Benzocaine, is a white crystalline powder, soluble in ethanol and slightly soluble in water. It works by blocking the conduction of nerve endings to achieve pain relief. Benzocaine is widely used in pharmaceutical products because of its strong fat solubility and moderate anesthetic strength, and its risk of adverse reactions is less than that of other topical anesthetics. The synthesis process of this drug not only tests the professional skills of pharmaceutical personnel, but also requires a high sense of responsibility and rigorous operation attitude.
In the experimental teaching of benzocaine API synthesis, students often rely on theoretical explanations and limited practical operations. However, there are many limitations to this type of teaching. First of all, the synthesis process of APIs is complex and involves multiple chemical reaction steps, which requires extremely high experimental conditions and operation skills. In traditional teaching, due to the limitation of experimental equipment and resources, it is difficult for students to have the opportunity to experience the entire synthesis process first-hand. Secondly, there are many potential safety hazards in the synthesis process of APIs, such as improper control of reaction temperature and pressure, which may lead to serious safety accidents. In traditional teaching, due to the lack of effective safety protection measures, it is difficult for students to be fully protected during the experiment. Finally, traditional teaching methods often focus on the teaching of theoretical knowledge, while ignoring the cultivation of students' practical operation ability and innovative thinking, which is difficult to meet the demand for talents in the modern pharmaceutical industry.
In order to solve the limitations in traditional pharmaceutical teaching, the benzocaine API synthesis simulation production platform developed by Beijing OBIER came into being. The platform adopts an advanced DCS (distributed control system) scheme to digitally simulate and simulate the whole process of API synthesis, providing a new solution for pharmaceutical teaching.
Highly simulated to restore the real scene
The benzocaine API synthesis simulation production platform adopts high-precision 3D modeling technology to highly reduce the oxidation reaction, esterification reaction, reduction reaction, and refining reaction of API synthesis. Students can experience the whole process of API synthesis in a virtual environment, from raw material preparation, reaction condition control to product separation and purification, every step of the way is as if they are in a real production site.
Safe and reliable, reducing the risk of experiments
Due to the many potential safety hazards in the synthesis process of APIs, it is difficult for students to carry out practical operations in traditional teaching. The benzocaine API synthesis simulation production platform enables students to learn and practice in a risk-free environment by simulating real reaction conditions and operating processes. At the same time, the platform is also equipped with a complete safety early warning system, which will immediately prompt and correct abnormal operations or potential risks once they are found to ensure the safety of students.
Flexible and versatile to meet individual needs
The benzocaine API synthesis simulation production platform supports a variety of teaching modes and teaching methods, such as self-directed learning, collaborative learning, virtual experiments, etc. Teachers can choose the appropriate learning style and content according to the student's learning progress and teaching plan. At the same time, the platform also provides a wealth of experimental cases and teaching resources to help students better understand and master the core knowledge and skills of API synthesis.
The benzocaine API synthesis simulation production platform provides a new solution for pharmaceutical teaching. It not only breaks the limitations of traditional teaching, improves the teaching effect and quality, but also provides a safe, efficient and flexible learning platform for students. With the continuous progress and improvement of technology, it is believed that this platform will play a more important role in pharmaceutical teaching in the future and contribute to the cultivation of more outstanding pharmaceutical talents.