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Citation
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HERO ID
2521401
Reference Type
Journal Article
Title
An overview of ammonia-based absorption chillers and heat pumps
Author(s)
Wu, Wei; Wang, B; Shi, W; Li, X
Year
2014
Is Peer Reviewed?
1
Journal
Renewable and Sustainable Energy Reviews
ISSN:
1364-0321
Volume
31
Page Numbers
681-707
DOI
10.1016/j.rser.2013.12.021
Web of Science Id
WOS:000332591700057
Abstract
The use of ammonia-based working fluids for absorption prevails in a wide range of applications due to the low freezing temperature of the refrigerant and the absence of crystallization as well as the lack of problems under vacuum conditions. This paper presents a comprehensive overview on the use of ammonia-based absorption chillers and heat pumps. The thermodynamic and physical properties of pure ammonia and binary and ternary ammonia mixtures are presented in correlation formulas. Developments and applications in subfreezing refrigeration, heating/domestic hot water, renewable energy utilization, waste heat recovery, thermal energy storage and miniaturization of absorption systems are presented and summarized. In subfreezing refrigeration, the evaporation temperatures for single-stage absorption lie mainly between -30 degrees C and -5 degrees C, and they can reach as low as -70 degrees C in advanced absorption systems. Air-source and ground-source absorption heat pumps are suggested for heating/domestic hot water applications in cold regions. For renewable energy uses, ammonia-based solar absorption applications with various working fluids are quite popular, whereas geothermal and biomass energy systems are less studied. In thermal energy storage, ammonia-based working fluids are not advantageous for storage capacity or cycle efficiency, but they prevail for subfreezing energy storage. Additionally, ammonia-based fluids are also attractive options for the miniaturization of absorption systems due to the absence of crystallization. (C) 2014 Elsevier Ltd. All rights reserved.
Keywords
Absorption heat pump; Fluid properties; Subfreezing refrigeration; Heating; Renewable energy; Energy storage
Tags
IRIS
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Ammonia
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Nitrate/Nitrite
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