Product Description
Product Description
Advantages of piston type air compressor: high effiency, long service life .
We also sell piston air compressor spare parts
Product Parameters
model | motor power | cylinder qty*mm | rotation speed r/min | FAD m3/min | working pressure | dimension L*W*H mm | weight KGS |
w-1.8/5 | S1100*11KW | 3*Φ100 | 1200 | 1.8 | 0.5(5) | 1500*600*950 | 300 |
w-2.8/5 | S1100*15KW | 3*Φ115 | 1120 | 2.6 | 0.5(5) | 1670*820*1150 | 450 |
w-3.0/5 | S1115*18.5KW | 3*Φ120 | 1070 | 3 | 0.5(5) | 1880*870*1230 | 460 |
w-3.2/7 | S1125.18.5KW | 3*Φ125 | 800 | 3.7 | 0.7(7) | 1910*800*1620 | 530 |
w-3.5/5 | S1125.18.5KW | 3*Φ125 | 1170 | 3.5 | 0.5(5) | 1880*870*1240 | 460 |
sf4.0/5 | S1130*22KW | 4*Φ120 | 1070 | 4 | 0.5(5) | 1960*860*1300 | 655 |
2v-3.5/5 | S1125*18.5KW | 4*Φ115 | 980 | 3.5 | 0.5(5) | 1800*950*1300 | 650 |
2v-4.0/5 | S1130*22KW | 4*Φ120 | 980 | 4.0 | 0.5(5) | 1800*950*1300 | 750 |
Packaging & Shipping
Delivery method: By sea, by Air, by international express service (Fedex, DHL, UPS and etc)
We will ship according to the order quantity of the goods and the demands of the customers .
Certifications
Exhibition
FAQ
Q1:What is your payment term?
Answer: we accept T/T and L/C.
Q2:What is your MOQ?
Answer: MOQ is 1 set.
Q3:What is your lead time?
Answer:Average 3-7days, Except for customized products.
Q4:Do you offer OEM service?
Answer: Yes And we also provide OEM services.
Q5:What is your wanrranty?
Answer: We offer a one-year guarantee.
Q6:Do you test all your goods before delivery?
Answer: yes we have 100% test before delivery.
After-sales Service: | Online Service for 2 Years |
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Warranty: | 1 Years |
Cylinder Arrangement: | Parallel Arrangement |
Samples: |
US$ 495/Piece
1 Piece(Min.Order) | Order Sample Same as the picture
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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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Can air compressors be used for cleaning and blowing dust?
Yes, air compressors can be effectively used for cleaning and blowing dust in various applications. Here’s how air compressors are utilized for these purposes:
1. Cleaning Machinery and Equipment:
Air compressors are commonly used for cleaning machinery and equipment in industries such as manufacturing, automotive, and construction. Compressed air is directed through a nozzle or blowgun attachment to blow away dust, debris, and other contaminants from surfaces, crevices, and hard-to-reach areas. The high-pressure air effectively dislodges and removes accumulated dust, helping to maintain equipment performance and cleanliness.
2. Dusting Surfaces:
Air compressors are also employed for dusting surfaces in various settings, including homes, offices, and workshops. The compressed air can be used to blow dust off furniture, shelves, electronic equipment, and other objects. It provides a quick and efficient method of dusting, especially for intricate or delicate items where traditional dusting methods may be challenging.
3. Cleaning HVAC Systems:
Air compressors are utilized for cleaning HVAC (Heating, Ventilation, and Air Conditioning) systems. The compressed air can be used to blow dust, dirt, and debris from air ducts, vents, and cooling coils. This helps improve the efficiency and air quality of HVAC systems, preventing the buildup of contaminants that can affect indoor air quality.
4. Blowing Dust in Workshops:
In workshops and garages, air compressors are often used to blow dust and debris from workbenches, power tools, and work areas. Compressed air is directed to blow away loose particles and maintain a clean and safe work environment. This is particularly useful in woodworking, metalworking, and other trades where dust and debris can accumulate during the manufacturing or fabrication processes.
5. Cleaning Electronics and Computer Equipment:
Air compressors are employed for cleaning electronics and computer equipment. The compressed air is used to blow dust and debris from keyboards, computer cases, circuit boards, and other electronic components. It helps in preventing overheating and maintaining the proper functioning of sensitive electronic devices.
6. Industrial Cleaning Applications:
Air compressors find extensive use in industrial cleaning applications. They are employed in industrial settings, such as factories and warehouses, for cleaning large surfaces, production lines, and equipment. Compressed air is directed through specialized cleaning attachments or air-operated cleaning systems to remove dust, dirt, and contaminants efficiently.
When using air compressors for cleaning and blowing dust, it is important to follow safety precautions and guidelines. The high-pressure air can cause injury if directed towards the body or sensitive equipment. It is advisable to wear appropriate personal protective equipment, such as safety glasses and gloves, and ensure that the air pressure is regulated to prevent excessive force.
