Product Description
50kW Industrial Glycol Cooling Air-Cooled Mini Water Chiller withĀ Compressor for Laser
Cooling Capacity 8 kW ~ 50 kW
Our Products Range
Characteristics
Structure
Panels and base frame are made from galvanized steel protected with polyester powder painting to ensure totalĀ resistance to atmospheric agents
compressor
Hermetic scroll type compressor, equipped with the crankcase heater and thermal protection with thermalĀ overload cut-out and crankcase heater mounted on rubber vibration isolators
Axial fan
External rotor type axial fans, equipped with single phase direct drive motors, low noise 6 poles, protection levelĀ IP54, provided with a protective outlet grille
Evaporator
High efficiency and low pressure drop stainless steel (AISI 316) water exchangers, with anti-freeze heatingĀ element (option) and differential pressure switch, factory insulated with flexible close cell material
Condenser
Coils are consisting of seamless copper tubes mechanically expanded into blue hydrophilic aluminum fins,100% fully quality tested; sub cooling circuit to prevent freezing at the base (optional); protected with metal grill
Desuperheater
High efficiency stainless steel brazed plate heat exchanger, factory insulated with flexible close cell material(optional)
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Refrigerant circuit
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Copper tube connection with charge valve, filter, sight glass, gas-liquid separator, thermostatic expansion valve,Ā low pressure switch with automatic reset, high pressure switch with manual reset .Ā The heat pump unit is completed also with 4-way valve, liquid receiver and 1 way valve
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Water circuit
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Built with air vent valve, water drain connection, and female-threaded hydraulic connectors
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Water pump (8kW-30kW), differential pressure switch
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Expansion tank (8kW-30kW)
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Electric panel
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Consists of:
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Compressor contactor
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Compressor protection breaker
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Fan motor protection breaker
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Control circuit protection breaker
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Phase sequence relay (only for 3-phase)
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Programmable microprocessor controller
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Optional
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Additional electric heater embedded in the coils for defrosting in low temperature ambient. It must be factoryĀ installed
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Stainless steel covering
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Remote condenser
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Tube in tube heat exchanger
Water circuit electric heater
Technical Data
| ModelĀ Ā | Unit | 20 | 25 | 30 | 35 | 40 | 50 |
| CoolingĀ * | Ā | ||||||
| CoolingĀ capacity | kW | 21.5 | 24.8 | 30 | 35.6 | 41 | 50.6 |
| CoolingĀ inputĀ (withoutĀ waterĀ pump) | kW | 8.2 | 9.03 | 9.39 | 13.2 | 15.02 | 18.8 |
| EER | / | 2.62 | 2.75 | 3.19 | 2.7 | 2.73 | 2.69 |
| HeatingĀ ** | Ā | ||||||
| HeatingĀ capacity | kW | 26.3 | 29 | 34 | 41.8 | 47.2 | 60 |
| HeatingĀ inputĀ (withoutĀ waterĀ pump) | kW | 8.7 | 9.23 | 9.43 | 14.3 | 15.57 | 20.45 |
| COP | / | 3.02 | 3.14 | 3.61 | 2.92 | 3.03 | 2.93 |
| HermeticĀ compressor | Ā | ||||||
| Type | / | Ā | |||||
| Quantity/Ā circuit | / | 2/2 | 2/2 | 2/2 | 2/2 | 2/2 | 2/2 |
| Evaporator | Ā | ||||||
| Type | / | Ā | |||||
| WaterĀ flow | m3/h | 3.7 | 4.3 | 5.2 | 6.1 | 7.1 | 8.7 |
| WaterĀ sideĀ pressureĀ drop | kPa | 38 | 39 | 42 | 50 | 52 | 52 |
| WaterĀ connectionĀ size | mm | DN40 | DN40 | DN40 | DN40 | DN40 | DN40 |
| CirculatingĀ pump | Ā | ||||||
| PowerĀ input | kW | 0.75 | 0.75 | 0.92 | ——— | ——— | ———– |
| AxialĀ fans | Ā | ||||||
| Quantity | Nr. | 1 | 1 | 1 | 2 | 2 | 2 |
| Airflow | m3/h | 9000 | 9000 | 12580 | 17000 | 17000 | 22000 |
| OveralĀ dimension | Ā | ||||||
| Length | mm | 1600 | 1600 | 1600 | 2000 | 2000 | 2000 |
| Width | mm | 900 | 900 | 900 | 900 | 900 | 900 |
| Height | mm | 1080 | 1080 | 1080 | 1080 | 1080 | 1080 |
| NoiseĀ levelĀ *** | dB(A) | 66 | 66 | 68 | 70 | 70 | 70 |
| NetĀ weight | kg | 270 | 290 | 310 | 360 | 380 | 465 |
* Ambient temperature 35ĀŗC; user side water in/out 12/7ĀŗC.
