Product Description
Compressor Description
Bitz High Quality Refrigeration Unit with Semi-Hermetical Compressor (2KC-05.2Y)/2KES-05
Bitz Refrigeration AC Semi-Hermetic Compressor (4VCS-10.2Y)
Bitz Semi-Hermetic Compressor
Based on 1 technical concept, our semi-hermetic reciprocating compressors cover the entire spectrum of applications of conventional, chlorine-free HFC as well as natural refrigerants.
They distinguish themselves by a robust valve plate design, a high quality and wear resistant drive gear, are easy-to-service and offer good speed control at minimum energy requirements as well as extremely smooth running. In addition, they incorporate an efficient, suction gas cooled integrated motor.
The OCTAGON series of compressors additionally excels by extremely compact dimensions and even further increased smooth running.
| Technical data and Performance data | ||||||||||
| compressor type |
Motor version | DispIace-ment 50/60Hz |
Refrigerating capacity Qo | Oil Charge | Motor connection | Max. operating current |
Max. power consum |
|||
| R134a | R407C | |||||||||
| to/tc 5ºC/50ºC |
to/tc -10ºC/45ºC |
to/tc 5ºC/50ºC |
to/tc -10ºC/45ºC |
|||||||
| m3/h | W | W | W | W | dm3 | A | KW | |||
| CSH6553-35Y | 2 | 137/165 | 75600 | 41400 | – | – | 9,5 | 400V(±10%)/-3-50Hz 460V(±10%)/-3-60Hz Part Winding — 400V(±10%)-3-50Hz 460V(±10%)-3-60Hz Y/ |
58 | 34 |
| CSH6553-50(Y) | 1 | 75100 | 41600 | 106400 | 61900 | 86 | 52 | |||
| CSH6563-40Y | 2 | 170/205 | 94300 | 52400 | – | – | 9,5 | 66 | 41 | |
| CSH6563-60(Y) | 1 | 94300 | 52300 | 133700 | 77700 | 108 | 65 | |||
| CSH6583-50Y | 2 | 195/236 | 108800 | 60700 | 10 | 81 | 51 | |||
| CSH6593-60Y | 2 | 220/266 | 122800 | 68500 | 10 | 105 | 56 | |||
| CSH7553-50Y | 2 | 197/238 | 106700 | 57800 | – | – | 15 | 79 | 52 | |
| CSH7553-70(Y) | 1 | 108400 | 58600 | 155000 | 89200 | 128 | 78 | |||
| CSH7563-60Y | 2 | 227/274 | 125800 | 68200 | – | – | 15 | 98 | 65 | |
| CSH7563-80(Y) | 1 | 125000 | 68100 | 175400 | 101700 | 144 | 88 | |||
| CSH7573-70Y | 2 | 258/311 | 144600 | 78500 | – | – | 15 | 124 | 78 | |
| CSH7573-90(Y) | 1 | 145000 | 79700 | 203600 | 119900 | 162 | 96 | |||
| CSH7583-80Y | 2 | 295/356 | 168600 | 93200 | – | – | 15 | 144 | 88 | |
| CSH7583-(100Y) | 1 | 169100 | 94200 | 238200 | 141700 | 170 | 102 | |||
| CSH7593-90Y | 2 | 336/406 | 192000 | 106200 | – | – | 15 | 162 | 96 | |
| CSH7593-110(Y) | 1 | 192500 | 15710 | 270500 | 160800 | 180 | 112 | |||
| CSH8553-80Y | 2 | 315/380 | 177500 | 97300 | – | – | 22 | 144 | 88 | |
| CSH8553-110(Y) | 1 | 181700 | 102600 | 256900 | 151800 | 185 | 112 | |||
| CSH8563-90Y | 2 | 359/433 | 204600 | 112200 | – | – | 22 | 155 | 96 | |
| CSH8563-125(Y) | 1 | 207000 | 117000 | 293000 | 173000 | 216 | 132 | |||
| CSH8573-110Y | 2 | 410/495 | 239600 | 133000 | – | – | 22 | 182 | 110 | |
| CSH8573-140(Y) | 1 | 239000 | 135100 | 383400 | 199800 | 246 | 150 | |||
| CSH8583-125Y | 2 | 470/567 | 264800 | 147300 | – | – | 19 | 196 | 120 | |
| CSH8583-160(Y) | 1 | 259500 | 143800 | 378900 | 217800 | 260 | 160 | |||
| CSH8593-140Y | 2 | 535/646 | 301400 | 167600 | – | – | 19 | 214 | 131 | |
| CSH8593-180(Y) | 1 | 357100 | 167500 | 454500 | 260300 | 310 | 186 | |||
| CSH9553-180(Y) | 1 | 535/646 | 303800 | 167800 | – | – | 30 | 400V(±10%)-3-50Hz 460V(±10%)-3-60Hz Y/ |
330 | 205 |
| 443700 | 254300 | |||||||||
| CSH9563-160Y | 2 | 615/742 | 357000 | 197400 | – | – | 30 | 280 | 155 | |
| CSH9563-210(Y) | 1 | 354300 | 197200 | 505000 | 294300 | 370 | 246 | |||
| CSH9573-180Y | 2 | 700/845 | 417200 | 230900 | – | – | 30 | 310 | 175 | |
| CSH9573-240(Y) | 1 | 409500 | 229700 | 601200 | 345100 | 420 | 255 | |||
| CSH9583-210Y | 2 | 805/972 | 480500 | 275710 | – | – | 30 | 320 | 204 | |
| CSH9583-280(Y) | 1 | 471900 | 265300 | 688900 | 398600 | 450 | 280 | |||
| CSH9593-240Y | 2 | 910/1098 | 546000 | 35710 | – | – | 30 | 360 | 222 | |
| CSH9593-300(Y) | 1 | 546000 | 35710 | 783000 | 453100 | 450 | 280 | |||
| CSH95103-280Y | 2 | 1015/1225 | 588200 | 328200 | – | – | 32 | 413 | 254 | |