Overall, air compressors provide a versatile and effective solution for cleaning and blowing dust in various applications, offering a convenient alternative to traditional cleaning methods.
How does the horsepower of an air compressor affect its capabilities?
The horsepower of an air compressor is a crucial factor that directly impacts its capabilities and performance. Here’s a closer look at how the horsepower rating affects an air compressor:
Power Output:
The horsepower rating of an air compressor indicates its power output or the rate at which it can perform work. Generally, a higher horsepower rating translates to a greater power output, allowing the air compressor to deliver more compressed air per unit of time. This increased power output enables the compressor to operate pneumatic tools and equipment that require higher air pressure or greater airflow.
Air Pressure:
The horsepower of an air compressor is directly related to the air pressure it can generate. Air compressors with higher horsepower ratings have the capacity to produce higher air pressures. This is particularly important when operating tools or machinery that require specific air pressure levels to function optimally. For example, heavy-duty pneumatic tools like jackhammers or impact wrenches may require higher air pressure to deliver the necessary force.
Air Volume:
In addition to air pressure, the horsepower of an air compressor also affects the air volume or airflow it can provide. Higher horsepower compressors can deliver greater volumes of compressed air, measured in cubic feet per minute (CFM). This increased airflow is beneficial when using pneumatic tools that require a continuous supply of compressed air, such as paint sprayers or sandblasters.
Duty Cycle:
The horsepower rating of an air compressor can also influence its duty cycle. The duty cycle refers to the amount of time an air compressor can operate continuously before it needs to rest and cool down. Higher horsepower compressors often have larger and more robust components, allowing them to handle heavier workloads and operate for longer periods without overheating. This is particularly important in demanding applications where continuous and uninterrupted operation is required.
Size and Portability:
It’s worth noting that the horsepower rating can also affect the physical size and portability of an air compressor. Higher horsepower compressors tend to be larger and heavier due to the need for more substantial motors and components to generate the increased power output. This can impact the ease of transportation and maneuverability, especially in portable or mobile applications.
When selecting an air compressor, it is essential to consider the specific requirements of your intended applications. Factors such as desired air pressure, airflow, duty cycle, and portability should be taken into account. It’s important to choose an air compressor with a horsepower rating that aligns with the demands of the tools and equipment you plan to operate, ensuring optimal performance and efficiency.
Consulting the manufacturer’s specifications and guidelines can provide valuable information on how the horsepower rating of an air compressor corresponds to its capabilities and suitability for different tasks.
What is the role of air compressor tanks?
Air compressor tanks, also known as receiver tanks or air receivers, play a crucial role in the operation of air compressor systems. They serve several important functions:
1. Storage and Pressure Regulation: The primary role of an air compressor tank is to store compressed air. As the compressor pumps air into the tank, it accumulates and pressurizes the air. The tank acts as a reservoir, allowing the compressor to operate intermittently while providing a steady supply of compressed air during periods of high demand. It helps regulate and stabilize the pressure in the system, reducing pressure fluctuations and ensuring a consistent supply of air.
2. Condensation and Moisture Separation: Compressed air contains moisture, which can condense as the air cools down inside the tank. Air compressor tanks are equipped with moisture separators or drain valves to collect and remove this condensed moisture. The tank provides a space for the moisture to settle, allowing it to be drained out periodically. This helps prevent moisture-related issues such as corrosion, contamination, and damage to downstream equipment.
3. Heat Dissipation: During compression, air temperature increases. The air compressor tank provides a larger surface area for the compressed air to cool down and dissipate heat. This helps prevent overheating of the compressor and ensures efficient operation.
4. Pressure Surge Mitigation: Air compressor tanks act as buffers to absorb pressure surges or pulsations that may occur during compressor operation. These surges can be caused by variations in demand, sudden changes in airflow, or the cyclic nature of reciprocating compressors. The tank absorbs these pressure fluctuations, reducing stress on the compressor and other components, and providing a more stable and consistent supply of compressed air.
5. Energy Efficiency: Air compressor tanks contribute to energy efficiency by reducing the need for the compressor to run continuously. The compressor can fill the tank during periods of low demand and then shut off when the desired pressure is reached. This allows the compressor to operate in shorter cycles, reducing energy consumption and minimizing wear and tear on the compressor motor.
6. Emergency Air Supply: In the event of a power outage or compressor failure, the stored compressed air in the tank can serve as an emergency air supply. This can provide temporary air for critical operations, allowing time for maintenance or repairs to be carried out without disrupting the overall workflow.
