Handbook of Chemical Reactor Design, Optimization, and Scaleup

8.10: SCALEUP OF LAMINAR FLOW REACTORS

8.10 SCALEUP OF LAMINAR FLOW REACTORS

Chapter 3 introduced the basic concepts of scaleup for tubular reactors. The theory developed in this chapter allows scaleup of laminar flow reactors on a more substantive basis. Model-based scaleup supposes that the reactor is reasonably well understood at the pilot scale and that a model of the proposed plantscale reactor predicts performance that is acceptable, although possibly worse than that achieved in the pilot reactor. So be it. If you trust the model, go for it. The alternative is blind scaleup, where the pilot reactor produces good product and where the scaleup is based on general principles and high hopes. There are situations where blind scaleup is the best choice based on business considerations; but given your druthers, go for model-based scaleup.

Consider the scaleup of a small, tubular reactor in which diffusion of both mass and heat is important. As a practical matter, the same fluid, the same inlet temperature, and the same mean residence time will be used in the small and large reactors. Substitute fluids and cold-flow models are sometimes used to study the fluid mechanics of a reactor, but not the kinetics of the reaction.

The goal of a scaleup is to achieve similar product quality at a higher rate. The throughput scaleup factor is S. This determines the flow rate to the large system; and the requirement of constant fixes the volume of the large system. For scaleup of flow in an open...

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