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| Brand Name: | ANGES/SZAGS |
| Model Number: | ACK-40(F) |
| MOQ: | 1 |
| Price: | Negotiation |
| Packaging Details: | Plywood case |
| Payment Terms: | T/T, L/C |
40 Ton Air Cooled Scroll Type Water Chiller 144KW Air Cooled Industrial System for Extrusion Machine
The Benefits of Using SZAGS/ANGES Chillers:
Reliable Cooling: Our chillers provide dependable and consistent cooling, ensuring stable operating temperatures for various industrial processes and equipment.
Energy Efficiency: Featuring advanced energy-saving technologies, SZAGS/ANGES chillers reduce energy consumption and lower operating expenses.
Precise Temperature Control: With precise temperature regulation, our chillers maintain optimal conditions for your specific applications, enhancing product quality and consistency.
Extended Equipment Life: By controlling temperatures effectively, our chillers prevent overheating, protect sensitive equipment, and extend its lifespan while reducing maintenance requirements.
Eco-Friendly Performance: Designed with environmentally-friendly refrigerants, SZAGS/ANGES chillers contribute to sustainability by minimizing greenhouse gas emissions and protecting the ozone layer.
How to select the model of the chiller?
1. Determine Cooling Load:
Calculate the required cooling load for your application, expressed in tons of refrigeration (TR) or kilowatts (kW). Account for factors such as space size, heat generated by equipment, and external environmental conditions.
2. Type of Chiller:
3. Application and Environment:
Evaluate whether the chiller is intended for industrial processes, comfort cooling, or other applications. Consider the ambient temperature and environmental conditions at the installation site.
4. Energy Efficiency:
Select chillers with a high Coefficient of Performance (COP) or Energy Efficiency Ratio (EER). Models with variable speed drives (VSD) can optimize energy usage and improve efficiency.
5. Capacity Control:
Ensure the chiller can adjust its capacity to meet varying cooling loads. This feature enhances energy savings and overall efficiency.
6. Size and Footprint:
Confirm that the chiller’s size and footprint align with the available installation space.
7. Initial and Operating Costs:
Weigh the initial purchase price against long-term operating costs, including energy use and maintenance. Evaluate the total cost of ownership over the equipment’s lifespan.
8. Reliability and Maintenance:
Choose a chiller known for reliability and ease of maintenance. Check for good service support and the availability of spare parts.
9. Regulatory Compliance:
Verify that the chiller adheres to local regulations and standards, particularly those concerning environmental impact.
10. Manufacturer and Warranty:
Opt for reputable manufacturers that offer robust after-sales service, support, and comprehensive warranties.
Specification
|
Item Model |
ACK-40(F) | |
| nominal cooling capacity | kcal/h | 124253 |
| kw | 144.48 | |
| input power | kw | 39.52 |
| power supply | 3PH 440V 60Hz | |
| refrigerant | type | R407C |
| type of control | thermostatic expansion valve | |
| compressor | type | hermetic scroll |
| power(kw) | 32.4 | |
| condenser | type | finned copper tube + low noise outer rotor fan |
| power(kw) | 3.12 | |
| cooling air flow(m3/h) | 50000 | |
| evaporator | type | shell and tube |
| chilled fluid flow(m3/h) | 24.91 | |
| volume(L) | 345 | |
| inlet and outlet pipe diameter (inch) | 3 | |
| pump | power(kw) | 4 |
| lift(m) | 22 | |
| 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 | 1250 |
| dimension | mm | 2300*1800*2150 |
Note: The nominal cooling capacity is according to: Inlet chilled fluid temperature: 17℃,outlet chilled fluid temperature: 12℃.
FAQ
1. How does a chiller system work?
A chiller system operates with two separate circulations: one for process water and the other for refrigerant gas. The process water circulates through the system, absorbing heat from the application or process it is cooling. This heat is then transferred to the refrigerant, which circulates through the cooling system. The refrigerant absorbs the heat and carries it to either an air or water-cooled condenser, where the heat is expelled to the surroundings. This continuous process maintains a consistent cooling effect.
2.How to calculate cooling capacity for chillers?
