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Your Essential Guide to Flow Chemistry What is flow chemistry all about? There are a lot of names that refer to flow chemistry, and they include continuous flow chemistry, microchemistry, as well as plug flow. This is actually the process of doing chemical reactions in a pipe or tube. In this process, the tubes or pipes must be maintained at a certain temperature so that they are fit to mix and receive particles that are reactive. If you choose flow chemistry, then you will be able to get the benefits of easy scale-up, quick reaction optimization, safer reactions, cleaner products, and faster reactions. Moreover, if you want to integrate two different purposes such as work-up, synthesis, and analysis, then you can always do so with this. It is not that hard anymore to find sources of lab scale flow chemistry tools, equipment, and systems. The many benefits that flow chemistry offers will be at your reach when you decide to take hold of these high-quality supplies.
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What should you expect to get from flow chemistry systems, then?
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Faster reactions: The reactors in the system can easily be pressurized and some can even go as high as 300 psi. Heating things from 100 to 150?C beyond their usual boiling point is also made possible with this system that is why the reaction rate will be a thousand times over faster than the usual. This method is better known as superheating. Cleaner products: Selectivity is a given when it comes to flow reactors of given sizes and shapes. Compared with batch reactors, these systems come with the ability to rapidly diffuse anything that needs mixing. If you compare flow reactors with batch reactors, you will find that the former has a thousand-fold higher surface area to volume ratio than the latter making them fast at cooling down or heating up something. Safer reactions: When you use flow reactors, they make sure that only small amounts of hazardous particles are formed by them. Because of their high surface area, they are the best at controlling the amount of exotherms. Integrated synthesis, work-up, and analysis: if you get flow systems, their reaction products will be passing through only one system may they be a flow aqueous one or a solid phase one. During this process, you may choose to analyze them on the spot like FTIR or you may choose to get a diluter and sampler and inject them or get a sample itself. Faster reaction optimization: When you have an automated flow chemistry system, then you can quickly vary your reaction conditions even at a small scale. These systems have the capability of varying quickly the following factors: reagents, concentration, ratio of reagents, temperature, and reaction time. By only making use of a solvent to clean out the resulting particles of the previous reaction process, you can then start doing another one.