Product Description
Product description:
D series evaporator is a kind of cooling equipment suitable for various cold storages such as quick freezing fresh keeping and etc. There are 3 types available: DL DD and DJ which fits for the different cold temperatures. It has compact structure and make full use of warehouse area which can make the storage food cool rapidly and improve the freshness of storage food. DL type is suitable for fresh-keeping storehouse around O degree DD type suitable for chiller room around -18 degree DJ type is suitable for freezer room around -25 degree.
The features as follows:
The evaporator are of reasonable structure uniform frosting and high efficiency heat exchange;
The shell is made of quality steel with surface plastic-sprayedwhich is corrosion-resistant and beautiful;
The evaporator are assembled with quality fan motor with low noise big air volume and stable operation;
The evaporator adopt U-shaped stainless copper pipe evenly put into the fins which can shorten the defrosting time;
The shell materials can be produced according to customer’s requirement;
The evaporator are tested under air pressure2. 5MPa guaranteeing the products’ high gas tightness.
Product parameters:
Tech.data for Box L type condensing units
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| Model | Heat exchange capacity (kW) |
Adapter type (HP) |
Fan | Inlet pipe/ Outlet pipe(mm) | Overall dimension(mm) | Installation dimension(mm) | |||||
| Power (w) |
Diameter (mm) |
Air volume (m3/h) |
Vlotage (v) |
Inlet tube (mm) |
Back trachea (mm) |
A*B*H | D | E | |||
| FNL-20 | 6.6 | 2 | 1*190 | Ļ400 | 1*3800 | 380 | Ļ10 | Ļ16 | 1110*500*790 | 590 | 440 |
| FNL-29 | 9.6 | 3 | 1*190 | Ļ400 | 1*3800 | 380 | Ļ10 | Ļ16 | 1110*500*790 | 590 | 440 |
| FNL-39 | 12.5 | 4 | 1*190 | Ļ400 | 1*3800 | 380 | Ļ10 | Ļ16 | 1110*500*790 | 590 | 440 |
| FNL-48 | 15.9 | 5 | 2*190 | Ļ400 | 2*3800 | 380 | Ļ12 | Ļ19 | 1110*500*1240 | 590 | 440 |
| FNL-58 | 18.1 | 6 | 2*190 | Ļ400 | 2*3800 | 380 | Ļ12 | Ļ19 | 1110*500*1240 | 590 | 440 |
| FNL-68 | 20.5 | 7 | 2*190 | Ļ400 | 2*3800 | 380 | Ļ12 | Ļ19 | 1110*500*1240 | 590 | 440 |
| FNL-70 | 22.4 | 8 | 2*230 | Ļ450 | 2*5000 | 380 | Ļ16 | Ļ22 | 1230*560*1240 | 840 | 500 |
| FNL-80 | 25.6 | 9 | 2*230 | Ļ450 | 2*5000 | 380 | Ļ16 | Ļ28 | 1230*560*1390 | 900 | 500 |
| FNL-90 | 28.8 | 10 | 2*230 | Ļ450 | 2*5000 | 380 | Ļ16 | Ļ35 | 1330*560*1390 | 940 | 500 |
| FNL-100 | 32.1 | 12 | 2*320 | Ļ500 | 2*6600 | 380 | Ļ16 | Ļ35 | 1430*560*1390 | 1040 | 500 |
| FNL-120 | 38.4 | 12~13 | 4*190 | Ļ400 | 4*3800 | 380 | Ļ16 | Ļ35 | 1630*630*1390 | 1110 | 570 |
| FNL-140 | 44.4 | 15 | 4*190 | Ļ450 | 4*5000 | 380 | Ļ16 | Ļ35 | 1730*630*1390 | 1210 | 570 |
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| Medium and High Temperature Air-Cooled Condensing Unit Scroll Series | |||||||
| Model of units | RX-FNL-02MH | RX-FNL-03MH | RX-FNL-04MH | RX-FNL-05MH | RX-FNL-06MH | ||
| Compressor model | ZB15KQ | ZB21KQ | ZB29KQ | ZB38KQ | ZB45KQ | ||
| Applicable Temperature(ĀŗC) | 0ĀŗC ~ -15ĀŗC | ||||||
| Refrigerant | R22 / R404A | ||||||
| Supply | 380V 50Hz | ||||||
| Condenser | Quantity of Fan(pcs) | 1 | 1 | 1 | 2 | 2 | |
