Numerical Model to Analyze the Physicochemical Mechanisms Involved in CO2 Absorption by an Aqueous Ammonia Droplet

Numerical Model to Analyze the Physicochemical Mechanisms Involved in CO2 Absorption by an Aqueous Ammonia Droplet

CO2 is the main anthropogenic greenhouse gas and its reduction plays a decisive role in reducing global climate change. As a CO2 elimination method, the present work is based on chemical absorption using aqueous ammonia as solvent. A CFD (computational fluid dynamics) model was developed to study CO...

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Veröffentlicht in:International journal of environmental research and public health 2021-04, Vol.18 (8), p.4119, Article 4119
Hauptverfasser: Lamas Galdo, M. I., Rodriguez Garcia, J. D., Rebollido Lorenzo, J. M.
Format: Artikel
Sprache:eng
Schlagworte:
Absorption
Ammonia
Anthropogenic factors
Carbon dioxide
Chemical reactions
Climate change
Computational fluid dynamics
Computer applications
Convection
Droplets
Energy conservation
Environmental Sciences
Environmental Sciences & Ecology
Evaporation
Flue gas
Fluid dynamics
Gas flow
Gases
Greenhouse effect
Greenhouse gases
Heat conductivity
Hydrodynamics
Life Sciences & Biomedicine
Mathematical models
Membrane separation
Numerical models
Public, Environmental & Occupational Health
Reynolds number
Science & Technology
Solvents
Velocity
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Zusammenfassung:CO2 is the main anthropogenic greenhouse gas and its reduction plays a decisive role in reducing global climate change. As a CO2 elimination method, the present work is based on chemical absorption using aqueous ammonia as solvent. A CFD (computational fluid dynamics) model was developed to study CO2 capture in a single droplet. The objective was to identify the main mechanisms responsible for CO2 absorption, such as diffusion, solubility, convection, chemical dissociation, and evaporation. The proposed CFD model takes into consideration the fluid motion inside and outside the droplet. It was found that diffusion prevails over convection, especially for small droplets. Chemical reactions increase the absorption by up to 472.7% in comparison with physical absorption alone, and evaporation reduces the absorption up to 41.9% for the parameters studied in the present work.
ISSN:1660-4601
1661-7827
1660-4601
DOI:10.3390/ijerph18084119