**Ā Ambient temperature 7ĀŗC; user side water in/out 40/45ĀŗC.
*** Sound pressure measured at a distance of 1 m and a height of 1.5 m above the ground in an ideal field (fan side).
Production Process
World Famous Spare Parts
Product Pictures
Our Factory and Certificates
Some Simple Overseas Projects
Contact Us
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| Type: | Central Air Conditioners |
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| Capacity: | 20 Kw – 50kw |
| Usage: | Room, Commercial Building |
| Samples: |
US$ 2500/Piece
1 Piece(Min.Order) | Order Sample |
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| Customization: |
Available
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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| Payment Method: |
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Initial Payment Full Payment |
| Currency: | US$ |
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| Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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What Is the Role of Heat Exchangers in Scroll Compressor Systems?
Heat exchangers play a crucial role in scroll compressor systems by facilitating the transfer of heat between different fluid streams. They are essential components that contribute to the overall efficiency and performance of HVAC (Heating, Ventilation, and Air Conditioning) systems. Here’s a detailed explanation of the role of heat exchangers in scroll compressor systems:
1. Heat Transfer:
The primary function of heat exchangers is to transfer heat between two fluid streams while keeping them physically separated. In the context of scroll compressor systems, heat exchangers facilitate the transfer of heat between the refrigerant and the air or water in the HVAC system.
2. Evaporator:
One type of heat exchanger commonly used in scroll compressor systems is the evaporator. The evaporator acts as a heat exchanger where the refrigerant absorbs heat from the surrounding air or water, causing it to evaporate and change from a liquid to a gaseous state. This heat absorption process cools the air or water in the HVAC system, providing the desired cooling effect.
3. Condenser:
Another type of heat exchanger in scroll compressor systems is the condenser. The condenser facilitates the transfer of heat from the refrigerant to the ambient air or a separate water loop. As the refrigerant releases heat, it undergoes a phase change from a gaseous state to a liquid state. The condenser helps dissipate the heat extracted from the conditioned space to the surroundings, allowing the refrigerant to be ready for the next cooling cycle.
4. Efficiency and Performance:
Heat exchangers play a vital role in improving the efficiency and performance of scroll compressor systems. By transferring heat effectively, they enable the compressor to operate at optimum conditions, enhancing energy efficiency and reducing power consumption. Efficient heat transfer also contributes to maintaining a stable temperature and humidity level in the conditioned space, ensuring occupant comfort.
5. Air-to-Air and Air-to-Water Systems:
Depending on the specific HVAC system design, heat exchangers in scroll compressor systems can be configured as air-to-air or air-to-water heat exchangers. In air-to-air systems, the heat exchangers transfer heat between the refrigerant and the air circulating within the HVAC system. In air-to-water systems, the heat exchangers enable heat transfer between the refrigerant and a separate water loop, which can be used for various purposes such as radiant floor heating or domestic hot water production.
6. Coils and Fins:
Heat exchangers in scroll compressor systems often consist of coils and fins to maximize the heat transfer surface area. The coils provide a pathway for the fluid flow, while the fins increase the surface area exposed to the air or water, promoting efficient heat exchange. The design and arrangement of the coils and fins are optimized to enhance heat transfer and minimize pressure drop.
Overall, heat exchangers play a critical role in scroll compressor systems by facilitating heat transfer between the refrigerant and the air or water in the HVAC system. They contribute to the efficiency, performance, and comfort provided by the system, allowing for effective cooling and heating operations.
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What is the Noise Level of Scroll Compressors?
The noise level of scroll compressors can vary depending on several factors. Here’s a detailed explanation:
1. Design and Construction:
The design and construction of scroll compressors are engineered to minimize noise levels. They typically feature advanced noise reduction measures, such as vibration isolation, sound-absorbing materials, and optimized airflow paths. The internal components and scroll elements are designed to operate smoothly and quietly, reducing noise generation.
