Novica Rados scite author profile

The multicomponent, one-dimensional, and compartment-based dynamic model developed by Rados et al. (Catal. Today 2003, 79−80, 211−218) has been used to study the performance of slurry bubble columns operated with two chemical reaction systems. One reaction causes contraction in the gas-phase volume, and the other causes expansion. The change in the gas flow rate (expansion or contraction) along the reactor as a result of the chemical reaction kinetics is accounted for by the overall mass balance of the gas phase represented by large and small bubbles. The importance of properly accounting for the change in the gas flow rate has been demonstrated. The backmixing in the three compartments of the model (small bubbles, large bubbles, and slurry) is accounted for by the axial dispersion model. The effects of operating conditions and reactor dimensions on the slurry bubble column performance have been evaluated. A detailed analysis of the role of backmixing on the performance of the Fischer−Tropsch synthesis (contraction of the gas phase) has been conducted by varying the axial dispersion coefficient (E) of the three phases between ideal plug flow (E = 0) and completely mixed flow (E = ∞).

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Solids flow mapping in a high pressure slurry bubble column

Rados

Shaikh

Al‐Dahhan

2005

Chemical Engineering Science

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Particle motion in packed/ebullated beds by CT and CARPT

et al. 2001

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Gas holdup in a trayed cold-flow bubble column

Kemoun¹,

Rados²,

Li³

et al. 2001

Chemical Engineering Science

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Novica Rados

Modeling of the Fischer–Tropsch synthesis in slurry bubble column reactors

Dynamic Modeling of Slurry Bubble Column Reactors

Solids flow mapping in a high pressure slurry bubble column

Particle motion in packed/ebullated beds by CT and CARPT

Gas holdup in a trayed cold-flow bubble column

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