| CSH95103-320(Y) | 1 | 588200 | 328200 | 868000 | 494600 | 566 | 305 | |||
| CSH95113-320Y | 2 | 1120/1351 | 644400 | 359000 | 32 | 447 | 277 | |||
Xihu (West Lake) Dis.r Technologies is a global supplier and marketer of CHINAMFG maintenance and compressor solutions for commercial and residential air conditioning,heating,ventilation and refrigeration field, manufacturing and other industrial applications.
Incorporated in 2571,our innovative products have been used by facilities and plant maintenance personnel CHINAMFG for the maintenance of CHINAMFG systems,and producion of AC and refrigerating equipment.Our products include CHINAMFG maintenance machines,refigeration equipment and compressors.
Core Markets Served:
Commercial/Residential/Maritime/Utility HVAC
Air Conditioning,Refrigerator,Coldroom,Heat Pump Manufacturing
Refrigeration Parts Wholesale and Retail
Certification:
Packaging & Shipping
FAQ
1. How long have you been in this field and where is your company?
We have been in this field for years and we are located in HangZhou, the Canton Fair host city, and the capital city of ZheJiang Province, near to HangZhou, Hong Kong, very convenient for trading and shipping.
2. What are your main catagories?
– Hermetic Compressor (scroll, rotary, reciprocating)
– Semi hermetic compressor (screw)
– CHINAMFG maintenance supplies
– Refrigeration equipment and parts
3.Can you offer us quality product at the best price?
Of course, Quality is our culture; we always take good care of our clients interest if both are sincere to establish good relationship.
4.What is the term of payment?
T/T, L/C,Western Union; Trade Assurance online.
5.How about the MOQ?
1 unit acceptable.
6. Cooperative Partners?
Gree, Landa, Media, GMCC, LG, Panasonic,Copeland, Maneurop, Performer, Hitachi,Highly, Mitsubishi, Secop, Embraco,Chigo, Haier, Sanyo, Wanbao, Sanhua,etc…
Contact Us
HangZhou Xihu (West Lake) Dis.r Technologies Co.,Ltd.
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| After-sales Service: | Video Technical Support, Online Support |
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| Warranty: | 1year |
| Installation Type: | Stationary Type |
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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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How Do You Select the Right Size Screw Compressor for Your Needs?
Choosing the right size screw compressor is crucial to ensure optimal performance, energy efficiency, and cost-effectiveness for your specific compressed air or gas requirements. Here’s a detailed explanation of the selection process:
Selecting the right size screw compressor involves considering several key factors:
- 1. Air or Gas Demand: Determine your compressed air or gas demand by assessing the total required flow rate (measured in cubic feet per minute or liters per second) and the operating pressure (measured in pounds per square inch or bar). This information helps establish the compressor’s capacity requirements.
- 2. Duty Cycle: Evaluate your operation’s duty cycle, which refers to the percentage of time the compressor will be running. Duty cycles can vary from continuous operation to intermittent or seasonal usage. The duty cycle affects the compressor’s sizing, as it determines the required compressor output and influences the compressor’s cooling and maintenance needs.
- 3. Ambient Conditions: Consider the environmental conditions in which the compressor will operate. Factors such as temperature, humidity, and altitude can impact the compressor’s performance and cooling requirements. Ensure that the selected compressor is suitable for the specific ambient conditions of your facility.
- 4. System Pressure Requirements: Determine the minimum and maximum operating pressure requirements for your application. This information is essential in selecting a compressor that can consistently deliver the required pressure range throughout its operating range.
