Study of the adiabatic absorption process in polymeric hollow fiber membranes for ammonia/water absorption refrigeration systems
Autor: | M. Berdasco, Alberto Coronas, Manel Vallès |
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Rok vydání: | 2018 |
Předmět: |
Absorption of water
Materials science 020209 energy Mass flow Energy Engineering and Power Technology Thermodynamics Refrigeration 02 engineering and technology 021001 nanoscience & nanotechnology Industrial and Manufacturing Engineering Subcooling Hollow fiber membrane 0202 electrical engineering electronic engineering information engineering Mass flow rate 0210 nano-technology Adiabatic process Absorption (electromagnetic radiation) |
Zdroj: | Applied Thermal Engineering. 137:594-607 |
ISSN: | 1359-4311 |
Popis: | This paper presents a theoretical and experimental study of the adiabatic absorption process of ammonia into an ammonia/water solution using a polymeric hollow fiber membrane module (Liqui-Cel G501 2.5x8 Extra-Flow) as a contactor. An experimental test bench was designed and built and the effect of the subcooling conditions of the inlet solution and the mass flow rate on the ammonia absorption flux was studied. The experimental conditions were those of an absorber and a resorber in an absorption-resorption refrigeration system but in this case working under adiabatic conditions. A two-dimensional model was also developed and validated with the experimental results and two case studies were made at different solution mass flow rates to determine the evolution of the ammonia solution concentration, ammonia absorption rate, bulk solution temperature, gas temperature and solution subcooling throughout the hollow fiber membrane module. The two-dimensional model enables us to study the evolution of the main operation parameters in the axial and radial direction of the membrane module. Agreement was very good between the model predictions and the experimental measurements of the ammonia absorption rate (J) and the temperature of the solution at the outlet of the membrane module. The Mean Absolute Error of the model predictions with respect to the experimental data was ±3·10−5 kg/m2 s and ± 0.3 °C, respectively. The model opens up the possibility of designing enhanced absorbers for the ammonia/water absorption refrigeration cycle. |
Databáze: | OpenAIRE |
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