Characteristics:

1. Compressor structure and operating mode:

Unique single-unit, two-stage structure: This chiller unit adopts single-unit, two-stage compression technology, with two compression stages. The refrigerant is intercooled after the first stage of compression before entering the second stage. This structure effectively improves the pressure and temperature change range of the refrigerant, enabling efficient refrigeration in ultra-low temperature environments. Compared to single-stage compression, it provides higher refrigeration capacity and better performance under low-temperature conditions.

High demands on the compressor: Equipped with compressors specially designed for low-temperature conditions, the materials and processing techniques of its components can withstand extreme low-temperature environments. For example, key components of the compressor, such as seals and bearings, must have good low-temperature resistance to ensure normal operation at ultra-low temperatures.

2. Compatibility of refrigerant and coolant:

Strict refrigerant selection: Uses refrigerants suitable for ultra-low temperature conditions, such as R404A, R23, etc. These refrigerants have low evaporation temperatures and high refrigeration efficiency, meeting the low-temperature refrigeration needs of -40℃~-60℃, while also complying with environmental requirements.

Diversity of coolants: Various coolants can be selected based on different application scenarios and needs, such as ethylene glycol aqueous solutions, alcohol, ternary mixed solutions and other alcohol-based coolants, or calcium chloride aqueous solutions. The selection of coolant needs to consider factors such as its freezing point, specific heat capacity, and corrosiveness to ensure normal flow and effective heat transfer at low temperatures.

3. High efficiency of the heat exchange system:

High-efficiency heat exchanger design: Both the evaporator and condenser adopt high-efficiency heat exchange design, such as using high-efficiency finned tubes, spiral tubes, etc., to increase the heat exchange area and improve the heat exchange efficiency. At the same time, the optimized heat exchange tube layout and fluid flow path can reduce flow resistance and lower energy consumption.

Advantages of water-cooled cooling: Water is used as the cooling medium, and the refrigerant in the condenser is cooled by equipment such as cooling towers. Water has a large specific heat capacity and can absorb a large amount of heat, ensuring that the refrigerant can quickly dissipate heat during the condensation process, improving the overall performance of the refrigeration system. Furthermore, the water-cooled cooling method is relatively less affected by ambient temperature and can maintain good cooling effects even in high-temperature environments.

4. Precision of the control system:

Intelligent and precise control: Equipped with an advanced intelligent control system that can monitor the operating parameters of the chiller unit in real-time, such as temperature, pressure, and flow rate, and automatically adjust the compressor's operating frequency and refrigerant flow rate according to the preset program to ensure that the unit maintains a stable operating state under different loads. For example, when the refrigeration demand decreases, the control system can automatically reduce the compressor's operating frequency to achieve energy-saving operation.

High-precision temperature control: It has high-precision temperature control capabilities, capable of precisely controlling the outlet temperature within the range of -40℃~-60℃, meeting the extremely strict temperature control requirements of some processes, such as in the fields of biopharmaceuticals and low-temperature testing of chemical materials.

Discover the ultimate cooling solution with our advanced Double-Stage Low Temperature Chiller, designed for applications requiring extreme precision and power. This specialized equipment utilizes a sophisticated two-stage refrigeration cycle to deliver outstanding performance where it matters most. It is capable of reaching temperatures significantly lower than standard single-stage units, making it a critical asset for high-tech industries. The foundation of its operation is a meticulously engineered double-stage compression system that ensures unparalleled thermal control.

The defining feature of this system is its highly efficient double-stage design. This configuration allows the chiller to achieve a much lower temperature setpoint with improved stability and reduced compressor stress. The innovative cycle of this Double-Stage Low Temperature Chiller not only boosts its cooling capacity but also enhances its operational lifespan. This results in a machine that is both powerful and exceptionally reliable, capable of continuous operation in demanding environments without compromising on performance.

This powerful Double-Stage Low Temperature Chiller is engineered for a wide array of specialized applications. It excels in environments such as electron microscopy, reaction calorimetry, and semiconductor testing, providing the critical cooling necessary for accurate data and product quality. The robust construction of this chiller ensures it can handle the dynamic thermal loads of modern laboratories and industrial settings. Its consistent performance safeguards sensitive equipment and processes from thermal fluctuations.

By integrating this high-performance Double-Stage Low Temperature Chiller into your facility, you secure a cornerstone for quality and efficiency. The system is designed for low total cost of ownership, emphasizing energy savings and minimal maintenance. With its advanced control interface and proactive safety systems, operators can manage demanding thermal tasks with confidence. Embrace the next generation of cooling technology; our Double-Stage Low Temperature Chiller is the definitive choice for achieving superior and reliable low-temperature results.

Advantages:

1. Powerful refrigeration performance:

Ultra-low temperature refrigeration capability: It can operate stably in an extremely low-temperature environment of -40℃~-60℃, providing reliable refrigeration effects and meeting the ultra-low temperature refrigeration needs of some special industries, such as biopharmaceuticals, food freezing, and low-temperature testing of chemical materials.

High refrigeration capacity output: The single-unit, two-stage structure and the high-efficiency compressor design enable the chiller unit to output a large refrigeration capacity, suitable for large cold storage facilities, frozen processing production lines, and other places with high refrigeration capacity requirements.

2. High efficiency and energy saving:

Significant energy-saving effect of two-stage compression: Single-unit, two-stage compression technology can improve the compression efficiency of the refrigerant and reduce the energy consumption of the compressor. Compared with single-stage compression, under the same refrigeration capacity, two-stage compression has lower energy consumption, thus reducing operating costs.

Optimized system design for energy saving: Through optimized design of the heat exchange system, refrigerant circulation system, etc., energy loss is reduced, and the energy utilization rate of the entire chiller unit is improved. For example, reasonable pipeline layout and pipe diameter selection can reduce pressure loss of the refrigerant in the pipes; high-efficiency condenser and evaporator designs can improve heat exchange efficiency and reduce energy consumption.

3. Stable and reliable operation:

High-quality components guarantee: High-quality compressors, heat exchangers, controllers, and other components are used. These components have good low-temperature performance and reliability, ensuring the stability of the chiller unit during long-term operation. For example, the compressor has good sealing performance to prevent refrigerant leakage; the material of the heat exchanger is corrosion-resistant and can work in a low-temperature water environment for a long time.

Good environmental adaptability: It has good adaptability to environmental temperature, water quality, and other factors. Under different environmental conditions, the refrigeration unit can maintain stable operating performance and is not affected by the external environment. At the same time, for areas with poor water quality, appropriate refrigerants can be selected and corresponding water treatment measures can be taken to ensure the normal operation of the refrigeration unit.

4. Convenient maintenance and management:

Compact structure for easy maintenance: The overall structure is compact and has a small footprint, making it easy to install and arrange. At the same time, the connections between the components are tight, reducing the probability of pipe leakage and other failures. Furthermore, the design of some key components makes them easy to disassemble and replace, reducing maintenance costs and downtime.

Intelligent control system assists maintenance: The intelligent control system can automatically diagnose faults and provide detailed fault information, facilitating maintenance personnel in repairs and maintenance. Maintenance personnel can use the control system display screen or remote monitoring system to understand the operating status of the unit in real time, promptly discovering and solving problems.