Chemical Organic Synthesis Temperature Control Systems
Chemical organic synthesis temperature control system is an indispensable part of chemical organic synthesis experiments. It can ensure that the reaction is carried out under precisely controlled temperature conditions, thereby improving the selectivity and yield of the reaction. Such systems usually include refrigeration systems, heating systems, circulation pumps and control systems, and achieve precise temperature control through heat transfer media (such as water, ethylene glycol solution or silicone oil).
Main features of chemical organic synthesis temperature control system
1. Wide temperature range:
•Usually the operating temperature range is from -40°C to +200°C, depending on the model and application requirements.
•Some advanced models can reach lower temperatures, such as -60°C or even lower.
2. High-precision temperature control:
•The temperature control accuracy is usually between ±0.1°C and ±0.5°C.
•PID control algorithm is used to ensure temperature stability and accuracy.
3. Support for multiple heat transfer media:
•A variety of heat transfer media such as water, ethylene glycol solution, silicone oil, etc. can be used to adapt to different temperature ranges and application requirements.
4. Intelligent control system:
• Built-in microprocessor control, supporting programming and data recording.
• Touch screen operation interface, easy to set and monitor temperature curve.
• Support remote monitoring and data transmission, convenient to manage and record experimental data.
5. Efficient refrigeration and heating system:
• Adopt efficient compressor refrigeration system to quickly reduce temperature.
• Electric heating element provides fast heating capability to meet high temperature operation needs.
6. Safety protection function:
• Over temperature protection: Automatically stop heating when the temperature exceeds the set value.
• Low liquid level alarm: Alarm when the heat transfer medium level is too low.
• Pressure protection: Prevent system pressure from being too high to ensure safe operation.
7. Compact design
• Compact design, small footprint, suitable for laboratory benchtop use.
• Easy to move and install, convenient for flexible use on different laboratory benches.
8. Easy to maintain:
• Easy to disassemble and clean, convenient for daily maintenance.
• Some models are equipped with self-cleaning function to reduce maintenance workload.
Application fields of chemical organic synthesis temperature control system
• Chemical synthesis: organic synthesis, catalytic reaction, etc.
• Pharmaceutical R&D: drug synthesis, extraction, purification, etc.
• Materials science: R&D and testing of new materials.
• Biotechnology: enzyme activity research, protein crystallization, etc.
• Food processing: food ingredient analysis, microbial culture, etc.
If you have a specific budget range, application scenario or special requirements, please provide more details and I will provide you with more specific suggestions and recommendations. This will help you better choose a temperature control system that suits your chemical organic synthesis needs.
We provide complete temperature control systems design and manufacturing. From standard models to complete customized products. We specialize in customer service and are dedicated to helping each customer have the optimal temperature control system for their specific need.
We provide non-standard customized solutions. Both single cooling chillers and cooling & heating combo units are available.
Email: lilia@lneya.com WeChat ID: +8615251628237 WhatsApp: +86 17851209193
Cooling and Heating Systems (SUNDI series)
- Temperature range: -120℃ ~ +350℃
- High-precision, intelligent temperature control
- Cooling capacity: 0.5kW ~ 1200kW
- Fully closed system to extend the service life of thermal fluid
- Each device is load tested for more than 12 hours
Temperature range | -10 ~ +150°C series | -25 ~ +200°C series | -25 ~ +300°C series | -45 ~ +250°C series | -45 ~ +300°C series | -60 ~ +250°C series | -60 ~ +300°C series | -70 ~ +250°C series | -80 ~ +250°C series | -90 ~ +250°C series | -100 ~ +100°C series | ||
Cooling Capacity | 1.5 ~ 15kW | 1 ~ 200kW | 1 ~ 200kW | 0.45 ~ 200kW | 0.9 ~ 25kW | 0.25 ~ 60kW | 0.75 ~ 25kW | 0.4 ~ 15kW | 0.3 ~ 80kW | 0.2 ~ 80kW | 0.45 ~ 80kW | ||
Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized |
Cooling and Heating Circulators
- Temperature range: -45℃ ~ +250℃
- Emerson Copeland compressor, reliable quality
- Self-diagnosis function, multiple safety protection devices
- Fully closed system to extend the service life of thermal fluid
- Each device is load tested for more than 12 hours
Temperature range | -25°C ~ +200°C series | -45°C ~ +250°C series | |||||||
Cooling Capacity | 1 ~ 15kW | 0.25 ~ 15kW | |||||||
Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized |
Cooling and Heating Systems (WTD series)
- (Micro channel / tube reactors specialized)
- Temperature range: -70℃ ~ +300℃
- High-performance circulation pump, more stable temperature control effect
- Wide temperature range to meet the needs of more industries
- Each device is load tested for more than 12 hours
Temperature range | -70°C ~ +300°C | -45°C ~ +250°C | -70°C ~ +200°C | ||||||
Cooling Capacity | 1.1 ~ 7.5kW | 1.5 ~ 5.5kW | 11 ~ 50kW | ||||||
Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized |
TCU Multi-reactors Temperature Control System
- Temperature range: -120℃ ~ +250℃
- Sealed, repeatable temperature control
- Built-in electric heating thermal oil auxiliary system
- Add cold and heat source heat exchange modules according to needs
- Each device is load tested for more than 12 hours
Temperature range | -45°C ~ +250°C series | -120°C ~ +250°C series | Customized Temperature Control System | RT+10°C ~ +135°C | |||||
Heating Capacity | 25 ~ 80kW | 25 ~ 80kW | Custom | 25 ~ 300kW | |||||
Note: Any temperature range from -150℃ ~ +350℃ and any cooling capacity can be customized |