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[China]
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Address: Add: No.19,Second Street,Huangling Road,Lubian Village,Chashan Town,Dongguan,Guangdong,China.
Contact name:Jlschiller
Dongguan Jialisheng Refrigeration Equipment Co., Ltd. |
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Product Description:
The low-temperature screw chiller is a refrigeration equipment specially designed to provide low-temperature cooling. It uses a screw compressor as the core component to achieve refrigeration by compressing and expanding refrigerant. The following is a description of the low temperature screw chiller:
1. Screw compressor: The low temperature screw chiller uses a screw compressor as the main refrigeration unit. The screw compressor rotates by two intermeshing screws to generate a compression action, which compresses the refrigerant gas and increases its temperature and pressure.
2. Low-temperature refrigerant: Low-temperature screw chillers usually use low-temperature refrigerants, such as R404A, R507A, etc. These refrigerants have low boiling points and evaporation temperatures that provide the desired low-temperature refrigeration.
3. Piping system: The low-temperature screw chiller includes a piping system for refrigerant circulation, which is used to transfer refrigerant from the compressor to the cooling part and expansion valve, and complete the return process.
4. Cooling components: The cooling components of the low-temperature screw chiller include condensers and evaporators. The condenser is used to cool the high-temperature and high-pressure refrigerant gas discharged from the compressor and convert it into a high-pressure liquid, while the evaporator is used to evaporate the refrigerant liquid to absorb the heat of the surrounding environment, thereby achieving the cooling effect.
5. Temperature control: The low-temperature screw chiller is equipped with a temperature control system, which can precisely control the temperature of the cooling water according to the needs. By monitoring and adjusting the pressure and flow of refrigerant, a stable low-temperature cooling effect can be achieved.
Low-temperature screw chillers are widely used in industrial production and laboratory applications that require lower temperatures, such as frozen storage, chemical manufacturing, food processing, pharmaceutical research and development, etc. They provide reliable cryogenic cooling for application-specific temperature control and stability requirements.
Production Features:
Low temperature screw chiller has the following characteristics:
1. Low-temperature cooling capacity: Low-temperature screw chillers are specially designed to provide low-temperature cooling, capable of meeting lower cooling temperature requirements, usually in the range of -40°C to -80°C.
2. High efficiency and energy saving: As the core component, the screw compressor has efficient refrigeration performance and energy consumption ratio. It can provide large cooling capacity while having low power consumption to achieve efficient energy utilization.
3. Stability and reliability: The low-temperature screw chiller adopts advanced control system and stable refrigeration technology, which can provide stable low-temperature cooling effect and has good operational reliability.
4. Excellent temperature control performance: Equipped with a sophisticated temperature control system, it can achieve precise control and stability of the cooling water temperature and meet the requirements of specific applications for temperature accuracy and stability.
5. Multiple protection functions: Low-temperature screw chillers are usually equipped with multiple protection functions, such as over-current protection, over-temperature protection, low-temperature protection, etc., to ensure the safe operation and long life of the equipment.
6. Durability and easy maintenance: Using high-quality materials and manufacturing processes, the low-temperature screw chiller has strong durability and corrosion resistance. At the same time, the equipment has a reasonable structure and is easy to maintain and maintain.
7. Wide range of application fields: low-temperature screw chillers are suitable for many industrial fields, such as chemical, pharmaceutical, food processing, electronics, frozen storage, etc., to meet the needs of different industries for low-temperature cooling.
To sum up, the low-temperature screw chiller has the characteristics of low-temperature cooling capacity, high efficiency and energy saving, stability and reliability, and high temperature control accuracy. It is suitable for industrial applications that require low-temperature cooling and is widely used in many industries.
Working Principle:
The working principle of the water-cooled screw chiller mainly
includes four processes of compression, condensation, expansion and
evaporation.
1.Compression process: Under the action of the screw compressor, the refrigerant is
compressed into a high-temperature and high-pressure gas, while
absorbing the surrounding heat.
2.Condensation process: High-temperature and high-pressure refrigerant enters the
condenser, and through contact with cold water or surrounding air,
it emits heat and cools into a high-pressure liquid.
3.Expansion process: The high-pressure liquid refrigerant enters the evaporator through
the throttle valve, the pressure drops suddenly, and the liquid
refrigerant expands into a low-pressure refrigerant while absorbing
the surrounding heat.
4.Evaporation process: The low-pressure refrigerant enters the evaporator, absorbs
surrounding heat through contact with water or air, turns into a
low-temperature and low-pressure refrigerant, and returns to the
compression process.
Through such a cycle process, the water-cooled screw chiller can
deliver cold water to the area that needs to be cooled to achieve
the effects of cooling, dehumidification and keeping the air fresh.
