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China Hot selling CHINAMFG 100L 5HP Oil Free Slience Industrial Air Compressor air compressor repair near me

Product Description

          SINCE 1988
ZHangZhouG CHINAMFG PUMP INDUSTRY CO.,LTD.

Product Description


Xinya 100L CE Direct Driven Oil-free Air Compressor with 2 heads

Equipped with pressure regulator, pressure gauge, quick connect air outlet, safety valve, on/off switch.
Fully automatic control system aims at operation convenience, safety and reliability.
CE, ROHS, ISO9001 certificated.

Model Tank (L) Exhaust volume (L/min) Stroke (mm) Power (w) Voltage (V) Speed (r.p.i) Pressure (bar) G.W. (kg) Measurement (mm)
XY-338-100 100 711 14 1350*3 220/380 2650 8 83 103*36*62

Electric direct driven oil-free air compressors
1.Motor-direct driven oil-free
2.Motor with thermal protection system
3.Maintenance-free & permanent lubrication system
4.Aluminum cylinder head and crankcase for better heat dissipation   
5.Easy-open drain valve   
6.Regulator with gauge to show pressure
7.Quick connector is available      
8.Plastic coating tank

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Company Profile

Excellent Manufacturer
Established in 1988,ZHangZhoug CHINAMFG Pump Industry Co.,Ltd.Has been dedicated to the technology research,production-manufacturing,and marketing of air compressors,water pump and solar pumps.

We are ZHangZhoug key private enterprise and pioneering backbone enterprise. We have the most advanced technology in both production and management. We have a very powerful Research& Development team. We carry on strict monitoring and control to products by many kinds of advanced apparatus with third-party qualified laboratory.Welcome to inquiry!

Certifications

Exhibitions

FAQ

Q: Are you manufacturer or trading factory?
A: We are factory, located in HangZhou pump industry zone.

Q: What is your MOQ?
A:

Product ready good Customized goods
Vibration pump 1pc/model 1000pcs/model
Solar pump 1pc/model    50pcs/model
Direct-driven air compressor 1pc/model  100pcs/model
Belt-driven air compressor 1pc/model mixed model for 1*40HQ
Oil free air compressor 1pc/model 100pcs/model
Air pump 1pc/model 100pcs/model

Q: May OEM?
A: OK, pls provide your logo design files when PI is comfirmed.

Q: May I buy 1pc sample first? And How long?
A: Of course, we support sampling order, especially for new customers.
     Ready goods, within 3 working days; Customized goods, 15-45 days.

Q: What is your Payment terms?
A: Sample: 100% payment in advance
    Official order: 30% deposit TT and 70% balance against BL copy

Q: What about the warranty?
A: one-year quality guarantee policy. Money refunded if any quality issues come up.

Q: Where is the landing port?
A: HangZhou port, China. 
     If ZheJiang or other port, pls inform us in advance.

Q: May I visit your factory? Where?
A: Welcome to ZHangZhoug CHINAMFG Pump Industry Co.,ltd
     Address: DaXi Pump Industrial Zone, DaXi Town, WenLing City, ZheJiang Province, China.
     Nearest railway station: 1. HangZhou station, 2. HangZhou station, 3. HangZhou station;
     Nearest air port: 1. HangZhou airport, 2. HangZhou airport;

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After-sales Service: Top Service
Warranty: 1 Year
Lubrication Style: Oil-free
Cooling System: Air Cooling
Cylinder Arrangement: Balanced Opposed Arrangement
Cylinder Position: Vertical
Samples:
US$ 400/Piece
1 Piece(Min.Order)

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Request Sample

Customization:
Available

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air compressor

Can Water-Lubricated Air Compressors Be Used in Cold Climates?

Water-lubricated air compressors can be used in cold climates, but there are certain considerations and precautions to keep in mind. Here’s a detailed explanation of using water-lubricated air compressors in cold climates:

Freezing of Water:

  • Potential for Freezing: In cold climates, the water used for lubrication in water-lubricated compressors can freeze, which can cause operational issues and damage to the equipment. Freezing can occur in the water supply lines, lubrication system, or water jackets if the temperature drops below the freezing point of water.
  • Water Temperature: It is important to ensure that the water temperature remains above freezing throughout the compressor system. This can be achieved by using insulation, heat tracing, or heaters to maintain adequate water temperature. Monitoring the water temperature and implementing appropriate heating measures are crucial to prevent freezing-related problems.

Protection and Insulation:

  • Protecting External Components: External components of water-lubricated compressors, such as valves, fittings, and pipes, may be exposed to cold temperatures. Insulating these components can help prevent freezing and ensure their proper functioning. Insulation materials, such as foam wraps or heat tapes, can be used to provide thermal protection.
  • Water Supply Lines: Water supply lines that feed the compressor should be properly insulated and protected from freezing temperatures. Insulation can help maintain the water temperature and prevent freezing within the supply lines. Additionally, measures such as burying the supply lines below the frost line or using heat tracing cables can offer further protection against freezing.

Alternative Lubrication Methods:

  • Oil-Lubricated Compressors: In extremely cold climates, where freezing is a significant concern, using oil-lubricated compressors instead of water-lubricated ones may be a more practical option. Oil-based lubrication systems are less prone to freezing and can provide reliable operation in colder temperatures. However, it is important to consider the specific requirements and limitations of oil-lubricated compressors for the intended application.

Manufacturer Recommendations:

  • Consulting the Manufacturer: It is crucial to consult the manufacturer’s guidelines and recommendations regarding the use of water-lubricated compressors in cold climates. Manufacturers may provide specific instructions, modifications, or alternative solutions to ensure the safe and efficient operation of their equipment under cold weather conditions.

By implementing proper insulation, heating measures, and following the manufacturer’s guidance, water-lubricated air compressors can be used effectively in cold climates. It is important to assess the specific requirements of the application and consider the potential challenges associated with freezing temperatures to ensure the reliable and safe operation of the water-lubricated compressor system.

air compressor

How Do Water-Lubricated Air Compressors Compare in Terms of Maintenance Costs?