Overall, air compressor tanks provide storage, pressure regulation, moisture separation, heat dissipation, pressure surge mitigation, energy efficiency, and emergency backup capabilities. They are vital components that enhance the performance, reliability, and longevity of air compressor systems in various industrial, commercial, and personal applications.
editor by CX 2023-10-16
China 2021 Hot Sale Industrial Heavy Duty 55cfm to 1600 Cfm Mining Drilling Portable Mobile Movable Diesel Engine Screw Type Rotary Mine Air Compressor portable air compressor
Item Description
Model | MDS390S-8 | |||||||||
Compressor | brand | |||||||||
Air supply |
m3/min | 11 | ||||||||
cu.ft/min | 390.0 | |||||||||
Discharge strain | bar | 8 | ||||||||
psig | 116 | |||||||||
Lubricating Oil capacity | L | 98 | ||||||||
Diesel Motor |
Manufacture&Design | 4BTA3.9-C125 | ||||||||
Cylinder Number | 4 | |||||||||
Displacement(L) | 3.9 | |||||||||
Rotation speed(Rmp) | Operating | 2100 | ||||||||
Idle speed(r/min) | 1500 | |||||||||
Rated energy(KW) | 93 | |||||||||
Lubricating Oil potential(L) | 9 | |||||||||
Coolant Ability(L) | 20 | |||||||||
Battery | 6-QW-80 |
Feature&Benefit | ||||||||||
Feature | Benefit | |||||||||
Pressure variety and handle | Easy strain environment | |||||||||
Flow variety and control | The working stress and airflow fee can be modified in accordance to the dimension of air consumption with out losing any diesel | |||||||||
The twin-screw rotor is immediately connected with the diesel motor by a highly adaptable coupling | Outputting more air with much less strength use, showcasing higher trustworthiness, longer services daily life, and lower maintenance expense. | |||||||||
The two-phase air filtration technique | The total performance of air filtration reaches 99.8% ensuring the compressor to not be infringed by dust and dust particles and more time services life of the motor | |||||||||
High-temperature resistance layout | Able to operate for a long time under extreme chilly or sizzling temperature from -20ºC to 50ºC | |||||||||
One-button begin, very clear operational parameters | Operators do not have to go via prolonged-expression specialist instruction, and unattended operations can be accomplished. |
Software locations | ||||||||||
Field | Application | Nominal Functioning Strain(bar) | Free Air Shipping Variety(m3/min) | |||||||
General Design (developing sites, highway upkeep, bridges, tunnels, concrete pumping and shotcreting) |
Hand-held pneumatic breakers | 7~14 | 5~13 | |||||||
Jack hammers | ||||||||||
Air guns | ||||||||||
Shotcrete equipment | ||||||||||
Pneumatic wrenches | ||||||||||
Nut runners | ||||||||||
Ground Engineering Drilling (basement and foundation excavation for condominium blocks and other structures) |
Pneumatic rock drills | 7~17 | 12~28 | |||||||
Block cutters | ||||||||||
Dewatering pumps. | ||||||||||
Hand-held pneumatic breakers | ||||||||||
Utility, CZPT Blasting (shipyards, metal development and massive renovation jobs) |
Sandblasting (remove rust, scale, paint) |
7~10 | 10~22 | |||||||
Blast Hole Drilling (mixture production for building stabilization, cement generation in limestone quarries and open up pit mining) |
Rock drills | 14~21 | 12~29 | |||||||
Dewatering pumps | ||||||||||
Hand-held breakers | ||||||||||
High Stress Drilling (drilling for water wells and foundations for high-increase buildings, along with geotechnical/geothermal programs) |
Water properly drilling | 20~35 | 18~forty |
Variety desk |
Little Series | |||||||||||
Small Series | FAD | Pressure | Engine design | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
product | with tow bar | without having tow bar | |||||||||
MDS55S-7 | 1.55 | 55 | seven | 101.five | D902 | 2925 | 1650 | 1200 | 1200 | 600 | |
MDS80S-7 | two.24 | 80 | seven | 101.five | D1005 | 2925 | 1650 | 1200 | 1200 | 630 | |
MDS100S-7 | 2.eight | 100 | seven | 101.5 | V1505 | 2925 | 1650 | 1200 | 1200 | 640 | |
MDS125S-seven | 3.five | 125 | 7 | 101.5 | V1505 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS130S-8 | 3.seven | 132 | eight | 116 | JE493 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS185S-seven | five.eighteen | 185 | 7 | 101.five | JE493 | 3200 | 1900 | 1740 | 1660 | 950 | |
MDS185S-10 | 5.18 | 185 | ten | 145 | JE493 | 3050 | 1900 | 1740 | 1660 | 950 | |
Middle Series (Low&Medium pressure) | |||||||||||
Middle Series (Minimal&Medium strain) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS265S-seven | 7.forty two | 265 | seven | 101.five | JE493 | 3629 | 2200 | 1700 | 1470 | 1200 | |
MDS300S-fourteen | eight.four | 300 | 14 | 203 | 4BTA3.nine | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS350S-ten | nine.9 | 354 | 10 | 145 | 4BT3.nine | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-7 | 11 | 393 | seven | 101.five | 4BTA3.nine | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-thirteen | eleven | 393 | 13 | 188.five | QSB4.five | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS429S-7 | twelve | 429 | 7 | 101.5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS429S-14 | 12 | 429 | 14 | 203 | QSB4.five | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS500S-fourteen | 14.1 | 504 | 14 | 203 | 6BTAA5.9 | 4550 | 3600 | 1810 | 2378 | 3100 | |
