Liquid Cryochiller
In today’s rapidly developing technological era, our lives are inseparable from various refrigeration and freezing equipment. As an efficient, safe and sustainable freezing equipment, liquid cryochiller is gradually attracting people’s attention.
Classification of liquid cryochiller
1. Compressed liquid cryochiller
Compression liquid cryochiller is one of the most widely used chillers at present. Its working principle is to compress the refrigerant into high-temperature and high-pressure gas through the compressor, and transfer it to the condenser for cooling. The cooled refrigerant turns into liquid and then enters the evaporator through the expansion valve to absorb heat and achieve refrigeration effect. This kind of equipment has the characteristics of simple structure and convenient operation, and is widely used in air conditioners, refrigerated cabinets and other fields.
2. Absorption liquid cryochiller
The absorption liquid cryochiller is a refrigeration equipment based on the absorption cycle theory. Unlike the compression type, the absorption type uses the absorption properties of the solution to achieve the refrigeration effect. Among them, the solution consists of absorbent and working agent. The absorbent dissolves the working agent through heating, and then the working agent is cooled through the condenser to liquefy it. Finally, it enters the evaporator through the expansion valve to absorb heat for refrigeration. Absorption liquid cryochiller has the characteristics of low noise and high energy efficiency, and is widely used in industrial refrigeration and energy recovery and other fields.
The principle and advantages of liquid cryochiller
Traditional chillers usually require a long cooling time, but the emergence of liquid rapid refrigeration technology has changed this situation. Liquid rapid refrigeration utilizes the flow and heat transfer characteristics of liquid to greatly increase the refrigeration speed.
1. Principle of liquid cryochiller
The principle of rapid liquid refrigeration is based on the high thermal conductivity and flow properties of liquids. During the freezing process, low-temperature liquid is injected into the refrigerator. The flow of the liquid can quickly take away heat and achieve a rapid cooling effect.
2. Advantages of liquid cryochiller
Liquid rapid refrigeration has many advantages. The first is that it has a fast refrigeration speed and can quickly cool down objects in a short time. Due to the fluidity of the liquid, it can evenly and comprehensively cover the surface of the object being refrigerated, ensuring temperature uniformity. In addition, liquid refrigeration has better heat conduction performance than gas refrigeration, improving the efficiency of the refrigeration system.
Application prospects of liquid cryochiller
With the improvement of living standards and the advancement of science and technology, people’s requirements for refrigeration equipment are getting higher and higher. The emergence of liquid cryochiller has greatly improved the performance and effect of refrigeration equipment, and its application prospects are broad.
1. Medical field
Liquid rapid refrigeration technology is widely used in medical device refrigeration and vaccine storage. Using liquid rapid refrigeration technology, medical devices and vaccines can be cooled to the required low temperature in a short time to ensure their quality and efficacy.
2. Food preservation field
Liquid rapid refrigeration technology also has important application prospects in the field of food preservation. Using liquid rapid refrigeration, food can be quickly cooled to low temperatures, effectively inhibiting microbial reproduction and food deterioration, extending the shelf life of food, and improving food quality and safety.
3. Industrial refrigeration field
Liquid rapid refrigeration technology also plays an important role in the industrial field. The use of liquid rapid refrigeration technology can accelerate the industrial refrigeration process and improve production efficiency. At the same time, liquid rapid refrigeration can also realize energy recovery and reduce resource waste, which is of great significance to industrial refrigeration.
As technology continues to develop, liquid cryochiller will continue to grow and develop. In the future, the application of these technologies will further promote the development of refrigeration equipment and bring more efficient, reliable and safer refrigeration solutions to various fields.
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Enfriadoras de precisión / Enfriadoras pequeñas
El enfriador puede utilizarse ampliamente en diversas industrias y laboratorios, y admite diseños personalizados.
Temperatura | -18°C ~ +30°C | Serie +5°C ~ +35°C |
Capacidad de refrigeración | 0,35 ~ 0,9 kW | 1,8 ~ 50 kW |
Enfriadoras de recirculación
Nuestro enfriador de recirculación adopta tecnología de refrigeración de baja temperatura, la temperatura es tan baja como -120℃, y varios accesorios son personalizables.
Temperatura | Serie -25°C ~ +30°C | Serie -45°C ~ +30°C | Serie -60°C ~ -20°C | Serie -80°C ~ -20°C | Serie -120°C ~ -70°C |
Capacidad de refrigeración | 0,8 ~ 30 kW | 0,75 ~ 12 kW | 0,4 ~ 6kW | 0,2 ~ 6kW | 0,3 ~ 5kW |
Refrigeradores de baja temperatura
Estamos especializados en la producción de refrigeradores de baja temperatura con un rango de control de temperatura de hasta -150°C, que pueden satisfacer las necesidades de refrigeración de diferentes industrias.
Temperatura | Serie -25°C ~ -5°C | Serie -45°C ~ -10°C | Serie -60°C ~ -10°C | Serie -80°C ~ -30°C | Serie -110°C ~ -50°C | Serie -150°C ~ -110°C |
Capacidad de refrigeración | 12 ~ 360 kW | 6 ~ 180 kW | 6 ~ 180 kW | 4 ~ 180kW | 2 ~ 120kW | 2,5 ~ 11 kW |
Enfriadoras para pruebas en automoción
Simulación de temperatura para pruebas de calidad de vehículos: prueba de duración de baterías, banco de pruebas de inyectores/motores de combustible, prueba de airbags, banco de pruebas de componentes, etc.
Enfriadoras para semiconductores
Adecuado para el control preciso de la temperatura de los componentes electrónicos. En la fabricación de componentes electrónicos semiconductores para entornos adversos, las fases de ensamblaje de embalajes de CI y de pruebas de ingeniería y producción incluyen pruebas térmicas electrónicas y otras simulaciones de pruebas ambientales.
Refrigeración líquida para sistemas de almacenamiento de energía en baterías
Tipos | Para estación de conversión | Para batería de almacenamiento de energía | Para estación de carga |
Capacidad de refrigeración | 45 kW | 5 ~ 8,5 kW | 4kW |
Serie ZLFQ
Unidad de distribución de refrigerante
El equipo de refrigeración líquida es adecuado para pruebas de semiconductores, pruebas de temperatura constante de equipos electrónicos, infraestructura de soporte de servidores de refrigeración y otros lugares de control de temperatura de fluidos.
Temperatura | +5°C ~ +35°C | +5°C ~ +35°C |
Capacidad de refrigeración | 15 ~ 150 kW | 200 ~ 500 kW |
Serie de mandriles térmicos MD
Se utiliza para probar dispositivos de radiofrecuencia y dispositivos de potencia de alta densidad (IGBT y MOSFET), y también puede utilizarse para el enfriamiento rápido de paneles planos de laboratorio (plasma, productos biológicos, baterías), etc.
Temperatura | -75°C ~ +225°C |
Precisión de la temperatura | ±0.1℃ |
Refrigeradores de tornillo (Diseños a medida)
Refrigeradores de tornillo de baja temperatura y refrigeradores de tornillo a temperatura ambiente
Temperatura | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | +5°C ~ +30°C | -25°C ~ +5°C | -25°C ~ +5°C |
Capacidad de refrigeración | 107 ~ 1027 kW (compresor único) | 299 ~ 2134 kW (compresor doble) | 98 ~ 934 kW (compresor único) | 272 ~ 1940 kW (compresor doble) | 48 ~ 467 kW (un compresor) | 51 ~ 497 kW (compresor único) |