Low Temperature Chiller System
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A low temperature chiller system is a type of refrigeration equipment that is mainly used in industrial, commercial and residential areas to provide low-temperature cooling water for various purposes. This type of equipment has a wide range of applications in chemical, pharmaceutical, food processing, biotechnology, electronics manufacturing and other industries.
Low temperature chiller system
Single-stage refrigeration cycle system
Single-stage low temperature chiller system is a type of refrigerator that is widely used. It can be used in ice making, air conditioning, food refrigeration and industrial production processes. The single-stage refrigeration cycle means that the refrigerant undergoes four processes of compression, condensation, throttling, and evaporation in the refrigeration system, and then the cycle of the single-stage refrigerator is completed, that is, the purpose of refrigeration is achieved. The refrigeration system consists of an evaporator, a single-stage compressor, an oil separator, a condenser, an ammonia storage tank, an ammonia liquid separator, a throttle valve and other ancillary equipment, which are connected to each other through pipes to form a closed system. Among them, the evaporator is a device that transports cold energy. After the liquid refrigerant evaporates, it absorbs the heat of the object being cooled to achieve refrigeration; the compressor is the heart of the system, playing the role of inhaling, compressing, and transporting the refrigerant vapor; the oil separator is used for settling Separates the oil in the compressed refrigerant vapor; the condenser condenses the high-temperature refrigerant vapor discharged from the compressor into a saturated liquid; the ammonia storage is used to store the condensed refrigerant ammonia liquid in the condenser and adjust the relationship between the condenser and the evaporator The supply and demand relationship of refrigerant ammonia liquid; the ammonia liquid separator is an important accessory equipment in the ammonia gravity liquid supply system; the throttle valve plays a role in throttling and depressurizing the refrigerant while controlling and regulating the flow of refrigerant liquid into the evaporator. And the system is divided into two parts: high pressure side and low pressure side.
Two-stage refrigeration cycle system
The two-stage refrigeration cycle is developed on the basis of the single-stage refrigeration cycle. The compression process is carried out in two stages. The refrigerant vapor from the evaporator first enters the low-pressure stage cylinder and is compressed to an intermediate pressure. After intermediate cooling, it enters the high-pressure stage. stage cylinder, compressed to condensing pressure and enters the condenser. Generally, when the evaporation temperature is between -25℃ ~ -50℃, a two-stage compressor should be used for refrigeration. The refrigeration system consists of an evaporator, a two-stage compressor, an oil separator, a condenser, an intercooler, an ammonia storage tank, an ammonia liquid separator, a throttle valve and other ancillary equipment, which are connected to each other through pipes to form a closed system. . Among them, the intercooler uses a small amount of liquid refrigerant to vaporize and absorb heat under the intermediate pressure, so that the superheated steam discharged from the low-pressure stage is cooled, and the suction temperature of the high-pressure stage is reduced. At the same time, the high-pressure liquid refrigerant is cooled.
How does low temperature chiller system works?
The working principle of the low temperature chiller system is based on the circulation of refrigerant. The refrigerant circulates in the system and completes the four processes of compression, condensation, expansion and evaporation through the compressor, condenser, expansion valve and evaporator. During the entire process, the refrigerant continuously absorbs and releases heat to achieve the preparation and supply of cold water.
The refrigerant is compressed in the compressor, increasing its temperature and pressure.
The high-temperature and high-pressure refrigerant enters the condenser and exchanges heat with the cooling water. The heat is taken away by the cooling water and the refrigerant condenses into a liquid.
The liquid refrigerant passes through the expansion valve and the pressure decreases, forming a low-temperature and low-pressure liquid-gas mixture.
The low-temperature and low-pressure refrigerant enters the evaporator, absorbs the heat of the cooling water, and evaporates into gas. The cooling water releases heat during this process and lowers its temperature.
The refrigerant gas returns to the compressor again, and the cycle repeats.
Components of low temperature chiller system
Compressor: Responsible for compressing the refrigerant and increasing its temperature and pressure.
Condenser: used for heat exchange between refrigerant and cooling water to condense the refrigerant into liquid.
Expansion valve: Responsible for reducing the pressure of the refrigerant to form a low-temperature and low-pressure liquid-gas mixture.
Evaporator: used for the refrigerant to absorb the heat of the cooling water to prepare cold water.
Control system: including temperature sensors, pressure sensors, liquid level gauges, etc., responsible for monitoring and adjusting the operating status of the entire system.
Advantages of low temperature chiller system
The low-temperature cooling speed is fast and the required temperature can be reached quickly in a short time.