MDS690S-fourteen | 19.three | 689 | fourteen | 203 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS720S-10 | 20.two | 721 | ten | 145 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS750S-twelve | 21 | 750 | twelve | 174 | QSB6.seven | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS786S-10.three | 22 | 786 | 10.three | 149.35 | QSB6.seven | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS820S-fourteen | 23 | 821 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS850S-8.6 | 24 | 857 | eight.six | 124.7 | 6CTAA8.three | 5300 | 4200 | 2170 | 2630 | 4600 | |
MDS900S-7.one | 25.3 | 904 | seven.one | 102.ninety five | 6CTA8.three | 5300 | 4200 | 2170 | 2630 | 4600 | |
Middle Collection (Medium&High strain) | |||||||||||
Middle Series (Medium&Higher pressure) | FAD | Pressure | Engine product | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | with out tow bar | |||||||||
MDS460S-17 | 13 | 464 | 17 | 246.five | 6BTAA5.nine | 4600 | 3500 | 1800 | 2230 | 3500 | |
MDS620S-17 | 17.4 | 621 | 17 | 246.five | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS650S-19 | 18.2 | 650 | 19 | 275.5 | QSL8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS690S-20.four | 19.four | 693 | twenty.four | 295.8 | 6LTAA8.nine | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS770S-21 | 21.6 | 771 | 21 | 304.5 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS830S-eighteen | 23.two | 830 | 18 | 261 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS820S-twenty five | 23 | 821 | twenty five | 362.five | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
MDS860S-twenty.4/17.3 | 24.2 | 864 | 20.four | 295.eight | QSL8.nine | 5300 | 4200 | 2100 | 2630 | 5280 | |
24.two | 864 | 17.3 | 250.eighty five | ||||||||
MDS875S-23 | 24.five | 875 | 23 | 333.five | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
Huge Series (Minimal&Medium strain) | |||||||||||
Large Series (Minimal&Medium strain) | FAD | Pressure | Engine design | Dimensional Day(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
design | with tow bar | without having tow bar | |||||||||
MDS900S-14.2/10.5 | 25.one | 896 | 14.2 | 205.nine | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
twenty five.two | 900 | ten.5 | 152.25 | ||||||||
MDS910S-14 | twenty five.six | 914 | fourteen | 203 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS970S-10 | 27.2 | 971 | 10 | 145 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1011S-8.six | 28.three | 1011 | 8.6 | 124.7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1054S-12 | 29.5 | 1054 | twelve | 174 | QSL8.nine | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1250S-8.6 | 35 | 1250 | 8.six | 124.seven | QSL8.nine | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1400S-13 | 40 | 1400 | 13 | 188.five | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1600S-ten.3 | 45 | 1600 | ten.3 | 149.35 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1785S-13 | 50 | 1785 | thirteen | 188.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS2140S-ten | sixty | 2142 | 10 | 145 | QSZ14 | 7400 | 5400 | 2230 | 2630 | 8400 | |
Big Series (Medium&Substantial force) |
Large Series (Medium&Substantial force) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
design | with tow bar | with out tow bar | |||||||||
MDS900S-20 | 25.3 | 904 | 20 | 290 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS960S-18 | 26.nine | 961 | eighteen | 261 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS1000S-35 | 28.2 | a thousand | 35 | 507.five | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1089S-25 | 30.five | 1089 | twenty five | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1200S-24 | 33.6 | 1200 | 24 | 348 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-21 | 35 | 1250 | 21 | 304.five | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-twenty five | 35 | 1250 | twenty five | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-30 | 35 | 1250 | 30 | 435 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-35 | 35 | 1250 | 35 | 507.5 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-forty | 35 | 1250 | forty | 580 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1428S-18 | 40 | 1428 | eighteen | 261 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1428S-35 | 40 | 1428 | 35 | 507.five | TAD1643VE-B | 7400 | 5500 | 2180 | 2650 | ten thousand | |
MDS1428S-forty | 40 | 1428 | forty | 580 | QSK19 | 7400 | 5500 | 2180 | 2650 | ten thousand | |
MDS1600S-25 | forty four.8 | 1600 | twenty five | 362.5 | WP17G770E302 | 7400 | 5500 | 2180 | 2650 | 10000 |
GTL Air compressor check system |
FAQ:
Q: Are you a trading organization or producer?
A: We are a manufacturer.
Q: What are the items you run?
A: CZPT Electricity Method is dedicated to the R&D and manufacturing of Diesel Generator, Screw Air Compressor, Diesel Pump, Lights Tower, Welding Generator and relevant manage system and accessories.
Q: How long is your shipping time?
A: 7-thirty working day
Q: What is your phrases of payment?
A: T/T 30% in advance and TT 70% stability paid out just before shipment / 100% LC at sight.
Q: What is your guarantee period?
