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CFD Analysis of Falling Film Hydrodynamics for a Lithium Bromide (LiBr) Solution over a Horizontal Tube

Author

Listed:
  • Furqan Tahir

    (Division of Sustainable Development (DSD), College of Science & Engineering (CSE), Hamad Bin Khalifa University (HBKU), Education City, Doha 34110, Qatar)

  • Abdelnasser Mabrouk

    (Division of Sustainable Development (DSD), College of Science & Engineering (CSE), Hamad Bin Khalifa University (HBKU), Education City, Doha 34110, Qatar
    Qatar Environment and Energy Research Institute (QEERI), Hamad Bin Khalifa University (HBKU), Education City, Doha 34110, Qatar)

  • Muammer Koç

    (Division of Sustainable Development (DSD), College of Science & Engineering (CSE), Hamad Bin Khalifa University (HBKU), Education City, Doha 34110, Qatar)

Abstract

Falling film evaporators are used in applications where high heat transfer coefficients are required for low liquid load and temperature difference. One such application is the lithium bromide (LiBr)-based absorber and generator. The concentration of the aqueous LiBr solution changes within the absorber and generator because of evaporation and vapor absorption. This causes the thermophysical properties to differ and affects the film distribution, heat, and mass transfer mechanisms. For thermal performance improvement of LiBr-based falling film evaporators, in-depth analysis at the micro level is required for film distribution and hydrodynamics. In this work, a 2D numerical model was constructed using the commercial CFD software Ansys Fluent v18.0. The influence of the liquid load corresponding to droplet and jet mode, and the concentration, on film hydrodynamics was examined. It was found that the jet mode was more stable at a higher concentration of 0.65 with ±0.5% variation compared to lower concentrations. The recirculation was stronger at a low concentration of 0.45 and existed until the angular position ( θ ) = 10°, whereas at 0.65 concentration it diminished after θ = 5°. The improved heat transfer is expected at lower concentrations due to lower film thickness and thermal resistance, more recirculation, and a higher velocity field.

Suggested Citation

  • Furqan Tahir & Abdelnasser Mabrouk & Muammer Koç, 2020. "CFD Analysis of Falling Film Hydrodynamics for a Lithium Bromide (LiBr) Solution over a Horizontal Tube," Energies, MDPI, vol. 13(2), pages 1-15, January.
  • Handle: RePEc:gam:jeners:v:13:y:2020:i:2:p:307-:d:306340
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    Citations

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    Cited by:

    1. Yanmei Cao & Yu Wang & Yang Gao & Risto Kosonen, 2022. "Heat Transfer Study from a Salty Droplet Film on a Horizontal Tube in Mechanical Vapor Recompression Crystallization System," Energies, MDPI, vol. 15(14), pages 1-15, July.
    2. Zhihua Wan & Ping Wang & Huanying Shen & Yanzhong Li, 2022. "Falling Film Flow and Heat Transfer of Cryogenic Liquid Oxygen on Different Structural Surfaces," Energies, MDPI, vol. 15(14), pages 1-18, July.

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