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TITLE:
New Developments and Progress in Absorption Chillers for Solar Cooling Applications - imarina:7473806

URV's Author/s:Ayou, Dereje Sendeku / Coronas Salcedo, Alberto
Author, as appears in the article.:Ayou, Dereje S.; Coronas, Alberto;
Author's mail:derejesendeku.ayou@urv.cat
alberto.coronas@urv.cat
Author identifier:0000-0002-6109-3680
Journal publication year:2020
Publication Type:Journal Publications
APA:Ayou, Dereje S.; Coronas, Alberto; (2020). New Developments and Progress in Absorption Chillers for Solar Cooling Applications. Applied Sciences-Basel, 10(12), -. DOI: 10.3390/app10124073
Papper original source:Applied Sciences-Basel. 10 (12):
Abstract:At present, novel, small-to-large capacity absorption chillers with unique technical features have emerged on the global market, and laboratory and pre-industrial prototypes have also been developed. These chillers have been designed for the efficient use of low-grade heat sources; some are air-cooled, small capacity systems; compact water/LiBr chillers; or solar-gas-fired single/double-effect chillers. Also, some advanced commercial absorption chillers have an extensive temperature glide in the driving heat stream (>30 K) which extracts approximately twice as much heat (similar to 200%) as the single-effect chiller. This large temperature glide means that the chillers are well suited to solar thermal collector installations and district heating networks, and the extra driving heat increases cold production. Moreover, recent advances in R718 turbo compressor technologies have helped to solve the problems water/LiBr absorption chillers have in adapting to extreme operating conditions (e.g., high ambient temperature, >35 degrees C) by using a compressor-boosted absorption chiller configuration. This review paper presents and discusses the developments and progress in these absorption chiller technologies. In summary, the new absorption chillers may be useful for developing efficient, cost-effective, and robust solar cooling solutions that are needed to mitigate the unsustainable impact of the rising global demand for space cooling.
Article's DOI:10.3390/app10124073
Link to the original source:https://www.mdpi.com/2076-3417/10/12/4073
Papper version:info:eu-repo/semantics/publishedVersion
licence for use:https://creativecommons.org/licenses/by/3.0/es/
Department:Enginyeria Mecànica
Licence document URL:https://repositori.urv.cat/ca/proteccio-de-dades/
Thematic Areas:Química
Process chemistry and technology
Physics, applied
Materials science, multidisciplinary
Materials science (miscellaneous)
Materials science (all)
Materiais
Instrumentation
General materials science
General engineering
Fluid flow and transfer processes
Engineering, multidisciplinary
Engineering (miscellaneous)
Engineering (all)
Engenharias ii
Engenharias i
Computer science applications
Ciências biológicas iii
Ciências biológicas ii
Ciências biológicas i
Ciências agrárias i
Ciência de alimentos
Chemistry, multidisciplinary
Biodiversidade
Astronomia / física
Keywords:Water solutions
Thermodynamic properties
Technologies
Solar cooling
Small-capacity
Refrigeration
Plus lithium-nitrate
Plate heat exchangers
Performance
Parametric analysis
Ionic liquids
Driving heat temperature glide
Double-lift
Bromide
Air-cooled
Absorption chillers
Entity:Universitat Rovira i Virgili
Record's date:2023-02-19
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