Reactor for synthesis with Grignard reagents
Release time:
2025-10-16
Source:
Now, in a development by PMG, a new type of reactor will not only make reactions with these reagents faster and safer but also yield a purer product. What’s more, the new reactor is scalable and can be operated flexibly.
In 1912, Victor Grignard was awarded the Nobel Prize in Chemistry for his discovery of what came to be known as Grignard reagents. Since then, these compounds have come to play a key role in the chemical and pharmaceutical industries. Now, in a development by PMG, a new type of reactor will not only make reactions with these reagents faster and safer but also yield a purer product. What’s more, the new reactor is scalable and can be operated flexibly.
Introduction:
Many of today’s pharmaceuticals, pesticide, fragrances and flavorings are produced by means of reactions with Grignard reagents. Discovered more than 100 years ago, these com-pounds provide one of the most effective means of creating chemical bonds between carbon atoms. Among the top 50 active pharmaceutical ingredients, one in ten has a synthesis pathway that includes one or more Grignard reactions. There is a drawback, however: depending on the type of reaction, it can take some time for the reaction to get properly started – and, once it does, the reaction very quickly generates a lot of heat, which then has to be dissipated. To restrict the generation of heat, the reagent is only added to the continuous stirred-tank reactor in limited portions. This, however, lengthens the reaction time, during which a lot of byproducts can form. Should, for example, the desired product happen to react with the starting material, this can result in contamination, thereby lowering product quality and/or yield.
Ⅰ.Continuous process control: faster, safer, cleaner
PMG have now succeeded in eliminating these problems.PMG Grignard Reactor replaced the large continuous stirred-tank reactor with a flow reactor.This means we can use the full power of the reaction and still control the temperature wonderfully. This method has a number of advantages. Whereas in the continuous stirred-tank reactor, the reaction takes a long time; in the flow reactor, the entire reagent is converted in a matter of minutes. Furthermore, product purity is higher, and produced amounts can be tailored to requirements. In other words, the process is not only faster and safer, but it also delivers a cleaner product.
These advantages are down to the reactor design. Inside the flow reactor, the reactant – usually an organic bromide or chloride – is pumped up through a bed of magnesium shavings. An abundance of magnesium shavings in the reactor ensures that the reaction gets going properly and then progresses in a controlled manner. Crucial here, too, is the geometry of the reactor, which features a double-skinned cylinder, cooled on the inside and outside skin by a continuous flow of oil. This ensures that the heat from the reaction is dissipated quickly and efficiently, thereby not only enhancing safety but also inhibiting the production of undesirable byproducts. The fact that both reactant and product flow through the reactor with short residence times also inhibits side reactions. There are two reasons for this: on the one hand, the reactant is rapidly converted into product; on the other, this product flows continuously through the reactor – rather than, as in the past, swimming together with the reactant in a continuous stirred-tank reactor. In other words, there are far fewer opportunities for side reactions between the two. The abundance of magnesium in the flow reactor also helps prevent side reactions. This is because the reactant is more likely to react with the magnesium shavings than with the product, which is rapidly removed.
Ⅱ.PMG solution
As a leader in continuous processing solutions, PMG has:
• Successfully commissioned 2×500-ton pilot-scale systems
• Entered fabrication phase for a 3,300-ton industrial-scale unit for India client
• Deployed 10+ laboratory-scale units with proven Grignard reagent production (99% conversion rate at ambient conditions)
Modular pilot plant for synthesis with Grignard reagents
Other News
Advancing Continuous Flow Chemistry Solutions
CONTACT US
No. 60, Yunjing East Road, Liyuan Town, Tongzhou District, Beijing City, China