When comparing water-lubricated air compressors to other types of compressors, there are several factors that can influence the maintenance costs. Here’s a detailed explanation of how water-lubricated air compressors compare in terms of maintenance costs:

Initial Investment:

  • Higher Initial Cost: Water-lubricated air compressors tend to have a higher initial cost compared to oil-lubricated compressors. This is primarily due to the additional components required for the water-lubrication system, such as water pumps, filters, and separators. The higher initial investment can impact the overall cost of the compressor system.

Lubrication System Maintenance:

  • Water Treatment and Filtration: Water-lubricated compressors may require additional maintenance for water treatment and filtration systems. Regular monitoring, maintenance, and replacement of filters or treatment media are necessary to ensure the water quality remains suitable for lubrication. The cost of water treatment and filtration maintenance should be considered in the overall maintenance costs.
  • Water Quality Monitoring: Monitoring the quality of the water used in water-lubricated compressors is crucial. This may involve periodic water analysis, temperature monitoring, and water chemistry checks. The cost of water quality monitoring should be factored into the maintenance costs.

Component Lifespan and Replacement:

  • Extended Component Lifespan: Proper water-lubrication and cooling can contribute to the extended lifespan of compressor components. Reduced friction, effective cooling, and contaminant control can minimize wear and damage to components, leading to lower replacement costs over time. Water-lubricated compressors may have advantages in terms of component longevity, potentially reducing the frequency of component replacements.

Corrosion Prevention:

  • Corrosion Protection Measures: Water-lubricated compressors require corrosion prevention measures due to the presence of water within the system. Corrosion-resistant materials, coatings, or regular maintenance procedures are necessary to prevent corrosion-related issues. The cost of implementing and maintaining corrosion protection measures should be considered in the overall maintenance costs.

Overall, the maintenance costs of water-lubricated air compressors can vary depending on factors such as the specific design and components of the compressor, the quality of the water used, the effectiveness of water treatment and filtration systems, and the implementation of corrosion prevention measures. While water-lubricated compressors may have higher initial costs and additional maintenance requirements, they can potentially offer advantages in terms of extended component lifespan, reduced component replacements, and effective lubrication. It is important to consider these factors and consult the manufacturer’s guidelines to accurately assess the maintenance costs associated with water-lubricated air compressors.

air compressor

How Is Water Quality Crucial for the Performance of These Compressors?

Water quality plays a crucial role in the performance of water-lubricated air compressors. The quality of the water used for lubrication directly impacts the efficiency, reliability, and lifespan of these compressors. Here are the key reasons why water quality is essential for optimal compressor performance:

  1. Lubrication effectiveness: Water serves as the lubricant in water-lubricated air compressors. The water forms a protective film between moving parts, reducing friction and wear. However, if the water contains impurities or contaminants, it can compromise the lubricating properties. Impurities like minerals, sediments, or dissolved solids can hinder the formation of an effective lubricating film, leading to increased friction and potential damage to the compressor components.
  2. Corrosion prevention: Water with high mineral content, such as hard water, can promote corrosion within the compressor system. Minerals like calcium and magnesium can react with metal surfaces, leading to rust, scale formation, and degradation of internal components. Corrosion compromises the structural integrity of the compressor, reduces its efficiency, and may result in costly repairs or even premature failure.
  3. Preventing blockages: Poor water quality can result in the accumulation of sediments, debris, or contaminants within the compressor system. These deposits can block water passages, filters, or valves, impeding the flow of water and affecting the overall performance of the compressor. Restricted water flow may lead to inadequate cooling, reduced lubrication, and compromised efficiency.
  4. Preventing fouling and fouling-related issues: Fouling refers to the accumulation of organic or inorganic deposits on heat transfer surfaces, such as heat exchangers or radiators, within the compressor system. Poor water quality can contribute to fouling, reducing heat transfer efficiency and impairing the cooling capacity of the compressor. This can result in elevated operating temperatures, decreased performance, and potential damage to the compressor.
  5. System cleanliness: Clean water is crucial for maintaining a clean and sanitary compressor system, especially in industries like food and beverage or medical applications. Contaminated water can introduce harmful bacteria, microorganisms, or particles into the compressor, posing a risk to product quality, safety, or patient well-being.

To ensure optimal performance and longevity of water-lubricated air compressors, it is important to monitor and maintain the quality of the water used for lubrication. Regular water analysis, proper filtration, and appropriate water treatment measures should be employed to remove impurities, control mineral content, and maintain the desired water quality. By ensuring clean and high-quality water, the compressor can operate efficiently, minimize the risk of component damage, and contribute to a reliable and safe compressed air system.

China Hot selling CHINAMFG 100L 5HP Oil Free Slience Industrial Air Compressor   air compressor repair near meChina Hot selling CHINAMFG 100L 5HP Oil Free Slience Industrial Air Compressor   air compressor repair near me
editor by CX 2024-03-12

China high quality 5HP 10HP 15HP 20HP 30HP 100% Pure Gas Scroll Air Compressor Totally Oil Free for Medical with high quality

Product Description

 

Product Description

Product features:
  LG-12/2 screw air compressor is mainly used in material conveying, textile industry and other low-pressure gas sector industries, compared with the traditional piston type, pendulum type and other air compressors, with a long continuous operation time, no human care, stable operation, high reliability, low failure rate, low noise advantages, in actual use will bring users a very high economic and environmental benefits.
 
 1, the overall design of air compressor:
LG-12/2 screw air compressor is composed of the bottom frame, which is reasonably arranged and installed: distribution box, motor, screw machine head, hot oil pump, oil cooler, oil and gas separator, protective silencer housing and other components (can be selected according to customers).
2. Control system:
The control system adopts HangZhou MAM880 screw air compressor microcomputer controller, and the main motor is started by star triangle. The whole control system is equipped with temperature sensor, pressure sensor, air intake valve, minimum pressure valve, safety valve, check valve, etc., to achieve the optimal accessories, reasonable configuration, automatic control, smooth operation, safe and reliable.
The main advantage of this type of screw air compressor is that in order to ensure the safe and reliable operation of the screw machine, the design selects the most reliable hot oil pump in China, so that the screw machine can ensure the normal circulation of the system cooling oil at any time!

