|
| Brand Name: | Anges/SZAGS |
| Model Number: | ACK-15 |
| MOQ: | 1 |
| Price: | Negotiatible |
| Packaging Details: | Standard export wooden box |
| Payment Terms: | T/T, Western Union, MoneyGram |
15HP Industrial Air Cooled Water Chiller Glycol Chiller with Danfoss Scroll Compressor
How to select the model of the chiller?
1.Determine Cooling Load:
Calculate the cooling load required for your application. This is usually measured in tons of refrigeration (TR) or kilowatts (kW).
Consider factors like the size of the space, heat generated by equipment, and external environmental conditions.
2.Type of Chiller:
Air-cooled chillers: Typically used for smaller applications and are easier to install and maintain.
Water-cooled chillers: More efficient for larger applications but require cooling towers, more maintenance, and more space.
3.Application and Environment:
Assess whether the chiller will be used for industrial processes, comfort cooling, or other specific applications.
Consider the ambient temperature and environmental conditions where the chiller will be installed.
4.Energy Efficiency:
Look for chillers with high Coefficient of Performance (COP) or Energy Efficiency Ratio (EER).
Consider chillers with variable speed drives (VSD) for better energy management and efficiency.
5.Capacity Control:
Evaluate if the chiller can modulate its capacity to match the varying cooling load. This helps in saving energy and improving efficiency.
6.Size and Footprint:
Ensure the physical size and footprint of the chiller fit within the space available for installation.
7.Initial and Operating Costs:
Balance between the initial purchase cost and the operating costs (energy consumption, maintenance).
Consider the total cost of ownership over the chiller’s lifespan.
8.Reliability and Maintenance:
Check the reliability and ease of maintenance of the chiller.
Look for models with good service support and availability of spare parts.
9.Regulatory Compliance:
Ensure the cooler complies with local regulations and standards, including environmental regulations.
10.Manufacturer and Warranty:
Choose reputable manufacturers with good after-sales service and support.
By considering these factors and following these steps, you can select a chiller model that is efficient, reliable, and suitable for your specific application.
Specification
Technical Parameters of Industrial Air-cooled Chiller
|
Model Item |
ACK-15 | |
| nominal cooling capacity | kcal/h | 39732 |
| kw | 46.2 | |
| input power | kw | 15.06 |
| power supply | 3PH 380V 50Hz | |
| refrigerant | type | R407C |
| type of control | thermostatic expansion valve | |
| compressor | type | hermetic scroll |
| power(kw) | 12.46 | |
| condenser | type | finned copper tube + low noise outer rotor fan |
| cooling air flow(m3/h) | 15000 | |
| evaporator | type | shell and tube |
| chilled fluid flow(m3/h) | 7.97 | |
| volume(L) | 145 | |
| inlet and outlet pipe diameter(inch) | 2 | |
| pump | power(kw) | 1.5 |
| lift(m) | 20 | |
| safety protection | compressor overheating protection, over-current protection, high and low pressure protection, over-temperature protection,flow switch protection, phase sequence or missing phase protection, exhaust overheating protection | |
| weight | kg | 850 |
| dimension . | mm | 1900*1050*1800 |
Note: 1. Nominal cooling capacity is according to:
Inlet chilled fluid temperature: 17℃
Outlet chilled fluid temperature: 12℃
Inlet cooling air temperature: 30℃
Outlet cooling air temperature: 35℃
2. Working range:
The temperature range of chilled fluid is from 5℃ to 35℃;
Temperature difference between inlet and outlet chilled fluid is from 3℃ to 8℃.
It is better to use the chiller while the ambient temperature at or below 40℃.
We reserve the right to modify the above dimensions or parameters without further notice.
Air Cooled Water Chiller:
The air cooled chiller, also known as an air-cooled box-type industrial chiller unit, utilizes a air-cooled heat dissipation design. It draws surrounding air into the equipment using built-in fans and dissipates heat through a condenser, thereby reducing the system temperature. It does not require an additional water cooling system and is relatively easy to install and maintain.
Air cooled chiller is suitable for places with limited space or where sufficient cooling water cannot be provided. However, the cooling efficiency is affected by ambient temperature and humidity, so it is typically used in applications with lower heat loads. Each model is equipped with a range of safety features, including motor overload protection, phase loss and phase reversal alarms, anti-freeze thermostats, pressure gauges, and more. These chiller units demonstrate excellent performance and have a longer lifespan. Throughout the entire operating cycle, a series of steps based on the fundamental principles of heat exchange are followed. They are particularly suitable for industries that require precise control and regulation of chilled water temperature, allowing for precise control within the range of 3°C to 50°C, making them an important player in the modern industrial sector.
Working Principle:
When the air cooled chiller starts, the refrigerant absorbs the heat from the cooled object in the evaporator and vaporizes. The compressor continuously extracts the generated gas from the evaporator and compresses it into high-temperature, high-pressure vapor. The refrigerant vapor is then sent to the condenser, where it undergoes heat exchange with the air. After releasing heat, it condenses into a liquid. The liquid refrigerant, after being depressurized by the expansion valve, enters the evaporator where it vaporizes again, absorbing heat from the cooled object. This heat exchange process is repeated until the industrial water is cooled to the desired temperature.
