Low-Temperature Chiller Cooling Process
The cooling process of a low-temperature chiller involves the refrigerant circulating and evaporating inside the evaporator, directly lowering the high-temperature water to 0.5℃ ± 0.1℃ for customer use, without the need for recirculating cooling.
Working Principle of the Low-Temperature Chiller
The cooling process of a low-temperature chiller is based on the refrigerant circulating and evaporating inside the evaporator, directly lowering the high-temperature water to 0.5℃ ± 0.1℃ for customer use, eliminating the need for recirculating cooling.
With the rapid development of modern industry, cooling equipment and products require precise cooling temperature control to ensure product quality and improve production efficiency. Aisino industrial low-temperature chillers, with their unique refrigeration systems, provide the required chilled water with adjustable temperatures between 0.5℃ and 20℃. Their special water outlet design and high flow rate can meet the diverse needs of customers.
The Aisino ISW series industrial low-temperature chillers incorporate modern refrigeration technology, utilizing high-capacity screw compressors and brand-name electronic temperature control components. These units feature a well-structured design, easy transportation, low energy consumption, high reliability, and low noise. The system adopts a PLC programming control system, offering a user-friendly interface, intelligent fault alarms, and fully automatic refrigeration, eliminating the need for manual monitoring. This makes them an ideal industrial cooling solution.
Features of the Low-Temperature Chiller
1. Adjustable Water Temperature: The outlet water temperature can be set anywhere between 0.5℃ and 20℃, with an accuracy of ±0.1℃.
2. Stable Temperature Control: The refrigeration system automatically adjusts the compressor load based on water temperature, ensuring constant chilled water temperature.
3. High Flow Rate: Water flow ranges from 1.5m³/h to 24m³/h, meeting the needs of various customers.
4. Easy Transportation & Installation: The low-temperature chiller adopts a container-type design (customizable by customers), making transportation convenient and installation simple.
High Efficiency & Energy Saving: The unit features a high-efficiency plate heat exchanger, which is more energy-efficient and effective than traditional shell-and-tube heat exchangers, ensuring better heat transfer efficiency.
model | Daily output (m³/day) | Recommended water tank capacity (m³) | Necessary cooling capacity (kw) | Installed cooling capacity (kw) | Redundancy coefficient | Running power consumption (kw) | Total energy efficiency ratio | Container Specifications |
MT-CW36 | 36 | 12 | 51.45 | 63.8 | 1.24 | 20.82 | 3 | 20” |
MT-CW60 | 60 | 20 | 85.75 | 114.4 | 1.3 | 37.5 | 3 | 20” |
MT-CW72 | 72 | 24 | 102.9 | 146.1 | 1.42 | 47 | 3.1 | 20” |
MT-CW96 | 96 | 32 | 137.21 | 194 | 1.41 | 63.2 | 3.1 | 20” |
MT-CW120 | 120 | 40 | 171.5 | 250.8 | 1.46 | 75.1 | 3.3 | 20” |
MT-CW156 | 156 | 52 | 222.96 | 313.9 | 1.4 | 96.2 | 3.26 | 20” |
MT-CW180 | 180 | 60 | 257.26 | 345.6 | 1.34 | 105.4 | 3.27 | 20” |
MT-CW240 | 240 | 80 | 343 | 475.5 | 1.38 | 139.2 | 3.41 | 40” |
MT-CW312 | 312 | 104 | 445.93 | 622.7 | 1.4 | 178.6 | 3.48 | 40” |
MT-CW360 | 360 | 120 | 514.53 | 730.2 | 1.42 | 207.3 | 3.52 | 40” |
MT-CW480 | 480 | 160 | 686.05 | 2*475.5 | 1.38 | 2*139.2 | 3.41 | 40” |
MT-CW576 | 576 | 192 | 823.26 | 2*622.7 | 1.5 | 2*178.6 | 3.48 | 40” |
