone layer depletion. This paper describes a system and introduces an efficient diffusion absorption cycle.

Keywords

Lithium Bromide, Ammonia, Absorption, Diffusion, Regenerator.
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  • A Review of "Diffusion" Absorption Refrigeration Cycles

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Authors

Kishan Pal Singh
Department of Mechanical Engineering, H.B.T.I, Kanpur, India
Onkar Singh
Department of Mechanical Engineering, H.B.T.I, Kanpur, India

Abstract


The strong warming of the last 60 years can't explain. The 0.6 K increase in average global surface temperature during the 20th century (As IPCC). Compressors and chloro fluro carbon are partially responsible for greenhouse gas emissions and environmental pollution currently being addressed globally. The current climate models predict that global temperatures will rise by a further 1.4 to 5.8 K by the end of the 21st century. Therefore, the use of nature friendly refrigerant when the driving power comes from renewable or low-grade waste heat sources may lessen global warming and ozone layer depletion. This paper describes a system and introduces an efficient diffusion absorption cycle.

Keywords


Lithium Bromide, Ammonia, Absorption, Diffusion, Regenerator.