Application:
Chillers are widely used in various industrial productions such as plastics, electronics manufacturing, electroplating, chemical engineering, ultrasonic cooling, and printing. They are employed in the cooling of molds for plastic processing machinery, significantly improving the surface smoothness of plastic products, reducing surface flaws and internal stress, preventing shrinkage and deformation, facilitating mold release, accelerating product shaping, and thus greatly enhancing the production efficiency and product quality of plastic molding machines.
Scroll Compressor:
The entire range of Anges air cooled chillers utilizes high-efficient scroll compressors. The compressor serves as the heart of the entire refrigerant cycle system. The scroll compressor adopts a dual-flex design, ensuring tight sealing between the scroll discs. This design allows the scroll discs to separate radially and axially, allowing debris or liquid to pass through without damaging the compressor. This results in increased compressor lifespan, enhanced reliability, better liquid tolerance, and improved tolerance for impurities.
Shell and Tube Evaporator:
The air cooled chiller utilizes a shell and tube evaporator. In this system, the refrigerant evaporates inside the heat exchange tubes, while water flows on the shell side. To enhance the heat exchange efficiency, a 2mm thick baffle plate is installed on the shell side, causing the water to flow back and forth to create ice brine. Additionally, to maintain a stable operating temperature, the exterior shell of the evaporator is covered with insulation material.
For the heat exchange tubes, we employ high-efficiency seamless copper tubes. These tubes undergo a grooving process to form internal thread fins, thereby increasing the heat exchange surface area with the refrigerant. With this technology, the heat transfer area is doubled, significantly improving the heat transfer efficiency.
Finned Type Condenser:
By adopting a high-efficiency copper tube with aluminum finned type condenser, the air cooled chiller effectively dissipates heat. The finned structure increases the heat exchange surface area between the condenser and the surrounding environment, improving the heat dissipation efficiency. The excellent thermal conductivity of copper tubes, combined with the efficient heat dissipation characteristics of aluminum fins, ensures high efficiency during the cooling process
Additionally, the application of Hydrophilic aluminum foil fin provides an additional protective layer. They help prevent corrosion of the copper tubes in corrosive environments, thereby extending the lifespan of the condenser and maintaining optimal refrigeration performance.
About after-sales service?
①24 hours Online support;
②Video technical support;
③Overseas third-party support available and etc.
|
|
| Brand Name: | Anges/SZAGS |
| Model Number: | ACK-15 |
| MOQ: | 1 |
| Price: | Negotiatible |
| Packaging Details: | Standard export wooden box |
| Payment Terms: | T/T, Western Union, MoneyGram |
15HP Industrial Air Cooled Water Chiller Glycol Chiller with Danfoss Scroll Compressor
How to select the model of the chiller?
1.Determine Cooling Load:
Calculate the cooling load required for your application. This is usually measured in tons of refrigeration (TR) or kilowatts (kW).
Consider factors like the size of the space, heat generated by equipment, and external environmental conditions.
2.Type of Chiller:
Air-cooled chillers: Typically used for smaller applications and are easier to install and maintain.
Water-cooled chillers: More efficient for larger applications but require cooling towers, more maintenance, and more space.
3.Application and Environment:
Assess whether the chiller will be used for industrial processes, comfort cooling, or other specific applications.
Consider the ambient temperature and environmental conditions where the chiller will be installed.
4.Energy Efficiency:
Look for chillers with high Coefficient of Performance (COP) or Energy Efficiency Ratio (EER).
Consider chillers with variable speed drives (VSD) for better energy management and efficiency.
5.Capacity Control:
Evaluate if the chiller can modulate its capacity to match the varying cooling load. This helps in saving energy and improving efficiency.
6.Size and Footprint:
Ensure the physical size and footprint of the chiller fit within the space available for installation.
7.Initial and Operating Costs:
Balance between the initial purchase cost and the operating costs (energy consumption, maintenance).
Consider the total cost of ownership over the chiller’s lifespan.
8.Reliability and Maintenance:
Check the reliability and ease of maintenance of the chiller.
Look for models with good service support and availability of spare parts.
9.Regulatory Compliance:
Ensure the cooler complies with local regulations and standards, including environmental regulations.
10.Manufacturer and Warranty:
Choose reputable manufacturers with good after-sales service and support.
By considering these factors and following these steps, you can select a chiller model that is efficient, reliable, and suitable for your specific application.