Machine type HYCW-12/2 Double Cylinder (cast iron model)
item unit Parameter value
Air displacement m / min 12
Exhaust pressure MPa 0.2
Shaft power KW 38 or less
Specific power KW / m . min -1 3.16
Inspiratory temperature ºC 40 or less
Exhaust temperature ºC 160 or less
Lubricating oil temperature ºC 65
cleanliness Mg 720
noise Db ( A ) 73
weight KG 385
Rotational speed r / min 1000
torque N . M 362.9
Overall dimension mm (Length * width * height) 951 * 930 * 775
Installation position Seated mounting or with a diesel engine

Hot Products

 

Company Profile

 The products cover 31 provinces of china, cities and autonomous regions, and export to more than 50 countries and regions.
 

Packaging & Shipping

FAQ

Q1.Dose your company has your own factory?
A:Yes,we have a factory ourself.which is in this business for 15 years in China.
Our factory is in the trailer base LiangShan,ZheJiang ,China.

Q2. What is your terms of payment?
A: T/T 30% as deposit, and 70% before delivery. We’ll show you the photos of the products and packages before you pay the balance.

Q3. What is your terms of delivery?
A: EXW, FOB, CFR, CIF, DDU.

Q4. How about your delivery time?
A: Generally, it will take 30 to 60 days after receiving your advance payment. The specific delivery time depends on the items and the quantity of your order.

Q5. Can you produce according to the samples?
A: Yes, we can produce by your samples or technical drawings. We can build the molds and fixtures.

Q6. What is your sample policy?
A: We can supply the sample if we have ready parts in stock, but the customers have to pay the sample cost and the courier cost.

Q7. Do you test all your goods before delivery?
A: Yes, we have 100% test before delivery

Q8: How do you make our business long-term and good relationship?
A:1. We keep good quality and competitive price to ensure our customers benefit ; 2. We respect every customer as our friend and we sincerely do business and make friends with them, no matter where they come from.

 

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After-sales Service: on-Line 7*24h
Warranty: 12 Months
Lubrication Style: Oil-free
Cooling System: Air Cooling
Power Source: AC Power
Cylinder Position: Horizontal
Customization:
Available

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air compressor

How Do Water-Lubricated Air Compressors Contribute to Energy Savings?

Water-lubricated air compressors can contribute to energy savings in several ways, making them an attractive option for industries looking to optimize their energy consumption. Here are the key ways in which water-lubricated compressors help achieve energy efficiency:

  1. Reduced friction and improved efficiency: Water serves as a lubricant in water-lubricated compressors, creating a thin film between moving parts to reduce friction. This reduces the energy losses due to mechanical friction and improves the overall efficiency of the compressor. Compared to oil-lubricated compressors, water-lubricated models can achieve higher mechanical efficiency, translating into energy savings over the compressor’s operational lifetime.
  2. Elimination of oil vapor carryover: Oil-lubricated compressors require oil filtration systems to prevent oil carryover into the compressed air stream. These filtration systems consume energy and can introduce pressure drops. In contrast, water-lubricated compressors eliminate the need for oil filtration, reducing energy consumption associated with filtration equipment and minimizing pressure losses. This leads to improved system efficiency and energy savings.
  3. Improved heat transfer and cooling: Water-lubricated compressors offer enhanced heat transfer capabilities compared to oil-lubricated counterparts. Water has a higher specific heat capacity and thermal conductivity, allowing for more efficient heat dissipation. This results in lower operating temperatures and reduces the energy required for cooling the compressor. By optimizing heat transfer, water-lubricated compressors can minimize energy consumption associated with cooling systems or air conditioning in compressor rooms.
  4. Optimized system design: Water-lubricated compressors often employ advanced system designs that further enhance energy efficiency. For example, they may incorporate variable speed drive (VSD) technology, which adjusts the compressor’s speed and power consumption based on the actual air demand. This eliminates energy waste associated with constant-speed operation and reduces energy consumption during periods of low compressed air demand. Additionally, water-lubricated compressors may feature optimized internal components and improved air flow dynamics, resulting in reduced energy losses and improved overall system efficiency.
  5. Heat recovery opportunities: Water-lubricated compressors can provide opportunities for heat recovery. The heat generated during compression can be captured and utilized for various heating applications within the facility, such as space heating, water heating, or process heating. By harnessing this waste heat, water-lubricated compressors contribute to energy savings by offsetting the need for additional energy sources for heating purposes.

By combining these energy-saving features, water-lubricated air compressors help optimize energy consumption, reduce operational costs, and minimize the environmental impact associated with compressed air systems. Implementing water-lubricated compressors with a comprehensive energy management strategy can result in significant energy savings and improved overall sustainability for industrial operations.

air compressor

Are There Any Restrictions on the Type of Water Used in Water-Lubricated Compressors?

When it comes to water-lubricated compressors, there are certain restrictions and considerations regarding the type of water that can be used. Here’s a detailed explanation of the restrictions on the type of water used in water-lubricated compressors:

Water Quality:

  • Cleanliness: The water used in water-lubricated compressors should be clean and free from excessive impurities or contaminants. Impurities like sediment, minerals, or debris can cause blockages, wear, or damage to the compressor components. It is important to use water that meets the cleanliness requirements specified by the manufacturer.
  • Chemical Composition: The chemical composition of the water can also be a factor to consider. Water with high mineral content or hardness can lead to scale formation, which can affect the performance and lifespan of the compressor. Water treatment methods, such as water softening or filtration, may be necessary to maintain the desired water quality.

Water Temperature:

  • Freezing Point: In cold climates, it is important to ensure that the water used in the compressor’s lubrication system does not freeze. Freezing can cause operational issues and damage to the equipment. The water temperature should be maintained above freezing point through insulation, heating, or other suitable methods.
  • Temperature Range: Water-lubricated compressors may have specific temperature requirements to ensure optimal operation and lubrication. Operating the compressor with water temperatures outside the recommended range can affect its performance and lifespan. It is important to adhere to the manufacturer’s guidelines regarding the acceptable temperature range for the water used.