2. Operating Speed:
The operating speed of the scroll compressor can affect its noise level. Generally, lower-speed compressors tend to produce less noise compared to higher-speed models. However, the specific noise characteristics can vary depending on the design and engineering of the compressor.
3. Sound Dampening Features:
Scroll compressors often incorporate sound dampening features to further reduce noise emissions. These features may include insulated panels or enclosures, noise-absorbing materials, and specialized compressor mounts that minimize vibration transmission. These measures help to contain and absorb noise, resulting in quieter operation.
4. Application and Environment:
The noise level of a scroll compressor can also be influenced by the application and environment in which it is installed. For example, compressors installed in outdoor units or in large mechanical rooms may have less perceived noise impact compared to those installed in smaller enclosed spaces. Additionally, factors such as surrounding structures, acoustic insulation, and distance from occupied areas can affect the perceived noise level.
5. Manufacturer Specifications:
Manufacturers provide noise level specifications for their scroll compressors, typically expressed in decibels (dB). These specifications indicate the sound power level or sound pressure level at a specific distance from the compressor. It’s important to review the manufacturer’s specifications to understand the expected noise level of a particular scroll compressor model.
6. Compliance with Regulations:
Scroll compressors must comply with applicable noise regulations and standards in different regions. These regulations define permissible noise limits for various applications and environments. Manufacturers design and test their compressors to meet these regulations, ensuring that the noise emissions are within acceptable limits.
7. Noise Reduction Strategies:
If noise reduction is a significant concern, additional strategies can be implemented to further minimize the noise level of scroll compressors. These strategies may include using additional sound insulation, installing barriers or acoustic enclosures, incorporating silencers or attenuators in the system’s ductwork, or selecting compressor models specifically designed for low-noise applications.
It’s important to note that the actual noise level of a scroll compressor can vary depending on the specific model, operating conditions, and installation factors. Consulting the manufacturer’s specifications and working with HVAC professionals can help in selecting the most appropriate scroll compressor with a noise level that meets the requirements of the intended application.
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Can Scroll Compressors Handle High-Pressure Applications?
Scroll compressors are capable of handling high-pressure applications, but there are certain considerations to keep in mind. Here’s a detailed explanation:
1. Pressure Ratings:
Scroll compressors are designed to operate within specific pressure ratings. The maximum pressure handling capacity of a scroll compressor is determined by its construction, materials, and design specifications. Manufacturers provide pressure ratings for their scroll compressors, indicating the maximum pressure at which the compressor can safely and reliably operate. It’s important to select a scroll compressor with a pressure rating suitable for the intended high-pressure application.
2. System Design:
The overall system design plays a crucial role in handling high-pressure applications. The components connected to the scroll compressor, such as the condenser, evaporator, and piping, should also be designed and rated to withstand the high pressures. Proper sizing, selection, and installation of these components are essential to ensure the safe and efficient operation of the entire system.
3. Refrigerant Type:
The choice of refrigerant used in the high-pressure application can impact the suitability of scroll compressors. Different refrigerants have varying pressure requirements and properties. It’s important to ensure that the scroll compressor is compatible with the specific refrigerant being used in the high-pressure system.
4. Cooling and Lubrication:
High-pressure applications can generate more heat, which may require enhanced cooling measures. Proper cooling mechanisms, such as fans or additional heat exchangers, should be incorporated into the system design to maintain the compressor’s operating temperature within acceptable limits. Additionally, adequate lubrication is crucial to minimize friction and wear at higher pressures. Ensuring the proper lubrication system is in place is essential for the reliable operation of scroll compressors in high-pressure applications.
5. Manufacturer Guidelines:
It’s important to consult the manufacturer’s guidelines and documentation for specific recommendations regarding the use of scroll compressors in high-pressure applications. Manufacturers provide detailed information on the maximum pressure ratings, refrigerant compatibility, cooling requirements, lubrication recommendations, and other important considerations specific to their scroll compressor models.
While scroll compressors can handle high-pressure applications, it’s critical to ensure that the compressor is appropriately selected, the system design is suitable, and all necessary precautions are taken to maintain safe and reliable operation. By following manufacturer guidelines and working with experienced HVAC professionals, scroll compressors can effectively handle high-pressure applications while maintaining their performance and longevity.
editor by CX 2024-04-23