| Air flow(m3/h) | 1*3800 | 1*3800 | 1*3800 | 2*3800 | 2*3800 | ||
| Power of Fan(w) | 1*190 | 1*190 | 1*190 | 2*190 | 2*190 | ||
| Ref.Capacity of condensing units |
Evaporating Temperature 0ĀŗC |
Ref. Capacity(w) |
4830/4670 | 7571/6690 | 9430/9480 | 11700/11950 | 14150/14000 |
| Power(w) | 1540/1720 | 2270/2480 | 2890/3290 | 660/4150 | 4230/4700 | ||
| Evaporating Temperature -5ĀŗC |
Ref. Capacity(w) | 4000/3820 | 5820/5740 | 7810/7790 | 9710/9830 | 11750/11500 | |
| Power(w) | 1520/1760 | 2240/2500 | 2860/3310 | 3610/4180 | 4210/4730 | ||
| Evaporating Temperature -12ĀŗC |
Ref. Capacity(w) | 2990/2710 | 4350/4300 | 5840/5840 | 7260/7370 | 8840/8630 | |
| Power(w) | 1510/1840 | 2220/2510 | 2930/3330 | 3570/4200 | 4150/4760 | ||
| Coupling | Tube coupling | Ļ10 | Ļ10 | Ļ12 | Ļ12 | Ļ12 | |
| Suction coupling | Ļ16 | Ļ16 | Ļ19 | Ļ19 | Ļ19 | ||
| Overall dimension | Lenght (A) mm | 1110 | 1110 | 1110 | 1110 | 1110 | |
| Width (B) mm | 500 | 500 | 500 | 500 | 500 | ||
| Height (H) mm | 790 | 790 | 790 | 1240 | 1240 | ||
| Installation dimension | Lenght (D) mm | 590 | 590 | 590 | 590 | 590 | |
| Width (E) mm | 440 | 440 | 440 | 440 | 440 | ||
| Medium and High Temperature Air-Cooled Condensing Unit Scroll Series | |||||||
| Model of units | RX-FNL-07MH | RX-FNL-08MH | RX-FNL-10MH | RX-FNL-12MH | RX-FNL-15MH | ||
| CompressorModel | ZB48KQ | ZB58KQ | ZB76KQ | ZB88KQ | ZB114KQ | ||
| Applicable Temperature(ĀŗC) | 0ĀŗC ~ -15ĀŗC | ||||||
| Refrigerant | R22 / R404A | ||||||
| Supply | 380V 50HZ | ||||||
| Condenser | Quantity of Fan(pcs) | 2 | 2 | 2 | 4 | 4 | |
| Air flow(m3/h) | 2*5000 | 2*5000 | 2*7000 | 4*3800 | 5*5000 | ||
| Power of Fan(w) | 2*230 | 2*230 | 2*420 | 4*190 | 4*250 | ||
| Compressor Ref. Capacity |
Evaporating Temperature 0ĀŗC |
Ref. Capacity(w) | 15600/15750 | 18550/18600 | 24900/24700 | 28500 | 36200/36300 |
| Power(w) | 4650/5570 | 5470/6390 | 7180/8360 | 8130 | 10900/12700 | ||
| Evaporating Temperature -5ĀŗC |
Ref. Capacity(w) | 12950/13000 | 15100/15300 | 20600/20400 | 23500 | 29500/29700 | |
| Power(w) | 4630/5410 | 5460/6360 | 7130/8290 | 8070 | 10800/12650 | ||
| Evaporating Temperature -12ĀŗC |
Ref. Capacity(w) | 9730/9800 | 10900/11350 | 15450/15250 | 17550 | 21100/21900 | |
| Power(w) | 4570/5150 | 5470/6320 | 7040/8190 | 7970 | 1571/12650 | ||
| Coupling | Tube coupling | Ļ16 | Ļ16 | Ļ16 | Ļ16 | Ļ16 | |
| Suction coupling | Ļ22 | Ļ28 | Ļ35 | Ļ35 | Ļ35 | ||
| Overall dimension | Lenght (A) mm | 1230 | 1230 | 1430 | 1630 | 1730 | |
| Width (B) mm | 560 | 560 | 560 | 630 | 630 | ||
| Height (H) mm | 1240 | 1390 | 1390 | 1390 | 1490 | ||
| Installation dimension | Lenght (D) mm | 840 | 900 | 1040 | 1110 | 1210 | |
| Width (E) mm | 500 | 500 | 500 | 570 | 570 | ||
Case:
Why Choose Us:
1,Quick design
all these designs are ready for QUICK SHIPPING within 3 days after payment.
2,More discount
If you buy 10 pcs each design, you can get 5% DISCOUNT.
3,Quality agreements
we can CHINAMFG a quality agreements with you, which means we will accept refund all the money in case of quality.
4,Small MOQ
We welcomed small orders, which means you can buy 1 pc only to check our quality before big order.