Water Treatment:

  • Water Treatment Systems: Depending on the quality of the available water supply, it may be necessary to use water treatment systems to ensure the water meets the required standards. Water treatment systems can help remove impurities, control chemical composition, and maintain the desired water quality for effective lubrication and cooling.
  • Water Treatment Frequency: Regular maintenance and monitoring of the water treatment systems are essential to ensure their effectiveness. The frequency of water treatment, such as filtration or chemical treatment, may vary depending on the specific conditions and the water quality in the area.

Manufacturer Recommendations:

  • Consulting the Manufacturer: It is important to consult the manufacturer’s guidelines and recommendations regarding the type of water to be used in water-lubricated compressors. Manufacturers may specify the acceptable water quality parameters, treatment methods, or restrictions to ensure optimal performance and longevity of the compressor.

By considering the cleanliness, chemical composition, temperature, and appropriate water treatment measures, the type of water used in water-lubricated compressors can be optimized to meet the requirements specified by the manufacturer. Adhering to these restrictions helps ensure efficient and reliable operation of the compressor while minimizing the risk of component damage or performance issues.

air compressor

How Do Water-Lubricated Air Compressors Compare to Oil-Lubricated Ones?

Water-lubricated air compressors and oil-lubricated air compressors have distinct differences in terms of lubrication method, performance, maintenance, and environmental impact. Here is a detailed comparison between the two:

Water-Lubricated Air Compressors Oil-Lubricated Air Compressors
Lubrication Method Water is used as the lubricant in water-lubricated compressors. It provides lubrication and heat dissipation. Oil is used as the lubricant in oil-lubricated compressors. It provides lubrication, sealing, and heat dissipation.
Performance Water lubrication offers efficient heat dissipation and cooling properties. It can effectively remove heat generated during compressor operation, preventing overheating and prolonging the compressor’s lifespan. Water lubrication can be suitable for applications where high heat generation is a concern. Oil lubrication provides excellent lubrication properties, ensuring smooth operation and reduced friction. It offers good sealing capabilities, preventing air leakage. Oil-lubricated compressors are often preferred for heavy-duty applications that require high pressure and continuous operation.
Maintenance Water lubrication generally requires less maintenance compared to oil lubrication. Water does not leave sticky residues or deposits, simplifying the cleaning process and reducing the frequency of lubricant changes. However, water lubrication may require additional measures to prevent corrosion and ensure proper water quality. Oil lubrication typically requires more maintenance. Regular oil changes, filter replacements, and monitoring of oil levels are necessary. Contaminants, such as dirt or moisture, can adversely affect oil lubrication and require more frequent maintenance tasks.
Environmental Impact Water lubrication is more environmentally friendly compared to oil lubrication. Water is non-toxic, biodegradable, and does not contribute to air or water pollution. It has a lower environmental impact and reduces the risk of contamination in case of leaks or spills. Oil lubrication can have environmental implications. Oil leaks or spills can contaminate the environment, including air, soil, and water sources. Used oil disposal requires proper handling to prevent pollution. Oil-lubricated compressors also release volatile organic compounds (VOCs) into the air, contributing to air pollution.

In summary, water-lubricated air compressors excel in efficient heat dissipation, require less maintenance, and have a lower environmental impact. On the other hand, oil-lubricated air compressors offer excellent lubrication properties and are suitable for heavy-duty applications. The choice between water and oil lubrication depends on specific requirements, operating conditions, and environmental considerations.

China high quality 5HP 10HP 15HP 20HP 30HP 100% Pure Gas Scroll Air Compressor Totally Oil Free for Medical   with high qualityChina high quality 5HP 10HP 15HP 20HP 30HP 100% Pure Gas Scroll Air Compressor Totally Oil Free for Medical   with high quality
editor by CX 2024-03-10

China Hot selling Mtz56hl9ave Compressormtz56hl9ave 3HP 5HP 6HP 10HP Air Compressor Scroll wholesaler

Product Description

 

 

Hermetic piston compressor, MT/Z medium and high temperature compressor specifications
Rated Performance R22,R407C-50HZ
Model Rated Performance* MT-R22 Rated Performance** MTZ-R407C
Capacity(W)  Input Power (KW)  Input current(A)  COP  (W/W) Capacity(W)  Input Power (KW)  Input current(A)  COP  (W/W)
MT/MTZ 18 JA 3881 1.45 2.73 2.68 3726 1.39 2.47 2.68
MT/MTZ 22 JC 5363 1.89 3.31 2.84 4777 1.81 3.31 2.64
MT/MTZ 28 JE 7378 2.55 4.56 2.89 6137 2.35 4.39 2.61
MT/MTZ 32 JF 8064 2.98 4.97 2.70 6941 2.67 5.03 2.60
MT/MTZ 36 JG 9272 3.37 5.77 27.5 7994 3.12 5.71 2.56
MT/MTZ 40 JH 1571 3.85 6.47 2.72 9128 3.61 6.45 2.53
MT/MTZ 44 HJ 11037 3.89 7.37 2.84 9867 3.63 6.49 2.72
MT/MTZ 50 HK 12324 4.32 8.46 2.85 11266 4.11 7.34 2.74
MT/MTZ 56 HL 13771 5.04 10.27 2.73 12944 4.69 8.36 2.76
MT/MTZ 64 HM 15820 5.66 9.54 2.79 14587 5.25 9.35 2.78
MT/MTZ 72 HN 17124 6.31 10.54 2.71 16380 5.97 10.48 2.74
MT/MTZ 80 HP 19534 7.13 11.58 2.74 18525 6.83 11.83 2.71
MT/MTZ 100 HS 23403 7.98 14.59 2.93 22111 7.85 13.58 2.82
MT/MTZ 125 HU 3571 10.66 17.37 2.85 29212 10.15 16.00 2.88
MT/MTZ 144 HV 34340 11.95 22.75 2.87 32934 11.57 18.46 2.85
MT/MTZ 160 HW 38273 13.39 22.16 2.86 37386 13.28 21.40 2.82
MTM/MTZ200 HSS 46807 15.97 29.19 2.93 43780 15.54 26.90 2.82
MTM/MTZ250HUU 6 0571 21.33 34.75 2.85 57839 20.09 31.69 2.88
MTM/MTZ288 HVV 68379 23.91 45.50 2.87 65225 22.92 36.56 2.85
MTM/MTZ 320 HWW 76547 26.79 44.32 2.86 74571 26.30 42.37 2.81