At the same time, the water-cooled screw chiller will also emit a
certain amount of heat, which needs to be dissipated through
cooling towers or other heat dissipation equipment to ensure the
normal operation of the system.
Techinical Parameters:
| Model | JLSW-30D | JLSW-40D | JLSW-50D | JLSW-60D | JLSW-80D | JLSW-100D | JLSW-120D | JLSW-150D | ||
| Cooling capacity | KW/h | 100 | 140 | 180 | 200 | 260 | 370 | 430 | 550 | |
| TR | 28.5 | 39.8 | 51.2 | 56.9 | 73.9 | 105.2 | 122.3 | 156.4 | ||
| Temperature range | 5℃~35℃(Below 0℃ can be customized) | |||||||||
| Power supply | 3N-380V/415 50HZ/60HZ | |||||||||
| Compressor | Type | Semi-hermetic screw | ||||||||
| Power | KW | 22 | 30 | 36 | 41 | 56 | 80 | 93 | 118 | |
| electric current | A | 39 | 51 | 65 | 71 | 95 | 135 | 156 | 198 | |
| Refrigerant | Type | R22/R407c | ||||||||
| Control method | Temperature Sensing External Pressure Equalizing Expansion Valve | |||||||||
| filling volume | Kg | 16.5 | 22.2 | 27.5 | 33.4 | 44.4 | 55.6 | 66.5 | 82.6 | |
| Evaporator | shell and tube | |||||||||
| Flow | m³/h | 17.2 | 22.4 | 29.3 | 33 | 43.9 | 64.2 | 75.2 | 95.3 | |
| Diameter | inch | G2.5" | G3" | G3" | G3" | G3" | G4" | G4" | G4" | |
| Compressor | Type | shell and tube | ||||||||
| Flow | m³/h | 22.4 | 29.2 | 35.2 | 42.9 | 57.8 | 84.3 | 101.1 | 123.9 | |
| Diameter | inch | G2.5" | G3" | G3" | G3" | G3" | G4" | G4" | G4" | |
| Protective device | High and low pressure switch, antifreeze protection, fusible plug/safety valve, overload protection device, coil overheat protector, automatic temperature protection switch, etc. | |||||||||
| Machine size | L | mm | 2200 | 2250 | 2350 | 2450 | 2500 | 2900 | 3000 | 3000 |
| W | mm | 800 | 800 | 800 | 900 | 900 | 900 | 1500 | 1500 | |
| H | mm | 1500 | 1600 | 1650 | 1750 | 1800 | 1850 | 1500 | 1550 | |
| Unit weight | Kg | 960 | 990 | 1260 | 1380 | 1520 | 1830 | 2150 | 2580 | |
| Model | JLSW-170D | JLSW-200D | JLSW-230D | JLSW-260D | JLSW-280D | JLSW-310D | JLSW-350D | JLSW-400D | ||
| Cooling capacity | KW/h | 620 | 710 | 830 | 930 | 1020 | 1130 | 1270 | 1530 | |
| TR | 176.3 | 201.9 | 236 | 264.4 | 290 | 321.3 | 361.1 | 435 | ||
| Temperature range | 5℃~35℃(Below 0℃ can be customized) | |||||||||
| Power supply | 3N-380V/415 50HZ/60HZ | |||||||||
| Compressor | Type | Semi-hermetic screw | ||||||||
| Power | KW | 130 | 150 | 175 | 200 | 225 | 250 | 281 | 325 | |
| electric current | A | 218 | 253 | 295 | 335 | 390 | 432 | 480 | 553 | |
| Refrigerant | Type | R22/R407c | ||||||||
| Control method | Temperature Sensing External Pressure Equalizing Expansion Valve | |||||||||
| filling volume | Kg | 93.8 | 111.2 | 126.8 | 144.1 | 155.4 | 170.9 | 193.2 | 220.9 | |
| Evaporator | shell and tube | |||||||||
| Flow | m³/h | 108.6 | 126.3 | 144.9 | 163.8 | 176.4 | 196.5 | 222.4 | 252.6 | |
| Diameter | inch | G5" | G5" | G6" | G6" | G8" | G8" | G8" | G8" | |
| Compressor | Type | shell and tube | ||||||||
| Flow | m³/h | 141.1 | 166.2 | 190.9 | 215.8 | 232.4 | 258.6 | 290.8 | 333.2 | |
| Diameter | inch | G5" | G5" | G6" | G6" | G8" | G8" | G8" | G8" | |
| Protective device | High and low pressure switch, antifreeze protection, fusible plug/safety valve, overload protection device, coil overheat protector, automatic temperature protection switch, etc. | |||||||||
| Machine size | L | mm | 3600 | 3600 | 3600 | 3650 | 3650 | 3700 | 3700 | 4200 |
| W | mm | 1500 | 1500 | 1500 | 1600 | 1650 | 1750 | 1750 | 1750 | |
| H | mm | 1650 | 1650 | 1700 | 1700 | 1700 | 1750 | 1800 | 1800 | |
| Unit weight | Kg | 3050 | 3200 | 3450 | 3780 | 4060 | 4330 | 4600 | 4820 | |
Application Industry:
Cryogenic chillers are primarily used in applications that require refrigeration or cooling at low temperatures. The following are some common cryogenic chiller application industries:
1. Refrigeration and frozen food industry: Low-temperature chillers are widely used in the food industry for frozen food, refrigerated food, cold storage and refrigerated vehicles.
