Articles producció científicaEnginyeria Química

Numerical Investigation into Effects of Gas Sparger and Horizontal Baffles on Hydrodynamics of Flat Bubble Column

  • Identification data

    Identifier:  imarina:9475749
    Handlehttps://hdl.handle.net/20.500.11797/imarina9475749
    Authors:  Abro, Masroor; Unar, Imran Nazir; Korai, Junaid; Qudoos, Abdul; Almani, Sikandar; Laghari, Abdul Qadeer; Yu, Liang; Jatoi, Abdul Sattar
    Abstract:
    Computational fluid dynamics (CFD) was used to investigate influence of different gas sparger configurations and the presence of horizontal baffles on hydrodynamic characteristics in a flat bubble column. CFD results of time-averaged local and global gas holdup, liquid axial velocity, and Sauter mean diameter were experimentally validated. Subsequently, the validated CFD model was extended to investigate the effects of different gas sparger configurations, i.e., S-1, S-3, S-4, S-5, S-8, and S-72, and baffles arrangements, i.e., Config-A and Config-B on overall hydrodynamics at different superficial gas velocities (U-g = 0.0014 m/s and 0.0073 m/s). CFD results demonstrated significant influence of both sparger and U-g. Gas holdup and interfacial area increased with smaller, more numerous sparger openings, such that S-72 achieved similar to 1.55 times higher holdup and similar to 2 higher interfacial area than that of S-1. Spargers with fewer and larger openings induced stronger turbulence, which intensified early breakup and coalescence and broadened the bubble size distribution. Results revealed that spargers with many small openings (S-72) produced the narrowest distribution, retaining a high fraction of bubbles of initial size (5 mm), whereas spargers with fewer larger openings (S-1) generated broader distributions with significant coalescence, especially at higher U-g. The inclusion of baffles enhanced liquid circulation and gas-liquid mixing and contact. However, intensified turbulence below each baffle significantly increased coalescence, producing larger bubbles and resulting in only marginal changes in interfacial area despite increased gas holdup.

  • Others:

    Link to the original source: https://www.mdpi.com/2305-7084/9/6/144
    APA: Abro, Masroor; Unar, Imran Nazir; Korai, Junaid; Qudoos, Abdul; Almani, Sikandar; Laghari, Abdul Qadeer; Yu, Liang; Jatoi, Abdul Sattar (2025). Numerical Investigation into Effects of Gas Sparger and Horizontal Baffles on Hydrodynamics of Flat Bubble Column. Chemengineering, 9(6), 144-. DOI: 10.3390/chemengineering9060144
    Paper original source: Chemengineering. 9 (6): 144-
    Article's DOI: 10.3390/chemengineering9060144
    Journal publication year: 2025-12-12
    Entity: Universitat Rovira i Virgili
    Paper version: info:eu-repo/semantics/publishedVersion
    Record's date: 2026-02-13
    URV's Author/s: Korai, Junaid Ghaffar
    Department: Enginyeria Química
    Licence document URL: https://repositori.urv.cat/ca/proteccio-de-dades/
    Publication Type: Journal Publications
    Author, as appears in the article.: Abro, Masroor; Unar, Imran Nazir; Korai, Junaid; Qudoos, Abdul; Almani, Sikandar; Laghari, Abdul Qadeer; Yu, Liang; Jatoi, Abdul Sattar
    licence for use: https://creativecommons.org/licenses/by/3.0/es/
    Thematic Areas: Chemical engineering (all), Chemical engineering (miscellaneous), Energy (all), Energy (miscellaneous), Engineering (all), Engineering (miscellaneous), Engineering, chemical
    Author's mail: junaidghaffar.korai@urv.cat

  • Keywords:

    2-phase flow
    Baffles
    Bubble column
    Bubble size distribution
    Cfd modeling
    Cfd simulations
    Gas sparger
    Interfacial forces
    Internals
    Lift force
    Liquid flow
    Mass-transfer
    Pattern
    Population balance
    Turbulence models
    Chemical Engineering (Miscellaneous)
    Energy (Miscellaneous)
    Engineering (Miscellaneous)
    Engineering
    Chemical
    Chemical engineering (all)
    Energy (all)
    Engineering (all)

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