 

Rated Performance*High Efficiency CompressorR22-50HZ
Model Capacity/(W) Input Power (KW) Inputcuprret/(A) COP(W/W)
MT 45 HJ 10786 3.62 6.86 2.98
MT 51 HK 12300 4.01 7.86 3.07
MT 57 HL 13711 4.54 9.24 3.02
MT 65 HM 15763 5.23 8.81 3.01
MT 73 HN 17863 5.98 9.99 2.99
MT 81 HP 25718 6.94 11.27 2.93

R134a,R404A,R507-50Hz
 Model Rated Performance* R134A Rated Performance**R404A,R507-50HZ
Capacity(W)  Input Power (KW)  Input current(A)  COP  (W/W) Capacity(W)  Input Power (KW)  Input current(A)  COP  (W/W)
MT/MTZ 18 JA 2553 0.99 2.19 2.58 1865 1.2 2.47 1.56
MT/MTZ22 JC 3352 1.20 2.51 2.80 2673 1.56 2.96 1.71
MT/MTZ 28 JE 4215 1.53 3.30 2.75 3343 1.95 3.80 1.72
MT/MTZ 32 JF 4951 1.87 3.94 2.65 3747 2.28 4.51 1.64
MT/MTZ 36 JG 6005 2.13 4.09 2.81 4371 2.66 4.91 1.64
MT/MTZ 40 JH 6398 2.33 4.89 2.74 4889 3.00 5.36 1.63
MT/MTZ 44 HJ 6867 2.52 5.65 2.72 5152 3.16 6.37 1.63
MT/MTZ 50 HK 8071 2.88 5.50 2.80 6152 3.61 6.53 1.70
MT/MTZ 56 HL 9069 3.21 5.83 2.82 7001 4.00 7.07 1.75
MT/MTZ 64 HM 1571 3.62 6.96 2.86 8132 4.54 8.30 1.79
MT/MTZ 72 HP 11853 4.01 7.20 2.96 9153 4.99 8.64 1.84
MT/MTZ 80 HP 13578 4.63 8.45 2.93 10524 5.84 10.12 1.80
MT/MTZ 100 HS 15529 5.28 10.24 2.94 12571 6.83 12.16 1.76
MT/MTZ 125 HU 19067 6.29 10.80 3.03 15714 8.53 13.85 1.84
MT/MTZ 144 HV 23620 7.83 13.78 3.02 18076 9.74 16.25 1.86
MT/MTZ 160 HW 25856 8.57 14.67 3.02 25713 11.00 17.94 1.84
MTM/MTZ200 HSS 3571 10.45 20.28 2.94 23800 13.53 24.06 1.76
MTM/MTZ 250 HUU 37746 12.45 21.38 3.03 31121 16.88 27.43 1.84
MTM/MTZ288 HVV 46773 15.49 27.29 3.02 35779 19.28 32.18 1.86
MTM/MTZ 320 HWW 51169 16.98 29.06 3.01 40093 21.76 35.51 1.84

 

50HZ DATA  
Model  50Hz Nominal Cooling Capacity/Capacity Input Power COP E.E.R. c Displacement Displacement Injection flow d Net.W
TR W Btu/h KW W/W Btu/h/W cm³/rev m3/h dm3 kg
R22 Single Sm084 7 20400 69600 6.12 3.33 11.4 114.5 19.92 3.3 64
SM090 7.5 21800 74400 6.54 3.33 11.4 120.5 20.97 3.3 65
SM100 8 23100 79000 6.96 3.33 11.3 127.2 22.13 3.3 65
SM110 9 25900 88600 7.82 3.32 11.3 144.2 25.09 3.3 73
SM112 9.5 27600 94400 7.92 3.49 11.9 151.5 26.36 3.3 64
SM115 9.5 28000 95600 8.31 3.37 11.5 155.0 26.97 3.8 78
SM120 10 35710 157100 8.96 3.36 11.5 166.6 28.99 3.3 73
SM124 10 31200 106300 8.75 3.56 12.2 169.5 29.5 3.3 64
SM125 10 35710 157100 8.93 3.37 11.5 166.6 28.99 3.8 78
SM147 12 36000 123000 10.08 3.58 12.2 193.5 33.7 3.3 67
SM148 12 36100 123100 10.80 3.34 11.4 199.0 34.60 3.6 88
SM160 13 39100 133500 11.60 3.37 11.5 216.6 37.69 4.0 90
SM161 13 39000 133200 11.59 3.37 11.5 216.6 37.69 3.6 88
SM175 14 42000 143400 12.46 3.37 11.5 233.0 40.54 6.2 100
SM/SY185 15 45500 155300 13.62 3.34 11.4 249.9 43.48 6.2 100
SY240 20 61200 2 0571 0 18.20 3.36 11.5 347.8 60.50 8.0 150
SY300 25 78200 267000 22.83 3.43 11.7 437.5 76.10 8.0 157
SY380 30 94500 322700 27.4 3.46 11.8 531.2 92.40 8.4 158
R107C Single SZ084 7 19300 66000 6.13 3.15 10.7 114.5 19.92 3.3 64
SZ090 7.5 20400 69600 6.45 3.16 10.8 120.5 20.97 3.3 65
SZ100 8 21600 73700 6.84 3.15 10.8 127.2 22.13 3.3 65
SZ110 9 24600 84000 7.76 3.17 10.8 144.2 25.09 3.3 73
SZ115 9.5 26900 91700 8.49 3.16 10.8 155.0 26.97 3.8 78
SZ120 10 28600 97600 8.98 3.18 10.9 166.6 28.99 3.3 73
SZ125 10 28600 97500 8.95 3.19 10.9 166.6 28.99 3.8 78
SZ148 12 35100 119800 10.99 3.19 10.9 199.0 34.60 3.6 88
SZ160 13 38600 131800 11.77 3.28 11.2 216.6 37.69 4.0 90
SZ161 13 37900 129500 11.83 3.21 10.9 216.6 37.69 3.6 88
SZ175 14 45710 136900 12.67 3.17 10.8 233.0 40.54 6.2 100
SZ185 15 43100 147100 13.62 3.16 10.8 249.9 43.48 6.2 100
SZ240 20 59100 201800 18.60 3.18 10.9 347.8 60.50 8.0 150
SZ300 25 72800 248300 22.70 3.20 10.9 437.5 76.10 8.0 157
SZ380 30 89600 305900 27.60 3.25 11.1 431.2 92.40 8.4 158

