Laboratory Cooling and Heating Temperature Control System for Jacketed Reactors
Laboratory heating and cooling temperature control systems for jacketed reactors are a very effective solution that can provide precise temperature control and are suitable for a variety of chemical reactions and processes.
Features of laboratory heating and cooling temperature control systems
1. Wide temperature range: Such systems can usually cover a wide temperature range from low temperature (such as -80°C) to high temperature (such as +250°C) to meet the needs of different experiments.
2. High-precision temperature control: With highly accurate temperature control capabilities, generally achieving an accuracy of ±0.1°C or higher, ensuring the consistency and reliability of experimental results.
3. Fast response speed: Able to quickly change temperature in a short time, support dynamic temperature change curves, suitable for application scenarios that require rapid heating or cooling.
4. Powerful circulation capacity: Built-in efficient pumping system to ensure that the fluid is evenly distributed in the jacketed reactor and improve heat transfer efficiency.
5. Intelligent control system: Equipped with an advanced control interface, support touch screen operation and multiple programming modes, it is convenient for users to set complex temperature programs and has data recording functions.
6. Safety protection function: including over-temperature protection, low liquid level alarm, pressure monitoring and other functions to ensure the safety of equipment and operators.
7. Energy-saving and environmentally friendly design: Some models use advanced energy-saving technologies, such as variable frequency compressors, which not only reduce energy consumption but also reduce the impact on the environment.
Application of laboratory heating and cooling temperature control system
Chemical synthesis: In the process of organic synthesis, inorganic synthesis, etc., the occurrence of specific reactions is promoted or inhibited by precise temperature control.
Material testing: used for the research and development of new materials, such as polymers, ceramics, metal alloys, etc., to observe the performance changes of materials by controlling temperature.
Biopharmaceuticals: In biological processes such as drug synthesis and cell culture, maintaining a stable temperature environment is the key to ensuring product quality.
Food processing: In the food industry, it is used for processes such as freeze drying and fermentation to ensure the quality and safety of food.
Selection points
1. Temperature range: Determine the required minimum and maximum operating temperatures according to your specific needs.
2. Temperature control accuracy: Consider the requirements of the experiment for temperature control and select the appropriate accuracy level.
3. Circulating media: Make sure the selected media (such as silicone oil) is compatible with your experimental equipment and can work stably within the required temperature range.
4. Pumping capacity: Select the appropriate pump force according to the size of the jacketed reactor and the length of the connecting pipe to ensure uniform distribution of the fluid.
5. Operation interface: Choose equipment with an intuitive and easy-to-use operation interface and programming functions for easy setup and monitoring.
6. Safety features: Make sure the equipment has the necessary safety protection measures to prevent accidents.
If you are looking for a specific model or brand, or need further assistance, please provide more details, such as budget range, specific application areas, etc., and I will try my best to provide you with more specific suggestions.
温度制御システムの設計から製造まで。標準モデルから完全なカスタマイズ製品まで。私たちはカスタマーサービスに特化し、お客様一人一人のニーズに合った最適な温度制御システムを提供することに専念しています。
私達は標準外カスタマイズされた解決を提供します。単一の冷却のスリラーおよび冷却及び暖房のコンボの単位は両方利用できます。
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- 温度範囲:-120℃〜+350
- 高精度でインテリジェントな温度制御
- 冷却能力:0.5kW~1200kW
- 熱流体の寿命を延ばす完全密閉システム
- 各装置は12時間以上の負荷テストを実施
温度範囲 | -10 ~ +150℃シリーズ | -25 ~ +200℃シリーズ | -25 ~ +300℃シリーズ | -45 ~ +250°C シリーズ | -45 ~ +300℃シリーズ | -60 ~ +250°C シリーズ | -60 ~ +300℃シリーズ | -70 ~ +250°C シリーズ | -80 ~ +250°C シリーズ | -90 ~ +250°C シリーズ | -100 ~ +100℃シリーズ | ||
冷却能力 | 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 | ||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
- 温度範囲:-45℃〜+250
- エマソンのコープランドコンプレッサー、信頼できる品質
- 自己診断機能、複数の安全保護装置
- 熱流体の寿命を延ばす完全密閉システム
- 各装置は12時間以上の負荷テストを実施
温度範囲 | -25°C ~ +200°Cシリーズ | -45°C ~ +250°C シリーズ | |||||||
冷却能力 | 1 ~ 15kW | 0.25 ~ 15kW | |||||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
- (マイクロチャンネル・チューブリアクター特化型)
- 温度範囲:-70℃〜+300
- 高性能循環ポンプ、より安定した温度制御効果
- 幅広い温度範囲で、より多くの業界のニーズに対応
- 各装置は12時間以上の負荷テストを実施
温度範囲 | -70°C ~ +300°C | -45°C ~ +250°C | -70°C ~ +200°C | ||||||
冷却能力 | 1.1 ~ 7.5kW | 1.5 ~ 5.5kW | 11~50kW | ||||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |
- 温度範囲:-120℃〜+250
- 密閉された再現可能な温度制御
- 電気暖房熱油補助システム内蔵
- ニーズに応じて冷熱・熱源熱交換モジュールを追加する
- 各装置は12時間以上の負荷テストを実施
温度範囲 | -45°C ~ +250°C シリーズ | -120°C ~ +250°Cシリーズ | カスタマイズされた温度制御システム | RT+10°C ~ +135°C | |||||
暖房能力 | 25~80kW | 25~80kW | カスタム | 25~300kW | |||||
注: -150℃の~ +350℃からの温度較差および冷却容量はカスタマイズすることができる |