- 5. Efficiency Considerations: Evaluate the energy efficiency of different compressor models. Look for compressors with high energy efficiency ratings, such as those certified by organizations like the Air Compressor and Gas Association (CAGI) or ENERGY STAR. Energy-efficient compressors can significantly reduce operating costs over the equipment’s lifespan.
- 6. Future Expansion: Consider any anticipated growth or changes in your compressed air or gas demand. If you expect increased demand in the future, it’s advisable to select a compressor with some extra capacity to accommodate future expansion without requiring immediate replacement.
- 7. Maintenance and Serviceability: Assess the maintenance requirements and serviceability of different compressor models. Look for features that make routine maintenance tasks, such as filter changes or oil checks, easily accessible and convenient. Consider the availability of service technicians and spare parts for the chosen compressor brand or model.
- 8. Manufacturer and Supplier Support: Research the reputation and track record of compressor manufacturers and suppliers. Choose established brands known for producing reliable, high-quality equipment. Consider factors such as warranty coverage, technical support availability, and the proximity of service centers.
Once you have gathered the necessary information and considered the factors mentioned above, you can consult with compressor manufacturers or suppliers who can provide expert advice and assist in selecting the right size screw compressor for your specific needs. They can perform detailed calculations, taking into account the factors discussed, to recommend a compressor that matches your requirements and provides optimal performance.
It’s important to note that selecting the right size screw compressor is a critical decision, and professional guidance is highly recommended to ensure an accurate assessment and proper matching of the compressor to your specific needs.
In summary, selecting the right size screw compressor involves assessing your compressed air or gas demand, duty cycle, ambient conditions, pressure requirements, efficiency considerations, future expansion plans, maintenance requirements, and manufacturer support. By considering these factors and seeking expert advice, you can choose a screw compressor that meets your needs and delivers reliable, efficient performance.
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What Is the Role of Control Systems in Screw Compressor Operation?
Control systems play a crucial role in the operation of screw compressors. Here’s a detailed explanation:
Screw compressors are complex machines that require precise control and monitoring for optimal performance and efficiency. Control systems provide the necessary intelligence and automation to regulate various aspects of screw compressor operation. Here are the key roles of control systems:
1. Start-up and Shutdown Control:
Control systems manage the start-up and shutdown sequences of screw compressors. During start-up, the control system ensures a gradual ramp-up of motor speed and system pressure to prevent sudden surges and excessive wear on components. During shutdown, it safely brings the compressor to a stop and performs necessary cooling and ventilation processes.
2. Load and Unload Control:
Screw compressors often feature load and unload operation to match compressed air supply with demand. The control system monitors system pressure, flow requirements, and other parameters to determine when to load or unload the compressor. It engages or disengages the compressor’s capacity control mechanism, such as inlet modulation valves or variable-speed drives, to maintain optimal operation at varying loads.
3. Pressure Control:
Control systems regulate the discharge pressure of screw compressors. They continuously monitor the system pressure and adjust compressor operation to maintain the desired pressure setpoint. The control system modulates the compressor’s capacity, adjusts the speed of the drive motor, or controls the opening and closing of inlet or discharge valves to achieve the target pressure.
4. Temperature Control:
Control systems monitor and control various temperature parameters within the screw compressor system. They ensure that the compressor operates within safe temperature limits by monitoring coolant temperatures, lubricant temperatures, and interstage or discharge temperatures. If temperature limits are exceeded, the control system may activate cooling mechanisms, adjust operating parameters, or trigger alarms and shutdowns to prevent damage.
5. Monitoring and Protection:
Control systems provide comprehensive monitoring and protection functions for screw compressors. They continuously collect data from various sensors and instruments, such as pressure sensors, temperature sensors, vibration sensors, and current sensors. The control system analyzes this data to detect abnormalities, malfunctions, or potential failures. It can initiate alarms, shutdowns, or safety interlocks to protect the compressor and associated equipment.
6. Energy Management:
Control systems optimize energy efficiency in screw compressor operation. They analyze system demand, performance characteristics, and energy consumption to make intelligent decisions regarding load modulation, capacity control, and motor speed adjustments. By optimizing the compressor’s operation, the control system helps reduce energy consumption, operating costs, and environmental impact.
7. Remote Monitoring and Control:
Modern control systems often offer remote monitoring and control capabilities. They can be integrated into supervisory control and data acquisition (SCADA) systems or connected to networked platforms. Remote access allows operators to monitor compressor performance, adjust operating parameters, receive alarms, and perform diagnostics from a central control room or via mobile devices.
In summary, control systems play a vital role in the operation of screw compressors by providing intelligent control, monitoring, and protection. They manage start-up and shutdown sequences, regulate load and unload operation, control pressure and temperature, monitor system parameters, optimize energy efficiency, and enable remote monitoring and control. By effectively managing the compressor’s operation, control systems contribute to reliable performance, energy efficiency, and overall system optimization.
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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 2024-03-08