Model Nominal Cooling Capacity 60Hz Nominal Cooling Capacity/Capacity Input Power maximum rated current COP  Displacement  Displacement  Injection flow Net.W
TR W Btu/h kW MCC COP W/W EERBtu/h/W cmVrev m3/h dm3 kg
R22 HRM032U4 2.7 7850 26790 2.55 9.5 3.08 10.5 43.8 7.6 1.06 31
HRM034U4 2.8 8350 28490 2.66 9.5 3.14 10.5 46.2 8.03 1.06 31
HRM038U4 32 9240 31520 2.94 10.0 3.14 10.7 46.2 8.03 1.06 31
HRM040U4  3.3 9710 33120 2.98 10 3.26 11.1 54.4 9.47 1.06 31
HRM042U4 35 10190 34770 3.13 11.0 3.26 11.1 57.2 9.95 1.06 31
HRM045U4 3.8 10940 37310 3.45 12 3.17 10.8 61.5 10.69 1.33 31
HRM047U4 3.9 11500 39250 3.57 12.0 3.23 11.0 64.1 11.15 1.33 31
HRM048U4 4 11510 39270 3.57 12.5 3.23 11 64.4 11.21 1.57 37
HRM051T4 4.3 12390 44280 3.67 13.0 3.37 11.5 68.8 11.98 1.57 37
HRM051U4 4.3 12800 43690 3.83 13 3.34 11.4 68.8 11.98 1.57 37
HRM054U4 4.5 13390 45680 3.97 13.1 3.37 11.5 72.9 12.69 1.57 37
HRM058U4 4.8 14340 48930 4.25 15 3.37 11.5 78.2 13.6 1.57 37
HRM060T4 5.0 14570 49720 4.28 15.0 3.40 11.6 81.0 14.09 1.57 37
HRM060U4 5.0  14820 5 0571 4.4 15 3.37 11.5 81 14.09 1.57 37
HLM068T4 5.7 16880 57580 5.00 15.0 3.37 11.5 93.1 16.20 1.57 37
HLM072T4 6.0  17840 6 0571 5.29 15 3.37 11.5 98.7 17.2 1.57 37
HLM075T4 6.3 18430 62880 5.37 16.0 3.43 11.7 102.8 17.88 1.57 37
HLM081T4 6.8 19890 67880 5.8 17 3.43 11.7 110.9 19.3 1.57 37
HCM094T4 7.8 23060 78670 6.80 21.0 3.39 11.6 126.0 21.93 2.66 44
HCM109T4 9.1 26690 91070 7.77 24 3.43 11.7 148.8 25.89 2.66 44
HCM120T4 10.0 29130 99390 8.51 25.0 3.42 11.7 162.4 28.26 2.66 44
R407C HRP034T4  2.8 7940 27080 2.68 9.5 2.96 10.1 46.2 8 1.06 31
HRP038T4 3.2 8840 30150 2.82 11 3.14 10.7 51.6 8.98 1.06 31
HRP040T4 3.3 9110 31080 3.14 11.5 2.9 9.9 54.4 9.47 1.06 31
HRP042T4 3.5 9580 32680 3.3 10 2.9 9.9 57.2 9.95 1.06 31
HRP045T4 3.8 1571 36890 3.58 12 3.02 10.3 61.5 10.69 1.33 31
HRP047T4 3.9 11130 37980 3.69 12 3.02 10.3 64.1 11.15          1.33 31
HRP048T4 4.0  11100 37880 3.35 12 3.31 11.3 64.4 1L21 1.57 37
HRP051T4 4.3 12120 41370 3.83 13 3.17 10.8 68.8 11.98 1.57 37
HRP054T4 4.5 12570 42880 3.97 12.5 3.17 10.8 72.8 12.66 1.57 37
HRP058T4 4.8 13470 45970 4.25 14.0 3.17 10.8 78.2 13.6 1.57 37
HRP060T4 5.0  13860 47280 4.26 15 3.25 11.1 81 14.09 1.57 37
HLP068T4 5.7 15700 53560 5.10 15.0 3.08 10.5 93.1 16.20 1.57 37
HLP072T4 6.0  16810 57350 5.16 15 3.26 11.1 98.7 17.17 1.57 37
HLP075T4 6.3 18040 61550 5.54 16.0 3.26 11-1 102.8 17.88 1.57 37
HLP081T4 6.8 18600 63470 5,66 17 3.28 11,2 110,9 19,30 1,57 37
HCP094T4 7.8 21590 73660 6.63 21.0 3.26 11.1 126.0 21.93 2.66 44
HCP109T4 9.1 25070 85550 7.77 24 3.23 11 148.8 25.89 2.66 44
HCP120T4 10.0 27370 93400 8.47 25.0 3.23 11.0 162.4 28.26 2.66 44
R410A HRH571U4 2.4 7120 24310 2.43 10 2.93 10 27.8 4.84 1.06 31
HRH031U4 26 7530 25710 2.67 10.0 2.82 9.62 29.8 5.19 1.06 31
HRH032U4 2.7 7670 26170 2.75 10 2.79 9.51 30.6 5.33 1.06 31
HRH034U4 2.8 8500 29000 2.90 10.0 2.93 10.0 33.3 5.75 1.06 31
HRH036U4 3 8820 30110 3.13 10 2.82 9.62 34.7 6.04 1.06 31
HRH038U4 3.2 9250 31560 3.35 12.0 2.76 9.41 36.5 6.36 1.06 32
HRH040U4 3.3 15710 34810 3.58 12 2.85 9.72 39.6 6.9 1.33 32
HRH041U4 3.3 10050 34300 3.43 12.5 2.93 10 39.3 6.8 1.57 37
HRH044U4 3.7 1 0571 36940 3.92 13.5 2.76 9.41 42.6 7.41 1.57 37
HRH049U4 4.1 12110 41320 4.04 13.5 2.99 10.22 47.4 8.24 1.57 37
HRH051U4 4.3 12860 43890 4.21 13 3.05 10.42 49.3 5.58 1.57 37
HRH054U4 4.5 13340 45510 4.41 15.0 3.02 10.32 52.1 9.07 1.57 37
HRH056U4 4.7 13830 47200 4.58 15 3.02 1031 54.1 9.42 1.57 37
HLH061T4 5.1 15210 51880 4.89 15.0 3.11 1061 57.8 10.10 1.57 37
HLH068T4  5.7 16880 57610 5.26 19 3.21 1096 64.4 11.21 1.57 37
HLJ072T4 6.0 17840 60900 5.56 19.0 3.21 11.0 68.0 11.82 1.57 37
HLJ075T4  6.3 18600 63490 5.77 18 3.22 11 70.8 12.32 1.57 37
HLJ083T4 6.9 20420 69690 6.28 19.0 3.25 Hl 78.1 13.59 1.57 37
HCJ090T4 7.5 22320 76190 7.19 19 3.11 10.6 86.9 15.11 2.66 44
HCJ105T4 8.8 26100 89090 8.25 25.0 3.16 10.8 101.6 17.68 2.66 44
HCJ120T4 10 29610 157180 9.53 27 3.11 10.6 116.4 20.24 2.66 44