Specification
Technical Parameters of Industrial Air-cooled Chiller
|
Model Item |
ACK-15 | |
| nominal cooling capacity | kcal/h | 39732 |
| kw | 46.2 | |
| input power | kw | 15.06 |
| power supply | 3PH 380V 50Hz | |
| refrigerant | type | R407C |
| type of control | thermostatic expansion valve | |
| compressor | type | hermetic scroll |
| power(kw) | 12.46 | |
| condenser | type | finned copper tube + low noise outer rotor fan |
| cooling air flow(m3/h) | 15000 | |
| evaporator | type | shell and tube |
| chilled fluid flow(m3/h) | 7.97 | |
| volume(L) | 145 | |
| inlet and outlet pipe diameter(inch) | 2 | |
| pump | power(kw) | 1.5 |
| lift(m) | 20 | |
| safety protection | compressor overheating protection, over-current protection, high and low pressure protection, over-temperature protection,flow switch protection, phase sequence or missing phase protection, exhaust overheating protection | |
| weight | kg | 850 |
| dimension . | mm | 1900*1050*1800 |
Note: 1. Nominal cooling capacity is according to:
Inlet chilled fluid temperature: 17℃
Outlet chilled fluid temperature: 12℃
Inlet cooling air temperature: 30℃
Outlet cooling air temperature: 35℃
2. Working range:
The temperature range of chilled fluid is from 5℃ to 35℃;
Temperature difference between inlet and outlet chilled fluid is from 3℃ to 8℃.
It is better to use the chiller while the ambient temperature at or below 40℃.
We reserve the right to modify the above dimensions or parameters without further notice.
Air Cooled Water Chiller:
The air cooled chiller, also known as an air-cooled box-type industrial chiller unit, utilizes a air-cooled heat dissipation design. It draws surrounding air into the equipment using built-in fans and dissipates heat through a condenser, thereby reducing the system temperature. It does not require an additional water cooling system and is relatively easy to install and maintain.
Air cooled chiller is suitable for places with limited space or where sufficient cooling water cannot be provided. However, the cooling efficiency is affected by ambient temperature and humidity, so it is typically used in applications with lower heat loads. Each model is equipped with a range of safety features, including motor overload protection, phase loss and phase reversal alarms, anti-freeze thermostats, pressure gauges, and more. These chiller units demonstrate excellent performance and have a longer lifespan. Throughout the entire operating cycle, a series of steps based on the fundamental principles of heat exchange are followed. They are particularly suitable for industries that require precise control and regulation of chilled water temperature, allowing for precise control within the range of 3°C to 50°C, making them an important player in the modern industrial sector.
Working Principle:
When the air cooled chiller starts, the refrigerant absorbs the heat from the cooled object in the evaporator and vaporizes. The compressor continuously extracts the generated gas from the evaporator and compresses it into high-temperature, high-pressure vapor. The refrigerant vapor is then sent to the condenser, where it undergoes heat exchange with the air. After releasing heat, it condenses into a liquid. The liquid refrigerant, after being depressurized by the expansion valve, enters the evaporator where it vaporizes again, absorbing heat from the cooled object. This heat exchange process is repeated until the industrial water is cooled to the desired temperature.
Application:
Chillers are widely used in various industrial productions such as plastics, electronics manufacturing, electroplating, chemical engineering, ultrasonic cooling, and printing. They are employed in the cooling of molds for plastic processing machinery, significantly improving the surface smoothness of plastic products, reducing surface flaws and internal stress, preventing shrinkage and deformation, facilitating mold release, accelerating product shaping, and thus greatly enhancing the production efficiency and product quality of plastic molding machines.
Scroll Compressor:
The entire range of Anges air cooled chillers utilizes high-efficient scroll compressors. The compressor serves as the heart of the entire refrigerant cycle system. The scroll compressor adopts a dual-flex design, ensuring tight sealing between the scroll discs. This design allows the scroll discs to separate radially and axially, allowing debris or liquid to pass through without damaging the compressor. This results in increased compressor lifespan, enhanced reliability, better liquid tolerance, and improved tolerance for impurities.
Shell and Tube Evaporator:
The air cooled chiller utilizes a shell and tube evaporator. In this system, the refrigerant evaporates inside the heat exchange tubes, while water flows on the shell side. To enhance the heat exchange efficiency, a 2mm thick baffle plate is installed on the shell side, causing the water to flow back and forth to create ice brine. Additionally, to maintain a stable operating temperature, the exterior shell of the evaporator is covered with insulation material.
For the heat exchange tubes, we employ high-efficiency seamless copper tubes. These tubes undergo a grooving process to form internal thread fins, thereby increasing the heat exchange surface area with the refrigerant. With this technology, the heat transfer area is doubled, significantly improving the heat transfer efficiency.
Finned Type Condenser:
By adopting a high-efficiency copper tube with aluminum finned type condenser, the air cooled chiller effectively dissipates heat. The finned structure increases the heat exchange surface area between the condenser and the surrounding environment, improving the heat dissipation efficiency. The excellent thermal conductivity of copper tubes, combined with the efficient heat dissipation characteristics of aluminum fins, ensures high efficiency during the cooling process
Additionally, the application of Hydrophilic aluminum foil fin provides an additional protective layer. They help prevent corrosion of the copper tubes in corrosive environments, thereby extending the lifespan of the condenser and maintaining optimal refrigeration performance.
About after-sales service?
①24 hours Online support;
②Video technical support;
③Overseas third-party support available and etc.
Address
Tianshenghu Village Group, Luoma Village QingxiTown,Dongguan
Tel
86-755-8958-3300
