With the rapid development of the chemical industry and the rise of intelligent manufacturing, chemical instrumentation and control technology has become one of the indispensable key technologies in the process of modern chemical industry. In order to meet the needs of practical teaching of chemical engineering majors, chemical instrumentation and control experimental devices came into being. The device combines the relevant knowledge of chemical engineering and instrumentation and control technology, providing students with a practical platform to strengthen their practical operation ability and experimental design ability.
Practical application and results.
The chemical instrumentation and control experimental device has a wide range of practical applications and fruitful results in the practical teaching.
First of all, the device can simulate the instrumentation and control system in the chemical production process. Students can understand and master a variety of common instrumentation equipment and control systems, such as pressure sensors, thermometers, flow meters, PID controllers, etc., through experimental operations. Through practical operation, students can learn the functions and use methods of different instrumentation equipment, as well as the establishment and debugging of control systems, so as to improve their practical operation ability.
Secondly, the chemical instrumentation and control experimental device can also carry out various instrumentation and control experiments. Students can use the device to conduct measurement experiments on temperature, pressure, flow rate, liquid level and other parameters, and study the influence of different parameters on chemical processes. At the same time, the device can also simulate the control process of the process, such as temperature control, liquid level control, etc., so that students can understand the working principle and debugging process of the control system. Through these experiments, students can gain an in-depth understanding of the application of instrumentation and control technology in chemical production, and improve their practical skills and problem-solving skills.
Practical implications. The practical significance of the chemical instrumentation and control experimental device is to provide strong support for students' practical teaching and create better conditions for their professional development and employment.
First of all, the device cultivates students' practical ability and experimental design ability. Through practical operation, students can learn and master the use of instrumentation equipment, and be familiar with the establishment and commissioning of control systems. At the same time, students can also solve the instrumentation and control problems in actual production through experimental design, and cultivate their innovation ability and problem-solving ability.
Secondly, the practical application of the device promotes the combination of theory and practice. Through practical operation, students can apply the theoretical knowledge learned in the classroom to practice, deeply understand the principles and mechanisms, and be able to solve problems in the actual production process. This practical teaching method that combines theory and practice improves students' comprehensive quality and practical application ability, and lays a solid foundation for their employment and development.
In addition, chemical instrumentation and control experimental devices play an important role in cultivating students' innovation ability and promoting scientific and technological progress. Students can explore new experimental schemes and solutions, carry out innovative experiments, and contribute to the development of chemical instrumentation and control technology. They are able to design and improve instrumentation and control systems to increase the automation and productivity of chemical processes and drive the industry forward.
Conclusion. The chemical instrumentation and control experimental device is an advanced experimental equipment based on the relevant knowledge of chemical engineering, which has important practical applications and achievements in the practical teaching of chemical engineering. By simulating the chemical production process and carrying out various instrumentation and control experiments, the device provides students with rich practical opportunities and development space. The practical significance of the chemical instrumentation and control experimental device is to provide strong support for students' practical teaching and create better conditions for their professional development and employment. At the same time, the practical application of the device also promotes the students' innovation ability and scientific and technological progress, and promotes the development of chemical instrumentation and control technology.