 

Model HP Voltage
MLM019T5LP9 2.5 220-240V-1-50HZ
MLM571T5LP9 3 220-240V-1-50HZ
MLM026T5LP9 3.5 220-240V-1-50HZ
MLM015T4LP9 2 380-415V-3-50Hz&460V-3-60Hz
MLM019T4LP9 2.5 380-415V-3-50Hz&460V-3-60Hz
MLM571T4LP9 3 380-415V-3-50Hz&460V-3-60Hz
MLM026T4LP9 3.5 380-415V-3-50Hz&460V-3-60Hz
MLM030T4LC9 4 380-415V-3-50Hz&460V-3-60Hz
MLM038T4LC9 5 380-415V-3-50Hz&460V-3-60Hz
MLM045T4LC9 6 380-415V-3-50Hz&460V-3-60Hz
MLM048T4LC9 7 380-415V-3-50Hz&460V-3-60Hz
MLM058T4LC9 7.5 380-415V-3-50Hz&460V-3-60Hz
MLM066T4LC9 9 380-415V-3-50Hz&460V-3-60Hz
MLM076T4LC9 10 380-415V-3-50Hz&460V-3-60Hz
*MLM series general-purpose lubricating oil is AB alkyl benzene oil, the refrigerant is R22.
 
Model HP Voltage
MLZ019T5LP9 2.5 220-240V-1-50HZ
MLZ571T5LP9 3 220-240V-1-50HZ
MLZ026T5LP9 3.5 220-240V-1-50HZ
MLZ015T4LP9 2 380-415V-3-50Hz&460V-3-60Hz
MLZ019T4LP9 2.5 380-415V-3-50Hz&460V-3-60Hz
MLZ571T4LP9 3 380-415V-3-50Hz&460V-3-60Hz
MLZ026T4LP9 3.5 380-415V-3-50Hz&460V-3-60Hz
MLZ030T4LC9 4 380-415V-3-50Hz&460V-3-60Hz
MLZ038T4LC9 5 380-415V-3-50Hz&460V-3-60Hz
MLZ045T4LC9 6 380-415V-3-50Hz&460V-3-60Hz
MLZ048T4LC9 7 380-415V-3-50Hz&460V-3-60Hz
MLZ058T4LC9 7.5 380-415V-3-50Hz&460V-3-60Hz
MLZ066T4LC9 9 380-415V-3-50Hz&460V-3-60Hz
MLZ076T4LC9 10 380-415V-3-50Hz&460V-3-60Hz
*MLM series general-purpose lubricating oil is PVE ugly oil, refrigerant R404A/R134A/R507/R22

Archean refrigeration has been focusing on the refrigeration industry for more than 10 years. The compressors are sold all over the world and have been well received. The company has accumulated strong experience in the compressor market, rich technical support, and a satisfactory one-stop procurement solution. You can rest assured You don’t need to worry about this series, from placing an order to receiving the goods. We provide a complete solution to serve customers well, which is our purpose of hospitality.

 

Installation Type: Movable Type
Lubrication Style: Lubricated
Cylinder Position: Vertical
Model: Mtz56hl9ave
Samples:
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air compressor

How are air compressors employed in the petrochemical industry?

Air compressors play a vital role in the petrochemical industry, where they are employed for various applications that require compressed air. The petrochemical industry encompasses the production of chemicals and products derived from petroleum and natural gas. Here’s an overview of how air compressors are utilized in the petrochemical industry:

1. Instrumentation and Control Systems:

Air compressors are used to power pneumatic instrumentation and control systems in petrochemical plants. These systems rely on compressed air to operate control valves, actuators, and other pneumatic devices that regulate processes such as flow control, pressure control, and temperature control. Compressed air provides a reliable and clean source of energy for these critical control mechanisms.

2. Pneumatic Tools and Equipment:

Petrochemical plants often utilize pneumatic tools and equipment for various tasks such as maintenance, repair, and construction activities. Air compressors supply the necessary compressed air to power these tools, including pneumatic drills, impact wrenches, grinders, sanders, and painting equipment. The versatility and convenience of compressed air make it an ideal energy source for a wide range of pneumatic tools used in the industry.