2. Pharmaceutical and biotechnology industry: In the fields of pharmaceuticals, biotechnology, and medical equipment manufacturing, low-temperature chillers are used to cool and preserve medicines, biological samples, vaccines, blood products, and laboratory equipment.
3. Laboratory and scientific research industry: Laboratories, research institutions and scientific research facilities usually require low-temperature environments to conduct experiments, tests and scientific research. A cryogenic chiller provides the required cooling effect.
4. Chemical and manufacturing industries: In chemical plants, manufacturing plants and process equipment, cryogenic chillers are used to control and maintain cryogenic processes to improve production efficiency and product quality.
5. Semiconductor and electronics industry: In fields such as semiconductor manufacturing, electronic component production, and electronic equipment testing, low-temperature environments are required to control and maintain the performance and stability of equipment.
6. Cooling and solidification industry: Low-temperature chillers are widely used in cooling and solidification processes, such as plastic injection molding, rubber processing, glass manufacturing, and metal processing.
These are just some common application industries of cryogenic chillers. In fact, cryogenic refrigeration technology is widely used in various fields, covering many different industries and application scenarios. Specific application needs and requirements will determine the design and configuration of the cryogenic chiller.
Automotive Manufacturing
Chemical Engineering
Electronics Industry
Electroplating Industry
Injection Molding Industry Pharmaceutical Industry Plastic Packaging Industry Printing Industry
Upport and Services:
Chiller technical support and service includes:
1. 24/7 customer support
2. Remote guidance installation and maintenance
3. Remote Diagnostics and Troubleshooting
4. Phone/Email Advice and Guidance
5. User friendly documentation and manuals
6. Software Updates and Upgrades
7. Cost price of spare parts and consumables
Packing and Shipping:
Chillers are packaged and shipped in standard plywood wooden boxes. All components are secured and protected with a film, and the unit is then placed on a pallet for easy transport. And affix the shipping mark information label on the wooden box to ensure correct delivery.
How to reasonably arrange the workload of low-temperature chillers to optimize energy consumption?
To reasonably arrange the workload of low-temperature chillers to optimize energy consumption, the following aspects can be considered:
1. Load balancing: Reasonably allocate and balance the workload of the low-temperature chiller based on actual needs and system design. Avoid overloading some equipment, causing increased energy consumption, or preventing some equipment from being excessively idle and wasting energy. According to needs, multiple low-temperature chillers can be used to operate in combination, and the number of units activated can be selected according to the load to achieve load balance.
2. Energy-saving control strategy: Use intelligent control systems and optimized control strategies to adjust the operation of low-temperature ch00illers. For example, functions such as scheduled start and stop, temperature control, and load tracking can be used to ensure that the chiller runs when needed and sleeps or reduces power when the load is low or cooling is not temporarily needed. This avoids unnecessary energy consumption.
3. System maintenance and optimization: Regular maintenance and inspection of low-temperature chillers to ensure the normal operation and efficiency of the equipment. Clean the condenser and evaporator to keep heat exchange efficiency efficient. Check and repair leaks to ensure the integrity of the refrigerant cycle to reduce energy waste.
4. Heat recovery and utilization: Consider introducing heat recovery technology into the low-temperature chiller system. By recovering and utilizing the waste heat generated by the condenser, it can be used for heating, hot water or other applications that require heat energy, improving energy efficiency.
5. Optimize comprehensive energy efficiency: In addition to the low-temperature chiller itself, the energy efficiency of the entire cooling system can also be comprehensively considered. For example, optimize the cooling water circulation system, reduce the energy consumption of cooling water pumps, avoid oversupply of cooling water, etc., to improve the overall energy efficiency of the system.
Taking the above factors into consideration, and based on specific application requirements and system characteristics, a suitable workload scheduling strategy can be developed to optimize the energy consumption of cryogenic chillers. In practical applications, continuous monitoring and adjustment are performed based on real-time workload conditions and energy consumption data to achieve optimal energy utilization efficiency.