5,VIP SERVICE
We will provide 24h services, and set a special email for you. We will response you in 10 minutes at anytime.
Packaging:
Company Information:
ZHangZhoug CHINAMFG Refrigeration Technology Co., LTD founded in located in HangZhou,ZHangZhoug Province, which is near to HangZhou and HangZhou.
We are a manufacturer engaged in the production of semi-hermetic refrigeration compressors, the assembly of various brands of compressors and the processing, design and maintenance of spare parts.
Our main products cover all kinds of cold storage, cold storage, fresh keeping and other cold storage and constant temperature workshops, industrial chillers, various types of non-standard process refrigeration and other equipment. We also have a strong R&D team that independently developed box condensing units, open units, water-cooled compression condensing units, air-cooled condensing units, all-in-1 and split units, low-temperature screw units, parallel units, industrial chillers, D series Air cooler, series double-sided side outlet air cooler, water flush frost air cooler series, air-cooled condenser series, etc. Products are exported to more than 80 countries and regions around the world.
Our philosophy is “technology leads industry, service creates market”. We adhere to the first-class technology, first-class products, first-class service, and constantly meet the needs of customers.
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| Warranty: | 1 Year |
|---|---|
| Type: | Air-Cooled |
| Cooling Water: | Seawater |
| System Type: | Open System |
| Fans Species: | Axial Fan |
| Noise Level: | Low |
| Customization: |
Available
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What Safety Precautions Should Be Taken When Operating Screw Compressors?
When operating screw compressors, it is important to follow specific safety precautions to ensure the well-being of personnel and prevent potential accidents. Here’s a detailed explanation:
1. Familiarize Yourself with the Equipment:
- Before operating a screw compressor, thoroughly read and understand the manufacturer’s instructions, safety guidelines, and operating procedures. Familiarize yourself with the specific features, controls, and safety devices of the compressor.
2. Wear Appropriate Personal Protective Equipment (PPE):
- Wear the necessary PPE, such as safety glasses, hearing protection, gloves, and appropriate clothing, when operating the compressor. PPE helps protect against potential hazards, including flying debris, noise, and contact with hot or moving parts.
3. Ensure Proper Ventilation:
- Operate the screw compressor in a well-ventilated area to prevent the buildup of potentially harmful gases or fumes. Ensure that the compressor’s intake and exhaust vents are not obstructed, allowing for adequate airflow.
4. Compressor Location:
- Position the compressor on a stable and level surface to prevent tipping or instability during operation. Ensure that the compressor is located away from flammable materials, heat sources, or sources of ignition.
5. Electrical Safety:
- Follow electrical safety guidelines and ensure that the compressor is properly grounded. Avoid using damaged or frayed electrical cords and ensure that the electrical connections are secure.
6. Lockout/Tagout Procedures:
- Before performing any maintenance or repair tasks on the compressor, follow lockout/tagout procedures to isolate electrical power and prevent accidental startup. Lockout/tagout procedures help protect against unexpected energization of the compressor or its components.
7. Pressure Relief:
- Before performing any maintenance tasks or opening the compressor, ensure that all pressure has been relieved from the system. Follow proper procedures for depressurizing the compressor and associated piping to avoid sudden releases of pressure.
8. Hot Surfaces:
- Be cautious of hot surfaces, such as compressor casings, piping, or discharge components. Allow sufficient cooling time before touching or performing maintenance tasks on hot surfaces to avoid burns.
9. Maintenance and Inspection:
- Adhere to the manufacturer’s recommended maintenance schedule and perform regular inspections of the compressor. Replace any worn or damaged components promptly to prevent potential hazards or malfunctions.
10. Emergency Procedures:
- Be familiar with emergency procedures, including how to shut down the compressor in case of an emergency, how to respond to leaks or spills, and how to handle fire or electrical incidents. Have emergency contact information readily available.
11. Training and Qualified Personnel:
- Ensure that operators and maintenance personnel are adequately trained in the safe operation and maintenance of screw compressors. Only allow qualified personnel to perform maintenance or repair tasks.
It is essential to consult the specific safety guidelines provided by the manufacturer of the screw compressor as they may include additional precautions or recommendations.
In summary, when operating screw compressors, it is important to familiarize yourself with the equipment, wear appropriate PPE, ensure proper ventilation, follow electrical safety measures, implement lockout/tagout procedures, be cautious of hot surfaces, perform regular maintenance and inspections, and be prepared with emergency procedures. By following these safety precautions, the risk of accidents or injuries can be minimized, ensuring a safe working environment when operating screw compressors.
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How Do Screw Compressors Contribute to Energy Savings?