A: Our payment conditions are twelve months or one thousand managing hours whichever arrives very first. But based mostly on some unique task, we can increase our warranty interval.
Q: Do you offer personalized solutions for the diesel generator?
A: Of course!
US $17,157-34,314 / set | |
1 set (Min. Order) |
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Shipping Cost:
Estimated freight per unit. |
To be negotiated |
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Warranty: | 24month/2000 Hours |
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Lubrication Style: | Lubricated |
Cooling System: | Water Cooling |
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Customization: |
Available
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Model | MDS390S-8 | |||||||||
Compressor | brand | |||||||||
Air delivery |
m3/min | 11 | ||||||||
cu.ft/min | 390.0 | |||||||||
Discharge pressure | bar | 8 | ||||||||
psig | 116 | |||||||||
Lubricating Oil capacity | L | 98 | ||||||||
Diesel Engine |
Manufacture&Model | 4BTA3.9-C125 | ||||||||
Cylinder Number | 4 | |||||||||
Displacement(L) | 3.9 | |||||||||
Rotation speed(Rmp) | Operating | 2100 | ||||||||
Idle speed(r/min) | 1500 | |||||||||
Rated power(KW) | 93 | |||||||||
Lubricating Oil capacity(L) | 9 | |||||||||
Coolant Capacity(L) | 20 | |||||||||
Battery | 6-QW-80 |
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Feature&Benefit | ||||||||||
Feature | Benefit | |||||||||
Pressure selection and control | Easy pressure setting | |||||||||
Flow selection and control | The working pressure and airflow rate can be adjusted according to the size of air consumption without wasting any diesel | |||||||||
The twin-screw rotor is directly connected with the diesel engine by a highly flexible coupling | Outputting more air with less energy consumption, featuring high reliability, longer service life, and low maintenance cost. | |||||||||
The two-stage air filtration system | The total efficiency of air filtration reaches 99.8% ensuring the compressor to not be infringed by dust and dirt particles and longer service life of the engine | |||||||||
High-temperature resistance design | Able to run for a long time under extreme cold or hot temperature from -20ºC to 50ºC | |||||||||
One-button start, clear operational parameters | Operators don’t have to go through long-term professional training, and unattended operations can be achieved. |
###
Application areas | ||||||||||
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Field | Application | Nominal Working Pressure(bar) | Free Air Delivery Range(m3/min) | |||||||
General Construction (building sites, road maintenance, bridges, tunnels, concrete pumping and shotcreting) |
Hand-held pneumatic breakers | 7~14 | 5~13 | |||||||
Jack hammers | ||||||||||
Air guns | ||||||||||
Shotcrete equipment | ||||||||||
Pneumatic wrenches | ||||||||||
Nut runners | ||||||||||
Ground Engineering Drilling (basement and foundation excavation for apartment blocks and other buildings) |
Pneumatic rock drills | 7~17 | 12~28 | |||||||
Block cutters | ||||||||||
Dewatering pumps. | ||||||||||
Hand-held pneumatic breakers | ||||||||||
Utility, Abrasive Blasting (shipyards, steel construction and large renovation jobs) |
Sandblasting (remove rust, scale, paint) |
7~10 | 10~22 | |||||||
Blast Hole Drilling (aggregate production for construction stabilization, cement production in limestone quarries and open pit mining) |
Rock drills | 14~21 | 12~29 | |||||||
Dewatering pumps | ||||||||||
Hand-held breakers | ||||||||||
High Pressure Drilling (drilling for water wells and foundations for high-rise buildings, along with geotechnical/geothermal applications) |
Water well drilling | 20~35 | 18~40 |
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Selection table |
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Small Series | |||||||||||
Small Series | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS55S-7 | 1.55 | 55 | 7 | 101.5 | D902 | 2925 | 1650 | 1200 | 1200 | 600 | |
MDS80S-7 | 2.24 | 80 | 7 | 101.5 | D1005 | 2925 | 1650 | 1200 | 1200 | 630 | |
MDS100S-7 | 2.8 | 100 | 7 | 101.5 | V1505 | 2925 | 1650 | 1200 | 1200 | 640 | |
MDS125S-7 | 3.5 | 125 | 7 | 101.5 | V1505 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS130S-8 | 3.7 | 132 | 8 | 116 | JE493 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS185S-7 | 5.18 | 185 | 7 | 101.5 | JE493 | 3200 | 1900 | 1740 | 1660 | 950 | |
MDS185S-10 | 5.18 | 185 | 10 | 145 | JE493 | 3050 | 1900 | 1740 | 1660 | 950 | |
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Middle Series (Low&Medium pressure) | |||||||||||
Middle Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS265S-7 | 7.42 | 265 | 7 | 101.5 | JE493 | 3629 | 2200 | 1700 | 1470 | 1200 | |