Use advanced energy-saving technology to save energy consumption.
Use high-quality cooling components and control systems for stability and reliability.
The equipment is simple to operate and easy to maintain and maintain.
It can be adjusted and customized according to different needs to meet various cooling requirements.
Мы предоставляем услуги по проектированию и производству систем температурного контроля. От стандартных моделей до полной индивидуальной продукции вплоть до 900 тонн. Мы специализируемся на обслуживании клиентов и стремимся помочь каждому заказчику подобрать оптимальную систему контроля температуры для его конкретных нужд.
Мы предлагаем нестандартные индивидуальные решения. В наличии имеются как чиллеры с одним охлаждением, так и комбинированные агрегаты для охлаждения и нагрева.
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Рециркуляционные охладители / Охлаждающие циркуляционные установки
Чиллер может широко использоваться в различных отраслях промышленности и лабораториях, а также поддерживает индивидуальный дизайн.
Диапазон температур | Серия -25°C ~ +30°C | Серия -45°C ~ +30°C | Серия -60°C ~ -20°C | Серия -80°C ~ -20°C | Серия -120°C ~ -70°C | ||||
Мощность охлаждения | 0,8 ~ 30 кВт | 0,75 ~ 12 кВт | 0,4 ~ 6 кВт | 0,2 ~ 6 кВт | 0,3 ~ 5 кВт | ||||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |
Водяные охладители / Малые охладители
Чиллер может широко использоваться в различных отраслях промышленности и лабораториях, а также поддерживает индивидуальный дизайн.
Диапазон температур | -18°C ~ +30°C | Серия +5°C ~ +35°C | |||||||
Мощность охлаждения | 0,35 ~ 0,9 кВт | 1,8 ~ 50 кВт | |||||||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |
Низкотемпературные чиллеры
Мы специализируемся на производстве низкотемпературных чиллеров с диапазоном регулирования температуры до -150°C, которые могут удовлетворить потребности в охлаждении различных отраслей промышленности.
Диапазон температур | Серия -25°C ~ -5°C | Серия -45°C ~ -10°C | Серия -60°C ~ -10°C | Серия -80°C ~ -30°C | Серия -110°C ~ -50°C | Серия -150°C ~ -110°C | |||
Мощность охлаждения | 12 ~ 360 кВт | 6 ~ 180 кВт | 6 ~ 180 кВт | 4 ~ 180 кВт | 2 ~ 120 кВт | 2,5 ~ 11 кВт | |||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |
Высокотемпературные охладители
Чиллер может широко использоваться в различных отраслях промышленности и лабораториях, а также поддерживает индивидуальный дизайн.
Диапазон температур | +5°C ~ +40°C | -25°C ~ +40°C | -45°C ~ +40°C | -80°C ~ +80°C | -100°C ~ +80°C | ||||
Мощность охлаждения | 6 ~ 40 кВт | 2 ~ 15 кВт | 1 ~ 8 кВт | 0,6 ~ 3 кВт | 1,5 ~ 3 кВт | ||||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |
Охлаждающие и нагревательные чиллеры
Охлаждающие и нагревательные чиллеры
Диапазон регулирования температуры: от -120°C до +350°C
Термостат охлаждения и нагрева, широко используется в различных отраслях промышленности.
Диапазон температур | Серия -10 ~ +150°C | Серия -25 ~ +200°C | Серия -25 ~ +300°C | Серия -45 ~ +250°C | Серия -45 ~ +300°C | Серия -60 ~ +250°C | Серия -60 ~ +300°C | Серия -70 ~ +250°C | Серия -80 ~ +250°C | Серия -90 ~ +250°C | Серия -100 ~ +100°C | ||
Мощность охлаждения | 1,5 ~ 15 кВт | 1 ~ 200 кВт | 1 ~ 200 кВт | 0,45 ~ 200 кВт | 0,9 ~ 25 кВт | 0,25 ~ 60 кВт | 0,75 ~ 25 кВт | 0,4 ~ 15 кВт | 0,3 ~ 80 кВт | 0,2 ~ 80 кВт | 0,45 ~ 80 кВт | ||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |
Охладители с рециркуляционным нагревателем
Диапазон регулирования температуры: от -45°C до +250°C
Диапазон температур | Серия -25°C ~ +200°C | Серия -45°C ~ +250°C | |||||||
Мощность охлаждения | 1 ~ 15 кВт | 0,25 ~ 15 кВт | |||||||
Примечание: Любой диапазон температур от -150℃ до +350℃ и любая мощность охлаждения может быть настроена |