Cooling Capacity(kw)= Flow Rate(m3/h)*Temp Change(T1-t2)/0.86
Heat Load= C(specific heat)* M(quality output per hour )*Temp Change(T1-T2)
3. How to maintain the chiller?
4. What kind of after-sales service can we provide?
24 hours Online support;
Video technical support;
Overseas third-party support available and etc.
|
| Brand Name: | ANGES/SZAGS |
| Model Number: | ACK-40(F) |
| MOQ: | 1 |
| Price: | Negotiation |
| Packaging Details: | Plywood case |
| Payment Terms: | T/T, L/C |
40 Ton Air Cooled Scroll Type Water Chiller 144KW Air Cooled Industrial System for Extrusion Machine
The Benefits of Using SZAGS/ANGES Chillers:
Reliable Cooling: Our chillers provide dependable and consistent cooling, ensuring stable operating temperatures for various industrial processes and equipment.
Energy Efficiency: Featuring advanced energy-saving technologies, SZAGS/ANGES chillers reduce energy consumption and lower operating expenses.
Precise Temperature Control: With precise temperature regulation, our chillers maintain optimal conditions for your specific applications, enhancing product quality and consistency.
Extended Equipment Life: By controlling temperatures effectively, our chillers prevent overheating, protect sensitive equipment, and extend its lifespan while reducing maintenance requirements.
Eco-Friendly Performance: Designed with environmentally-friendly refrigerants, SZAGS/ANGES chillers contribute to sustainability by minimizing greenhouse gas emissions and protecting the ozone layer.
How to select the model of the chiller?
1. Determine Cooling Load:
Calculate the required cooling load for your application, expressed in tons of refrigeration (TR) or kilowatts (kW). Account for factors such as space size, heat generated by equipment, and external environmental conditions.
2. Type of Chiller:
3. Application and Environment:
Evaluate whether the chiller is intended for industrial processes, comfort cooling, or other applications. Consider the ambient temperature and environmental conditions at the installation site.
4. Energy Efficiency:
Select chillers with a high Coefficient of Performance (COP) or Energy Efficiency Ratio (EER). Models with variable speed drives (VSD) can optimize energy usage and improve efficiency.
5. Capacity Control:
Ensure the chiller can adjust its capacity to meet varying cooling loads. This feature enhances energy savings and overall efficiency.
6. Size and Footprint:
Confirm that the chiller’s size and footprint align with the available installation space.
7. Initial and Operating Costs:
Weigh the initial purchase price against long-term operating costs, including energy use and maintenance. Evaluate the total cost of ownership over the equipment’s lifespan.
8. Reliability and Maintenance:
Choose a chiller known for reliability and ease of maintenance. Check for good service support and the availability of spare parts.
9. Regulatory Compliance:
Verify that the chiller adheres to local regulations and standards, particularly those concerning environmental impact.
10. Manufacturer and Warranty:
Opt for reputable manufacturers that offer robust after-sales service, support, and comprehensive warranties.
Specification
|
Item Model |
ACK-40(F) | |
| nominal cooling capacity | kcal/h | 124253 |
| kw | 144.48 | |
| input power | kw | 39.52 |
| power supply | 3PH 440V 60Hz | |
| refrigerant | type | R407C |
| type of control | thermostatic expansion valve | |
| compressor | type | hermetic scroll |
| power(kw) | 32.4 | |
| condenser | type | finned copper tube + low noise outer rotor fan |
| power(kw) | 3.12 | |
| cooling air flow(m3/h) | 50000 | |
| evaporator | type | shell and tube |
| chilled fluid flow(m3/h) | 24.91 | |
| volume(L) | 345 | |
| inlet and outlet pipe diameter (inch) | 3 | |
| pump | power(kw) | 4 |
| lift(m) | 22 | |
| 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 | 1250 |
| dimension | mm | 2300*1800*2150 |
Note: The nominal cooling capacity is according to: Inlet chilled fluid temperature: 17℃,outlet chilled fluid temperature: 12℃.
FAQ
1. How does a chiller system work?
A chiller system operates with two separate circulations: one for process water and the other for refrigerant gas. The process water circulates through the system, absorbing heat from the application or process it is cooling. This heat is then transferred to the refrigerant, which circulates through the cooling system. The refrigerant absorbs the heat and carries it to either an air or water-cooled condenser, where the heat is expelled to the surroundings. This continuous process maintains a consistent cooling effect.
2.How to calculate cooling capacity for chillers?
Cooling Capacity(kw)= Flow Rate(m3/h)*Temp Change(T1-t2)/0.86
Heat Load= C(specific heat)* M(quality output per hour )*Temp Change(T1-T2)
3. How to maintain the chiller?
4. What kind of after-sales service can we provide?
24 hours Online support;
Video technical support;
Overseas third-party support available and etc.
Address
Tianshenghu Village Group, Luoma Village QingxiTown,Dongguan
Tel
86-755-8958-3300