MDS300S-14 | 8.4 | 300 | 14 | 203 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS350S-10 | 9.9 | 354 | 10 | 145 | 4BT3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-7 | 11 | 393 | 7 | 101.5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-13 | 11 | 393 | 13 | 188.5 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS429S-7 | 12 | 429 | 7 | 101.5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS429S-14 | 12 | 429 | 14 | 203 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS500S-14 | 14.1 | 504 | 14 | 203 | 6BTAA5.9 | 4550 | 3600 | 1810 | 2378 | 3100 | |
MDS690S-14 | 19.3 | 689 | 14 | 203 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS720S-10 | 20.2 | 721 | 10 | 145 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS750S-12 | 21 | 750 | 12 | 174 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS786S-10.3 | 22 | 786 | 10.3 | 149.35 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS820S-14 | 23 | 821 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS850S-8.6 | 24 | 857 | 8.6 | 124.7 | 6CTAA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 | |
MDS900S-7.1 | 25.3 | 904 | 7.1 | 102.95 | 6CTA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 | |
###
Middle Series (Medium&High pressure) | |||||||||||
Middle Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS460S-17 | 13 | 464 | 17 | 246.5 | 6BTAA5.9 | 4600 | 3500 | 1800 | 2230 | 3500 | |
MDS620S-17 | 17.4 | 621 | 17 | 246.5 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS650S-19 | 18.2 | 650 | 19 | 275.5 | QSL8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS690S-20.4 | 19.4 | 693 | 20.4 | 295.8 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS770S-21 | 21.6 | 771 | 21 | 304.5 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS830S-18 | 23.2 | 830 | 18 | 261 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS820S-25 | 23 | 821 | 25 | 362.5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
MDS860S-20.4/17.3 | 24.2 | 864 | 20.4 | 295.8 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
24.2 | 864 | 17.3 | 250.85 | ||||||||
MDS875S-23 | 24.5 | 875 | 23 | 333.5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
###
Large Series (Low&Medium pressure) | |||||||||||
Large Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS900S-14.2/10.5 | 25.1 | 896 | 14.2 | 205.9 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
25.2 | 900 | 10.5 | 152.25 | ||||||||
MDS910S-14 | 25.6 | 914 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS970S-10 | 27.2 | 971 | 10 | 145 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1011S-8.6 | 28.3 | 1011 | 8.6 | 124.7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1054S-12 | 29.5 | 1054 | 12 | 174 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1250S-8.6 | 35 | 1250 | 8.6 | 124.7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1400S-13 | 40 | 1400 | 13 | 188.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1600S-10.3 | 45 | 1600 | 10.3 | 149.35 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1785S-13 | 50 | 1785 | 13 | 188.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS2140S-10 | 60 | 2142 | 10 | 145 | QSZ14 | 7400 | 5400 | 2230 | 2630 | 8400 | |
Large Series (Medium&High pressure) |
###
Large Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS900S-20 | 25.3 | 904 | 20 | 290 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS960S-18 | 26.9 | 961 | 18 | 261 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS1000S-35 | 28.2 | 1000 | 35 | 507.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1089S-25 | 30.5 | 1089 | 25 | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1200S-24 | 33.6 | 1200 | 24 | 348 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-21 | 35 | 1250 | 21 | 304.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-25 | 35 | 1250 | 25 | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-30 | 35 | 1250 | 30 | 435 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-35 | 35 | 1250 | 35 | 507.5 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-40 | 35 | 1250 | 40 | 580 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1428S-18 | 40 | 1428 | 18 | 261 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1428S-35 | 40 | 1428 | 35 | 507.5 | TAD1643VE-B | 7400 | 5500 | 2180 | 2650 | 10000 | |
MDS1428S-40 | 40 | 1428 | 40 | 580 | QSK19 | 7400 | 5500 | 2180 | 2650 | 10000 | |
MDS1600S-25 | 44.8 | 1600 | 25 | 362.5 | WP17G770E302 | 7400 | 5500 | 2180 | 2650 | 10000 |
###
GTL Air compressor test system |
US $17,157-34,314 / set | |
1 set (Min. Order) |
###
Shipping Cost:
Estimated freight per unit. |
To be negotiated |
---|
###
Warranty: | 24month/2000 Hours |
---|---|
Lubrication Style: | Lubricated |
Cooling System: | Water Cooling |
###
Customization: |
Available
|
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###
Model | MDS390S-8 | |||||||||
Compressor | brand | |||||||||
Air delivery |
m3/min | 11 | ||||||||
cu.ft/min | 390.0 | |||||||||
Discharge pressure | bar | 8 | ||||||||
