Effects of the geometrical configuration of air–water mixer on the size and distribution of microbubbles in aeration systems

Basso, Alessio; Hamad, Faik; Ganesan, P.

doi:10.1002/apj.2259

Cited by 24 publications

(23 citation statements)

References 25 publications

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“…1(d), owns advantages of simple structure, installation convenience, having no internal moving parts, less maintenance, and good reliability. Most importantly, low power consumption makes it an economic alternative for enhancing gas-liquid mass transfer (Terasaka et al, 2011;Basso et al, 2018). A Venturi bubble generator is capable of generating a high number density of micro or fine bubbles normally with a mean diameter below 100 μm (Fujiwara et al, 2003;Kawamura et al, 2004;Yoshida et al, 2008;Kaneko et al, 2012), and the concentration and size of produced bubbles in a wide range from tens of microns to millimeters are controllable by operating the liquid and gas flow rates.…”

Section: Bubble Generation Methodsmentioning

confidence: 99%

A review on bubble generation and transportation in Venturi-type bubble generators

Huang

Sun

Liu

et al. 2019

Exp. Comput. Multiph. Flow

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Venturi-type bubble generators own advantages of simplicity in structure, high efficiency, low power consumption, and high reliability, exhibiting a broad application potential in various fields. This work presents a literature review of recent progress in the research concerning Venturi-type bubble generators, with a focus on the performance evaluation, bubble transportation, and breakup mechanisms. Experimental studies employing flow visualization techniques have played an important role in exploring the bubble transportation and breakup phenomena, which is vitally necessary for clarifying the bubble breakup mechanisms and understanding the working principle and performance of a Venturi channel as a bubble generator. A summarization was carried out on both experimental and theoretical work concerning parameters influencing the bubble breakup and the performance of Venturi-type bubble generators. Based on the geometric parameter optimization combined with appropriate flow conditions, it is expected that Venturi-type bubble generators can produce bubbles with controllable size and concentration to satisfy the application requirements, while a further work is required to illustrate the interaction between the liquid and gas bubbles.

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Section: Bubble Generation Methodsmentioning

confidence: 99%

A review on bubble generation and transportation in Venturi-type bubble generators

Huang

Sun

Liu

et al. 2019

Exp. Comput. Multiph. Flow

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“…This work is based on our previous numerical model (Basso et al [23]) which was validated with numerical and experimental results from other designs of microbubble generators in the literature. MBGs performance is estimated in terms of Probability Density Function (PDF) of the microbubble diameter distribution, especially in the computation of the mean diameter -in relation with the levels of dissolved oxygen released in water.…”

Section: Resultsmentioning

confidence: 99%

“…The grid independence study has been discussed in details in our previous paper (Basso et al [23]) where the same CFD model is presented and fully-validated with previous experimental and numerical data from the literature. A valid mesh grid size had been estimated by varying the total number of elements in the grid domain and by keeping the same inflation layer ratio near the wall.…”

Section: Cfd Setup and Numerical Proceduresmentioning

confidence: 99%

Initial Results from the Experimental and Computational Study of Microbubble Generation

Basso¹,

Hamad²,

Ganesan³

2019

Proceedings of the 4th World Congress on Momentum, Heat and Mass Transfer

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A novel design of microbubble aeration is proposed to increase dissolved oxygen (DO) levels in water, by reducing the mean bubble diameter distribution down to the 20 -50 µm range. Microbubble generators (MBGs) find application in aquaculture farms, where water oxygenation is crucial for sea lives and for disinfection through free radicals. A Venturi MBG is taken as baseline design for comparison with previous literature, to understand the pressure-recovery mechanism responsible for bubble breakup. Based on Venturi performance, a helicoidal body -at three different pitch angles -is added ahead of the throat to create sufficient swirling motion, with the aim of intensifying turbulent pressure fluctuations. Results from a validated Computational Fluid Dynamics (CFD) setup and flow visualisation are compared to assess the accuracy of present experimental results, in terms of MBG performance at different volumetric qualities. Backlight imaging and binary processing are implemented to estimate microbubble distributions. Probability distribution and mean diameter plots show an initial disagreement of experimental data from the literature and present predictions. This is presumably attributed to a possible improvement to be done, in terms of light illumination and the use of a microscopic lens, which can better spot small microbubbles. Furthermore, results from CFD show a reduction in the mean diameter when using a helicoid pitch angle of 20 degrees. Of particular interest is a mean diameter near 25μm at very low volumetric quality. By contrast, the configuration at pitch angle of 30 degrees gives a distribution with mean diameter near 70μm, for same volumetric quality. Although this paper only focuses on the bubble diameter aspect, DO measurements coupled with the analysis of microbubble distributions will reinforce authors assumption that small microbubbles represent the optimal condition to maximise water aeration and to enhance treatment of organic particles.

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“…as nanobubbles with a diameter of less than 0.2 microns, while microbubbles have a diameter of 10-100 microns and lastly, macro bubbles that have a diameter of greater than 100 microns which tend to rise faster than the rest. Moreover, microbubbles are of interest in water and wastewater treatment as nanobubbles take longer to rise to the top while macro bubbles are inefficient due to their high rising velocity (Sadatomi et al 2005;Basso et al 2018). They have adsorbent properties as they can adsorb and agglomerate particulate matter due to their bigger surface area and their negative charge (Lee et al 2019) which neutralizes repulsion forces between suspended matter.…”

Section: Diffuser Bubble Formation and Dynamics: Efficacy In Flotation Systemsmentioning

confidence: 99%

“…Bubble size is influenced by diffuser design and affects bubble particle collision thus attachment of suspended solids including the rise velocity which affects the efficiency of the system (Edzwald 2010). The size is governed by a sparging rate, pore size and also the wastewater parameter-volumetric quality and mixing velocity (Basso et al 2018). Most researchers have focused their work on micro and nanobubbles in a bid to improve the efficiency of flotation systems.…”

Section: Diffuser Bubble Formation and Dynamics: Efficacy In Flotation Systemsmentioning

confidence: 99%

Influence of diffuser design on selected operating variables for wastewater flotation systems: a review

Mukandi

Basitere

Okeleye

et al. 2021

Water Practice and Technology

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Air diffusers or spargers have since been used in separation processes that include conventional wastewater treatment. Over the years, there has been advancements in diffuser design in terms of shape, pore size, orientation and materials of construction as a way of mitigating challenges such as fouling, clogging, energy consumption and poor system efficiency. Some of the available air diffusers are inadequate to solve most of these challenges due to reduced quality and increased quantity of wastewater being treated. Additionally, there is a paucity of information regarding air diffuser design and their effect on operational parameters in wastewater treatment. This review seeks to address the advancement in diffuser design and also the effects of design factors including parameters of air diffusers with a focus of their use in a column flotation system for wastewater treatment.

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Effects of the geometrical configuration of air–water mixer on the size and distribution of microbubbles in aeration systems

Cited by 24 publications

References 25 publications

A review on bubble generation and transportation in Venturi-type bubble generators

A review on bubble generation and transportation in Venturi-type bubble generators

Initial Results from the Experimental and Computational Study of Microbubble Generation

Influence of diffuser design on selected operating variables for wastewater flotation systems: a review

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