Heating and Cooling Unit of the Reactor

完璧な温度制御ソリューションについては、今すぐお問い合わせください。

In many fields such as chemical reactions, pharmaceutical processes, and food processing, the performance of reactors will directly affect the quality and efficiency of the production process. In order to ensure high accuracy and stability of temperature control in the reactor, the design and implementation of the heating and cooling unit of the reactor is important. The design goals of the heating and cooling unit of the reactor mainly include: rapid cooling/heating, high temperature control accuracy and reliability. To achieve these goals, we adopt a dynamic cooling/heating technology, combined with advanced circuit control strategies, to ensure that the system achieves high-precision temperature control while rapidly cooling/heating.

Advantages of heating and cooling unit of the reactor

1. Accurate temperature control: The product can provide high-precision temperature control, and the error range can reach ±0.01℃.

2. Stable operation: This system uses effective refrigeration and heating technology, which can greatly reduce cost consumption.

3. Easy to operate: Products are usually equipped with user-friendly operating interfaces, making setting and operation simple and easy to understand.

4. Durable: High-quality heating and cooling units of the reactor usually have a long service life, reducing the user’s cost.

Application fields of heating and cooling unit of the reactor

1. Scientific research: The laboratory requires accurate temperature control during the research process, and the heating and cooling unit of the reactor can meet this demand.

2. Industrial production: In chemical, pharmaceutical, food and other industries, the production process has strict requirements for temperature control. The heating and cooling unit of the reactor provides strong support for these industries.

3. Quality control: In product inspection and quality control, accurate temperature control can ensure the accuracy of experimental results.

How to choose the appropriate heating and cooling unit of the reactor?

When choosing a heating and cooling unit of the reactor, you need to consider the following factors:

1. System capacity: Different systems have different capacities, and the appropriate capacity needs to be selected according to the needs of experiment or production.

2. Temperature range: Different systems have different temperature ranges. You need to determine whether your requirements are within the temperature range of the system.

3. After-sales service: Pay attention to the manufacturer’s after-sales service to ensure the stable operation of the system.

Eメール info@lneya.com    WeChat ID： +8615251628237    WhatsApp： +86 17851209193

冷暖房システム (SUNDIシリーズ)

(カスタムデザイン)

温度制御範囲：-120°C～+350°C

さまざまな企業で広く利用された冷却および暖房のサーモスタット。

冷暖房システム（WTDシリーズ）

(カスタムデザイン)

（マイクロチャンネル・チューブリアクター特化型）

温度制御範囲：-70℃～+300

マイクロ流路に特化した設計（液体保持容量が小さく、熱交換容量が大きく、循環システムの圧力損失が高い）

冷暖房サーキュレーター

(カスタムデザイン)

温度制御範囲：-45℃～+250

加熱サーキュレーター

(カスタムデザイン)

温度制御範囲+50℃〜+300

注：UCシリーズは熱媒体の温度を制御することができる。USTシリーズは熱媒の温度を制御できるだけでなく、反応材料の温度も制御できます。

TCU マルチリアクター温度制御システム

(カスタムデザイン)

温度制御範囲：-120°C～+250°C

冷却チラー                                                                                                     

循環式チラー / 冷凍サーキュレーター

(カスタムデザイン)

チラーは様々な産業や研究所で広く使用することができ、カスタマイズされた設計をサポートしています。

ウォーター・チラー／小型チラー

(カスタムデザイン)

チラーは様々な産業や研究所で広く使用することができ、カスタマイズされた設計をサポートしています。

低温チラー

(カスタムデザイン)

当社は、-150℃の温度制御範囲を持つ低温冷凍機の生産を専門としており、さまざまな業界の冷凍ニーズを満たすことができます。