Effect of operating conditions and particle properties on performance of vertical air-lift

Chladek, Jana; Enstad, Gisle G.; Melaaen, Morten C.

doi:10.1016/j.powtec.2010.10.013

Cited by 14 publications

(4 citation statements)

References 19 publications

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“…Some researchers proposed the model based on the balance of momentum by Kato et al., 5 Mahrous, 46 Yoon et al., 47 and Ma, 37 based on empirical correlation by Kawashima, 48 based on the power balance by Dedegil, 49 based on the multi-fluid model by Tomiyama et al., 50 and Hatta et al. 36 Other researchers, 51 such as Tomiyama et al., 51 Yoshinaga and Sato, 8 Hatta et al., 36 Hatta et al., 52 Liang and Peng, 53 Pougatch and Salcudean, 6 Cazarez et al., 54 Chladek et al., 34 and Hu et al. 4 conducted experimentally and analytically three-phase flow in vertical pipes.…”

Section: The Theoretical Studymentioning

confidence: 99%

The performance of airlift pump for the solid particles lifting during the transportation of gas-liquid-solid three-phase flow: A comprehensive research review

Catrawedarma¹,

Deendarlianto²,

Indarto³

2020

Proceedings of the Institution of Mechanical Engineers, Part E:

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Research about the enhancement of the airlift pump performance by changing the geometry and operational parameters has drawn considerable attention in recent years. This paper presents a comprehensive review of some published research articles on the enhancement performance of the airlift pump and the future direction of the research. In the introductory section, the description, the application, and the performance of the airlift pump are described. The influencing parameters of the airlift pump performance are classified in the geometry and operational. The geometry parameters are including submergence ratio, pipe diameter, pipe length, design, and position of the injector. The operational parameters are including the testing fluid, diameter and density particles, and the superficial velocity of injected air. All of the involved parameters are detail explained in the experimental study section. The detailed derivation of equations of the airlift pump performance and also the modified equation was shown in the theoretical study section. The numerical study of airlift pump operating on two and three phases was also discussed. In the last section, the future directions of the airlift pump are noted, and some conclusions were summarized. It was found that only limited literature about flow patterns in terms of the dynamic interface of each phase and development bubble jet generator airlift pump. Therefore, experimental data are needed to support this effort. Additional work, both theoretical and experimental, needs to be conducted on the effects of type and position bubble jet generators on the flow characteristic and the airlift pump performance, with the hope that the better performance will be obtained.

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Section: The Theoretical Studymentioning

confidence: 99%

The performance of airlift pump for the solid particles lifting during the transportation of gas-liquid-solid three-phase flow: A comprehensive research review

Catrawedarma¹,

Deendarlianto²,

Indarto³

2020

Proceedings of the Institution of Mechanical Engineers, Part E:

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“…Thus, investigation on the conveying characteristics of a top-discharge blow tank will be favorable to industrial applications. Chladek et al [27] investigated a vertical air-lift which was similar to the top-discharge blow tank. Ratnayake et al [11] formulated a model to predict the entry pressure loss in a top-discharge blow tank, and the predicted values agreed well with the experimental data.…”

Section: Introductionmentioning

confidence: 99%

Conveying Characteristics of Pulverized Coal in a Top‐Discharge Blow Tank System

Chen

Liang

et al. 2013

Chem Eng & Technol

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Based on the experiments of pulverized coal pneumatic conveying using nitrogen as carrier, the influences of riser inlet height above the gas distribution plate, riser diameter, pulverized coal external moisture content, and supplemental gas flow rate on the conveying characteristics such as pulverized coal mass flow rate and solid-gas ratio were investigated in a laboratory-scale experimental setup of a top-discharge blow tank under atmospheric pressure. There exists an optimal riser inlet height for a given top-discharge blow tank. The supplemental gas is one of the critical factors affecting the conveying stability and continuity. A model for material mass flow rate prediction with errors ranging from -25 % to +15 % is presented.

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“…Most research is focused on the discharge characteristics of bottom discharge blow tanks [13][14][15][16][17][18]. A few publications [19][20][21] on vertical pneumatic conveyers with a fluidized-bed solids feeder or vertical air-lift which was similar with top discharge blow tank in structure indicated that the solid mass flow was affected by the fluidizing and transporting gas flow rates, height of fluidized bed, riser diameter, and riser length. The characteristics in terms of gas-solids two-phase flow structures and the apparent behavior of particles and fluidparticle interactions are closely linked to operating conditions, particle properties, and blow tank configurations.…”

Section: Introductionmentioning

confidence: 99%

Effect of Operating Conditions and Powder Properties on Pneumatic Conveying Characteristics of a Top Discharge Blow Tank

Chen

Liang

et al. 2012

Chem Eng & Technol

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The effects of fluidizing and pressurizing gas flow rates on pneumatic conveying characteristics such as powder mass flow rate, solid-gas ratio, and voidage in a top discharge blow tank pneumatic conveying system are evaluated. Pulverized coal and glass beads were used to investigate the effect of powder properties on conveying performance. The results indicate that as the fluidizing gas flow rate increases, the powder mass flow rate and the solid-gas ratio increase at first and then decline. As the pressurizing gas flow rate increases, the powder mass flow rate increases gradually, while the solid-gas ratio increases at first and then declines. Since the voidage values of all experiments are below 0.95, it can be inferred that the top discharge blow tank pneumatic conveying system is able to achieve dense-phase conveying.

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Effect of operating conditions and particle properties on performance of vertical air-lift

Cited by 14 publications

References 19 publications

The performance of airlift pump for the solid particles lifting during the transportation of gas-liquid-solid three-phase flow: A comprehensive research review

The performance of airlift pump for the solid particles lifting during the transportation of gas-liquid-solid three-phase flow: A comprehensive research review

Conveying Characteristics of Pulverized Coal in a Top‐Discharge Blow Tank System

Effect of Operating Conditions and Powder Properties on Pneumatic Conveying Characteristics of a Top Discharge Blow Tank

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