Alberto Nisoli scite author profile

The attainable-region approach for reaction, mixing, and separation is applied for step-growth melt polycondensations. A concentration-based formulation is applied to develop hybrid reactorseparator models for the two-phase continuous stirred tank reactor and plug-flow reactor with simultaneous vapor removal. The evaporation of the volatile byproducts, which is typically limited by liquid-phase mass transfer, is characterized with a Thiele modulus. A reaction-separation vector that satisfies the same geometric properties as the reaction vector is defined, so that a candidate attainable region can be constructed by following a known procedure for reactionmixing systems. The technique is demonstrated on the industrially important polycondensation step in the production of Nylon 6,6. The effect of temperature, pressure, and Thiele modulus on the candidate attainable region for number-average molecular weight is analyzed.

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Effects of vapor–liquid mass transfer on feasibility of reactive distillation

Nisoli

Doherty

Malone

2004

AIChE Journal

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Alberto Nisoli

Attainable regions for reaction with separation

Feasible Regions for Step-Growth Melt Polycondensation Systems

Effects of vapor–liquid mass transfer on feasibility of reactive distillation

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