Polymerization Processes, 2. Modeling of Processes and Reactors

Abstract: The article contains sections titled: 1. Introduction 2. Processes and Reactor Modeling for Step‐Growth Polymerization … Show more

“…[ 32 ] Two of the most widely used continuous reactors are CSTRs and PFRs, which are commonly paired together in reaction processes to achieve the desired result, as demonstrated in Figure 2. [ 33 ] Unlike batch reactors, the process parameters for continuous reactors are typically measured in space time, with one unit of space time being equal to the time required to process one reactor volume. [ 34 ] This is because of the continuous nature of the reactors and the less clear start and stop times.…”

“…[ 43 ] Considering the fabrication and operational cost, batch reactors are used in this case. A comparison between batch reactors and continuous reactors can be seen in Figure 3, [ 33 ] which characterizes these three types of reactors on the basis of residence‐time distribution and the temporal and spatial course of chemical reaction. For example, in batch reactors, the concentration of reactant A is shown as decreasing with time and is independent of location in reactor.…”

Advancements in droplet reactor systems represent new opportunities in chemical reactor engineering: A perspective

“…[ 32 ] Two of the most widely used continuous reactors are CSTRs and PFRs, which are commonly paired together in reaction processes to achieve the desired result, as demonstrated in Figure 2. [ 33 ] Unlike batch reactors, the process parameters for continuous reactors are typically measured in space time, with one unit of space time being equal to the time required to process one reactor volume. [ 34 ] This is because of the continuous nature of the reactors and the less clear start and stop times.…”

“…[ 43 ] Considering the fabrication and operational cost, batch reactors are used in this case. A comparison between batch reactors and continuous reactors can be seen in Figure 3, [ 33 ] which characterizes these three types of reactors on the basis of residence‐time distribution and the temporal and spatial course of chemical reaction. For example, in batch reactors, the concentration of reactant A is shown as decreasing with time and is independent of location in reactor.…”

Advancements in droplet reactor systems represent new opportunities in chemical reactor engineering: A perspective