psig | 116 | |||||||||
Lubricating Oil capacity | L | 98 | ||||||||
Diesel Engine |
Manufacture&Model | 4BTA3.9-C125 | ||||||||
Cylinder Number | 4 | |||||||||
Displacement(L) | 3.9 | |||||||||
Rotation speed(Rmp) | Operating | 2100 | ||||||||
Idle speed(r/min) | 1500 | |||||||||
Rated power(KW) | 93 | |||||||||
Lubricating Oil capacity(L) | 9 | |||||||||
Coolant Capacity(L) | 20 | |||||||||
Battery | 6-QW-80 |
###
Feature&Benefit | ||||||||||
Feature | Benefit | |||||||||
Pressure selection and control | Easy pressure setting | |||||||||
Flow selection and control | The working pressure and airflow rate can be adjusted according to the size of air consumption without wasting any diesel | |||||||||
The twin-screw rotor is directly connected with the diesel engine by a highly flexible coupling | Outputting more air with less energy consumption, featuring high reliability, longer service life, and low maintenance cost. | |||||||||
The two-stage air filtration system | The total efficiency of air filtration reaches 99.8% ensuring the compressor to not be infringed by dust and dirt particles and longer service life of the engine | |||||||||
High-temperature resistance design | Able to run for a long time under extreme cold or hot temperature from -20ºC to 50ºC | |||||||||
One-button start, clear operational parameters | Operators don’t have to go through long-term professional training, and unattended operations can be achieved. |
###
Application areas | ||||||||||
###
Field | Application | Nominal Working Pressure(bar) | Free Air Delivery Range(m3/min) | |||||||
General Construction (building sites, road maintenance, bridges, tunnels, concrete pumping and shotcreting) |
Hand-held pneumatic breakers | 7~14 | 5~13 | |||||||
Jack hammers | ||||||||||
Air guns | ||||||||||
Shotcrete equipment | ||||||||||
Pneumatic wrenches | ||||||||||
Nut runners | ||||||||||
Ground Engineering Drilling (basement and foundation excavation for apartment blocks and other buildings) |
Pneumatic rock drills | 7~17 | 12~28 | |||||||
Block cutters | ||||||||||
Dewatering pumps. | ||||||||||
Hand-held pneumatic breakers | ||||||||||
Utility, Abrasive Blasting (shipyards, steel construction and large renovation jobs) |
Sandblasting (remove rust, scale, paint) |
7~10 | 10~22 | |||||||
Blast Hole Drilling (aggregate production for construction stabilization, cement production in limestone quarries and open pit mining) |
Rock drills | 14~21 | 12~29 | |||||||
Dewatering pumps | ||||||||||
Hand-held breakers | ||||||||||
High Pressure Drilling (drilling for water wells and foundations for high-rise buildings, along with geotechnical/geothermal applications) |
Water well drilling | 20~35 | 18~40 |
###
Selection table |
###
Small Series | |||||||||||
Small Series | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS55S-7 | 1.55 | 55 | 7 | 101.5 | D902 | 2925 | 1650 | 1200 | 1200 | 600 | |
MDS80S-7 | 2.24 | 80 | 7 | 101.5 | D1005 | 2925 | 1650 | 1200 | 1200 | 630 | |
MDS100S-7 | 2.8 | 100 | 7 | 101.5 | V1505 | 2925 | 1650 | 1200 | 1200 | 640 | |
MDS125S-7 | 3.5 | 125 | 7 | 101.5 | V1505 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS130S-8 | 3.7 | 132 | 8 | 116 | JE493 | 3065 | 1800 | 1500 | 1350 | 810 | |
MDS185S-7 | 5.18 | 185 | 7 | 101.5 | JE493 | 3200 | 1900 | 1740 | 1660 | 950 | |
MDS185S-10 | 5.18 | 185 | 10 | 145 | JE493 | 3050 | 1900 | 1740 | 1660 | 950 | |
###
Middle Series (Low&Medium pressure) | |||||||||||
Middle Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS265S-7 | 7.42 | 265 | 7 | 101.5 | JE493 | 3629 | 2200 | 1700 | 1470 | 1200 | |
MDS300S-14 | 8.4 | 300 | 14 | 203 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS350S-10 | 9.9 | 354 | 10 | 145 | 4BT3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-7 | 11 | 393 | 7 | 101.5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS390S-13 | 11 | 393 | 13 | 188.5 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS429S-7 | 12 | 429 | 7 | 101.5 | 4BTA3.9 | 3850 | 2600 | 1810 | 2378 | 1800 | |
MDS429S-14 | 12 | 429 | 14 | 203 | QSB4.5 | 3850 | 3100 | 1810 | 2378 | 1980 | |
MDS500S-14 | 14.1 | 504 | 14 | 203 | 6BTAA5.9 | 4550 | 3600 | 1810 | 2378 | 3100 | |
MDS690S-14 | 19.3 | 689 | 14 | 203 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS720S-10 | 20.2 | 721 | 10 | 145 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS750S-12 | 21 | 750 | 12 | 174 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS786S-10.3 | 22 | 786 | 10.3 | 149.35 | QSB6.7 | 4950 | 3300 | 2170 | 2620 | 3500 | |
MDS820S-14 | 23 | 821 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS850S-8.6 | 24 | 857 | 8.6 | 124.7 | 6CTAA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 | |
MDS900S-7.1 | 25.3 | 904 | 7.1 | 102.95 | 6CTA8.3 | 5300 | 4200 | 2170 | 2630 | 4600 | |
###
Middle Series (Medium&High pressure) | |||||||||||
