Parallel high-pressure reactor plays a vital role in chemical synthesis, which is widely used and has obvious advantages.
First of all, parallel high pressure reactor can stably synthesise inorganic compounds, such as metal oxides, transition metal compounds, etc. under high pressure environment, which provides strong support for exploring the synthesis methods and properties of new materials. With its compact structure and small space occupation, it can carry out multiple reactions at the same time, which greatly improves the working efficiency.
Secondly, parallel high pressure reactor also shows strong application ability in polymer synthesis and modification. Whether it is polymerisation reaction, polymer post-treatment or polymer functionalisation, parallel autoclave reactor can provide an ideal reaction environment, which provides an important means for the research and development of polymer materials.
Furthermore, the intelligent and digital features of the parallel autoclave make the experimental operation easier and more intuitive. The touch screen is easy and convenient to operate, and it can record and collect all the data, such as reaction temperature, corresponding pressure, reaction time, stirring speed, etc., and save them in the form of EXCEL table, which is convenient for users to view and analyse at any time.
Finally, the safety of parallel high pressure reactor is also commendable. It has multiple safety alarm interlocks, such as reaction temperature upper limit alarm, cooling water abnormal pipeline blockage without water flow alarm, timing work alarm, etc., which makes the operation of the equipment more safe and reliable.
To sum up, parallel high-pressure reactor is widely used in chemical synthesis, and its high efficiency, stability, intelligence and safety features make it have significant advantages in the field of chemical synthesis.
Post time: Jul-18-2024