High Temperature Circulator
Introduction to high temperature circulator
The high temperature circulator is a high-temperature constant temperature equipment dedicated to the laboratory, which is used to simulate the physical and chemical changes of substances in high-temperature environments. It can precisely control the constant temperature state, maintain the stable environment of the sample, and provide a uniform temperature field. Therefore, high temperature circulators are widely used in experimental research and engineering manufacturing processes in the fields of chemistry, medicine, physics, and materials.
Process principle of high temperature circulator
The process principle of high temperature circulator is based on the principles of thermodynamics and fluid dynamics, and its main parts include heating system, temperature control system, pumping system and liquid crystal display. These parts achieve efficient and precise temperature control of the high temperature circulator through complex synergy.
1. Heating system
The heating system of the high temperature circulator is an important part of realizing the constant temperature function of the high temperature circulator. The heating system is mainly composed of heating tubes, temperature sensors, thermostats and power supplies. In actual operation, the thermostat is usually compared with the temperature signal fed back to the heating tube by the temperature sensor, and adjusts the heating power through feedback to stabilize the system temperature within the range of the set temperature.
2. Temperature control system
The temperature control system of the high temperature circulator is the core component to ensure a constant temperature. Its main function is to achieve precise temperature control and keep the temperature constant. The temperature control system is usually composed of liquid crystal display, controller, temperature sensor and heating system. During work, the liquid crystal display can display the temperature, time, power and other parameters in the circulator in real time. The controller can monitor the temperature inside the circulator and perform constant temperature control through parts such as the heating system.
3. Pumping system
The pumping system of the high temperature circulator is an important part to achieve sample circulation, temperature stability and sample uniformity. A pumping system usually consists of a pump, a water tank, and water pipes. During the circulation process, the water pump draws water from the water tank, then passes through the heating system of the high temperature circulator, and then returns to the water tank in the form of water flow. Through this process, the water quality is fully mixed and the environment is kept stable, thereby ensuring the accuracy of the constant temperature cycle.
4. LCD screen
The liquid crystal display of the high temperature circulator is an important part of realizing user interaction and functional operation control. The display screen can facilitate the user to know the current temperature, time and other parameters in real time, and to set and adjust other parameters. The use of the display can greatly improve the efficiency and user experience of the high temperature circulator
Features of high temperature circulator
Good constant temperature performance, precise control of constant temperature state.
Uniform temperature field.
It is easy to operate and has a good user experience.
It is safe and reliable to avoid problems such as temperature fluctuations and system failures.
Application of high temperature circulator
The high temperature circulator has been widely used in chemical synthesis, biopharmaceuticals, medical research, material science and other fields. In the chemical synthesis process, the high temperature circulator can provide a high temperature environment that meets the chemical reaction conditions, accelerate the thermochemical reaction, and increase the conversion rate of the substance. In the process of biopharmaceuticals, the high temperature circulator can ensure the constant growth of bacteria under high temperature conditions, providing a solid foundation for the preparation of high-value proteins and other biologically active substances. In the field of medical research, high temperature circulator can be used in in vitro cell culture, drug sensitivity test and artificial blood flow, which can greatly improve the efficiency and accuracy of laboratory research. In the field of materials science, the high temperature circulator can be used to simulate the thermodynamic behavior of materials and study high-temperature solid-state reactions.
The process principle of the high temperature circulator is based on the principles of thermodynamics and fluid dynamics. Through the synergy between heating temperature control, pumping and other components, the simulation and research of the physical and chemical changes of substances in high temperature environments are realized. The high temperature circulator is widely used in the fields of chemistry, biology, medicine, materials, etc. It can significantly improve the efficiency and accuracy of experiments, and at the same time avoid problems such as temperature fluctuations and system failures.
High Temperature Circulators (Custom Designs)
Temperature Control Range: +50°C to +300°C
Note: UC series can control the temperature of heat transfer medium.
UST series can not only control the temperature of the heat transfer medium, but also control the temperature of the reaction material.
|+50°C ~ +170°C (UC series)
|+50°C ~ +300°C (UC series)
|+50°C ~ +300°C (UST series)
|5.5 ~ 15kW
|3.5 ~ 130kW
|3.5 ~ 95kW