Screw compressors offer several features and advantages that contribute to energy savings. Here’s a detailed explanation:
1. Efficient Compression Process:
Screw compressors are known for their efficiency in compressing air or gas. They use a unique rotary screw design, where two intermeshing screws rotate to compress the air. This design provides continuous and smooth compression, resulting in less energy loss compared to other compression technologies, such as reciprocating compressors. The efficient compression process of screw compressors helps reduce energy consumption.
2. Load and Unload Operation:
Screw compressors often incorporate load and unload operation, also known as capacity control. This feature allows the compressor to match its output to the actual demand for compressed air. During periods of lower demand, the compressor unloads by disengaging some of its capacity. This reduces power consumption since the compressor is not operating at full load continuously. By adjusting the compressor’s output to match the required air flow, load and unload operation helps save energy.
3. Variable Speed Drive (VSD) Technology:
Many screw compressors are equipped with Variable Speed Drive (VSD) technology. A VSD allows the compressor’s motor speed to be adjusted according to the demand for compressed air. By running the compressor at lower speeds during periods of lower demand, the energy consumption can be significantly reduced. The VSD technology enables precise control over the compressor’s output, resulting in energy savings and improved efficiency.
4. Air Leakage Reduction:
A common source of energy loss in compressed air systems is air leakage. Screw compressors are designed to minimize air leakage through improved sealing mechanisms and enhanced construction materials. By reducing air leakage, the compressor can operate more efficiently, as less energy is wasted in compressing air that escapes before reaching the intended point of use. Regular maintenance and monitoring practices help identify and address air leakage issues, further contributing to energy savings.
5. Integrated Energy Recovery:
In certain applications, screw compressors can be configured to recover and utilize the heat generated during the compression process. This recovered heat can be used for various purposes, such as space heating, preheating process air or water, or powering other thermal processes. By utilizing the recovered heat energy, screw compressors enhance overall energy efficiency and reduce the need for additional heating systems.
6. System Optimization and Controls:
Screw compressors often feature advanced control systems that optimize their operation for energy efficiency. These control systems monitor various parameters, such as system pressure, air demand, and temperature, and adjust the compressor’s operation accordingly. By continuously analyzing the system requirements and making intelligent adjustments, the control systems help minimize energy waste and maintain optimal performance.
7. Maintenance and Proper Operation:
Regular maintenance and proper operation of screw compressors are essential for maximizing energy savings. Routine maintenance activities, such as cleaning air filters, checking lubrication levels, and inspecting and repairing leaks, ensure the compressor operates at peak efficiency. Additionally, proper operation practices, such as avoiding excessive idling or overloading, contribute to energy savings and prolong the compressor’s lifespan.
In summary, screw compressors contribute to energy savings through their efficient compression process, load and unload operation, variable speed drive technology, air leakage reduction, integrated energy recovery, system optimization, and proper maintenance and operation. By utilizing these features and implementing energy-conscious practices, industries can significantly reduce energy consumption and lower operating costs in compressed air systems.
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Can Screw Compressors Handle High-Pressure Applications?
Yes, screw compressors are capable of handling high-pressure applications. Here’s a detailed explanation:
Screw compressors are known for their ability to deliver high-pressure compressed air or gas. The design of screw compressors allows them to achieve higher pressure ratios compared to other types of compressors, such as reciprocating piston compressors.
The compression process in screw compressors is continuous and smooth, which enables them to handle high-pressure requirements efficiently. The intermeshing rotors create compression chambers that gradually reduce in volume, resulting in the compression of air or gas. By adjusting the rotational speed of the rotors and optimizing the design parameters, screw compressors can generate the desired high discharge pressures.
However, it’s important to note that the maximum pressure capability of a screw compressor may vary depending on factors such as:
- 1. Compressor Design: The design features of the screw compressor, including the rotor profile, sealing mechanism, and cooling system, can influence its maximum pressure capacity.
- 2. Rotor Size and Speed: The size and rotational speed of the rotors impact the compression ratio and, consequently, the achievable discharge pressure. Larger rotors and higher rotational speeds generally allow for higher pressure ratios.
- 3. Drive Power: The power of the drive motor connected to the screw compressor affects its ability to handle high-pressure applications. Adequate power is necessary to overcome the resistance and maintain the desired compression ratio.
- 4. Structural Integrity: The structural integrity and material strength of the compressor housing, rotors, and other components determine the maximum pressure that the compressor can withstand without failure or leakage.
It’s important to select a screw compressor with the appropriate specifications and consult the manufacturer’s guidelines to ensure that it can handle the specific high-pressure requirements of the application.
Additionally, it’s worth noting that high-pressure applications may also require additional equipment, such as pressure vessels or downstream pressure regulators, to safely handle and control the compressed air or gas at the desired pressure levels.
editor by CX 2024-05-15