3. Process Air and Gas Supply:

Petrochemical processes often require a supply of compressed air and gases for specific applications. Air compressors are employed to generate compressed air for processes such as oxidation, combustion, and aeration. They may also be used to compress gases like nitrogen, hydrogen, and oxygen, which are utilized in various petrochemical reactions and treatment processes.

4. Cooling and Ventilation:

Petrochemical plants require adequate cooling and ventilation systems to maintain optimal operating conditions and ensure the safety of personnel. Air compressors are used to power cooling fans, blowers, and air circulation systems that help maintain the desired temperature, remove heat generated by equipment, and provide ventilation in critical areas.

5. Nitrogen Generation:

Nitrogen is widely used in the petrochemical industry for applications such as blanketing, purging, and inerting. Air compressors are utilized in nitrogen generation systems, where they compress atmospheric air, which is then passed through a nitrogen separation process to produce high-purity nitrogen gas. This nitrogen is used for various purposes, including preventing the formation of explosive mixtures, protecting sensitive equipment, and maintaining the integrity of stored products.

6. Instrument Air:

Instrument air is essential for operating pneumatic instruments, analyzers, and control devices throughout the petrochemical plant. Air compressors supply compressed air that is treated and conditioned to meet the stringent requirements of instrument air quality standards. Instrument air is used for tasks such as pneumatic conveying, pneumatic actuators, and calibration of instruments.

By employing air compressors in the petrochemical industry, operators can ensure reliable and efficient operation of pneumatic systems, power various tools and equipment, support critical processes, and maintain safe and controlled environments.

air compressor

Are there differences between single-stage and two-stage air compressors?

Yes, there are differences between single-stage and two-stage air compressors. Here’s an in-depth explanation of their distinctions:

Compression Stages:

The primary difference between single-stage and two-stage air compressors lies in the number of compression stages they have. A single-stage compressor has only one compression stage, while a two-stage compressor has two sequential compression stages.

Compression Process:

In a single-stage compressor, the entire compression process occurs in a single cylinder. The air is drawn into the cylinder, compressed in a single stroke, and then discharged. On the other hand, a two-stage compressor utilizes two cylinders or chambers. In the first stage, air is compressed to an intermediate pressure in the first cylinder. Then, the partially compressed air is sent to the second cylinder where it undergoes further compression to reach the desired final pressure.

Pressure Output:

The number of compression stages directly affects the pressure output of the air compressor. Single-stage compressors typically provide lower maximum pressure levels compared to two-stage compressors. Single-stage compressors are suitable for applications that require moderate to low air pressure, while two-stage compressors are capable of delivering higher pressures, making them suitable for demanding applications that require greater air pressure.

Efficiency:

Two-stage compressors generally offer higher efficiency compared to single-stage compressors. The two-stage compression process allows for better heat dissipation between stages, reducing the chances of overheating and improving overall efficiency. Additionally, the two-stage design allows the compressor to achieve higher compression ratios while minimizing the work done by each stage, resulting in improved energy efficiency.

Intercooling:

Intercooling is a feature specific to two-stage compressors. Intercoolers are heat exchangers placed between the first and second compression stages. They cool down the partially compressed air before it enters the second stage, reducing the temperature and improving compression efficiency. The intercooling process helps to minimize heat buildup and reduces the potential for moisture condensation within the compressor system.

Applications:

The choice between a single-stage and two-stage compressor depends on the intended application. Single-stage compressors are commonly used for light-duty applications such as powering pneumatic tools, small-scale workshops, and DIY projects. Two-stage compressors are more suitable for heavy-duty applications that require higher pressures, such as industrial manufacturing, automotive service, and large-scale construction.

It is important to consider the specific requirements of the application, including required pressure levels, duty cycle, and anticipated air demand, when selecting between a single-stage and two-stage air compressor.

In summary, the main differences between single-stage and two-stage air compressors lie in the number of compression stages, pressure output, efficiency, intercooling capability, and application suitability.

air compressor

How do oil-lubricated and oil-free air compressors differ?

Oil-lubricated and oil-free air compressors differ in terms of their lubrication systems and the presence of oil in their operation. Here are the key differences:

Oil-Lubricated Air Compressors:

1. Lubrication: Oil-lubricated air compressors use oil for lubricating the moving parts, such as pistons, cylinders, and bearings. The oil forms a protective film that reduces friction and wear, enhancing the compressor’s efficiency and lifespan.

2. Performance: Oil-lubricated compressors are known for their smooth and quiet operation. The oil lubrication helps reduce noise levels and vibration, resulting in a more comfortable working environment.

3. Maintenance: These compressors require regular oil changes and maintenance to ensure the proper functioning of the lubrication system. The oil filter may need replacement, and the oil level should be regularly checked and topped up.

4. Applications: Oil-lubricated compressors are commonly used in applications that demand high air quality and continuous operation, such as industrial settings, workshops, and manufacturing facilities.

Oil-Free Air Compressors:

1. Lubrication: Oil-free air compressors do not use oil for lubrication. Instead, they utilize alternative materials, such as specialized coatings, self-lubricating materials, or water-based lubricants, to reduce friction and wear.

2. Performance: Oil-free compressors generally have a higher airflow capacity, making them suitable for applications where a large volume of compressed air is required. However, they may produce slightly more noise and vibration compared to oil-lubricated compressors.

3. Maintenance: Oil-free compressors typically require less maintenance compared to oil-lubricated ones. They do not need regular oil changes or oil filter replacements. However, it is still important to perform routine maintenance tasks such as air filter cleaning or replacement.

4. Applications: Oil-free compressors are commonly used in applications where air quality is crucial, such as medical and dental facilities, laboratories, electronics manufacturing, and painting applications. They are also favored for portable and consumer-grade compressors.

When selecting between oil-lubricated and oil-free air compressors, consider the specific requirements of your application, including air quality, noise levels, maintenance needs, and expected usage. It’s important to follow the manufacturer’s recommendations for maintenance and lubrication to ensure the optimal performance and longevity of the air compressor.

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editor by CX 2023-11-02