Wen-Jang Lu scite author profile

Liquid mixing in the riser and downcomer of two-and three-phase internal loop airlift reactors as well as the overall liquid mixing were studied. Tracer was injected into the airlift reactors, and pH sensors were employed to measure the variations of tracer concentration in the riser, downcomer, top, and bottom sections. The Bo number in individual sections of the airlift reactors were obtained by time domain analysis of these concentration variations. It was found that the degree of mixing in the riser was higher than that in the downcomer. Moreover, mixing in the two-phase system was superior to that in the three-phase system, and the degree of mixing of the calcium alginate system was lower than that of the polystyrene system. Minimum values of the overall axial dispersion coefficient existed in the relationship between the overall axial dispersion coefficient and solids loading.

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Gas-liquid mass transfer in an internal loop airlift reactor with low density particles

Hwang

1997

Chemical Engineering Science

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Ion Exchange in a Semifluidized Bed

Hwang¹,

Lu²

1995

Ind. Eng. Chem. Res.

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Liquid mixing in two- and three-phase airlift reactors

Hwang

Chang³

1994

Chemical Engineering Science

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Wen-Jang Lu

Liquid velocity and gas holdup in three-phase internal loop airlift reactors with low-density particles

Liquid Mixing in Internal Loop Airlift Reactors

Gas-liquid mass transfer in an internal loop airlift reactor with low density particles

Ion Exchange in a Semifluidized Bed

Liquid mixing in two- and three-phase airlift reactors

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