Middle Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS460S-17 | 13 | 464 | 17 | 246.5 | 6BTAA5.9 | 4600 | 3500 | 1800 | 2230 | 3500 | |
MDS620S-17 | 17.4 | 621 | 17 | 246.5 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS650S-19 | 18.2 | 650 | 19 | 275.5 | QSL8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS690S-20.4 | 19.4 | 693 | 20.4 | 295.8 | 6LTAA8.9 | 5300 | 4200 | 2170 | 2630 | 5200 | |
MDS770S-21 | 21.6 | 771 | 21 | 304.5 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS830S-18 | 23.2 | 830 | 18 | 261 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS820S-25 | 23 | 821 | 25 | 362.5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
MDS860S-20.4/17.3 | 24.2 | 864 | 20.4 | 295.8 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
24.2 | 864 | 17.3 | 250.85 | ||||||||
MDS875S-23 | 24.5 | 875 | 23 | 333.5 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5600 | |
###
Large Series (Low&Medium pressure) | |||||||||||
Large Series (Low&Medium pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS900S-14.2/10.5 | 25.1 | 896 | 14.2 | 205.9 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
25.2 | 900 | 10.5 | 152.25 | ||||||||
MDS910S-14 | 25.6 | 914 | 14 | 203 | 6LTAA8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS970S-10 | 27.2 | 971 | 10 | 145 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1011S-8.6 | 28.3 | 1011 | 8.6 | 124.7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1054S-12 | 29.5 | 1054 | 12 | 174 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1250S-8.6 | 35 | 1250 | 8.6 | 124.7 | QSL8.9 | 5300 | 4200 | 2100 | 2630 | 5280 | |
MDS1400S-13 | 40 | 1400 | 13 | 188.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1600S-10.3 | 45 | 1600 | 10.3 | 149.35 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS1785S-13 | 50 | 1785 | 13 | 188.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 5800 | |
MDS2140S-10 | 60 | 2142 | 10 | 145 | QSZ14 | 7400 | 5400 | 2230 | 2630 | 8400 | |
Large Series (Medium&High pressure) |
###
Large Series (Medium&High pressure) | FAD | Pressure | Engine model | Dimensional Date(mm) | |||||||
m3/min | cfm | Bar | psig | length | width | height | weight(kg) | ||||
model | with tow bar | without tow bar | |||||||||
MDS900S-20 | 25.3 | 904 | 20 | 290 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS960S-18 | 26.9 | 961 | 18 | 261 | QSM11 | 5300 | 4200 | 2100 | 2630 | 5800 | |
MDS1000S-35 | 28.2 | 1000 | 35 | 507.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1089S-25 | 30.5 | 1089 | 25 | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1200S-24 | 33.6 | 1200 | 24 | 348 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-21 | 35 | 1250 | 21 | 304.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-25 | 35 | 1250 | 25 | 362.5 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1250S-30 | 35 | 1250 | 30 | 435 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-35 | 35 | 1250 | 35 | 507.5 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1250S-40 | 35 | 1250 | 40 | 580 | WP17G770E302 | 6200 | 4700 | 2100 | 2630 | 7800 | |
MDS1428S-18 | 40 | 1428 | 18 | 261 | QSZ13 | 6200 | 4700 | 2100 | 2630 | 7200 | |
MDS1428S-35 | 40 | 1428 | 35 | 507.5 | TAD1643VE-B | 7400 | 5500 | 2180 | 2650 | 10000 | |
MDS1428S-40 | 40 | 1428 | 40 | 580 | QSK19 | 7400 | 5500 | 2180 | 2650 | 10000 | |
MDS1600S-25 | 44.8 | 1600 | 25 | 362.5 | WP17G770E302 | 7400 | 5500 | 2180 | 2650 | 10000 |
###
GTL Air compressor test system |
A Buyer’s Guide to Air Compressor Types
There are many types of Air Compressors, and it’s important to understand what each type has to offer. In this article, we’ll discuss single stage air compressors, low-noise compressors, and models with two pistons. But, before you buy an Air Compressor, be sure to read our buyer’s guide to the various types. This way, you’ll have all of the information you need to make the right decision for your business.
Single-stage air compressors
A single-stage air compressor is an excellent choice for most general-purpose purposes. They provide enough power to operate pneumatic tools, and they produce less heat. Single-stage air compressors, however, are not suitable for heavy-duty industrial uses. However, they can be used in various applications, including auto shops, gas stations, and various manufacturing facilities. They are also suitable for borewells and other high-pressure places.
These air compressors are a great choice for home use and are suitable for small-scale businesses, contractors, and small shops. These compressors have continuous duty cycles, cast iron compressor pumps, and a minimum 5,000-hour pump life. They also feature advanced features, including ODP motors, Auto Start & Controls, Receiver tanks, and power cords. They have low maintenance and can save you a great deal of money.
Single-stage air compressors are generally less expensive and lighter than their two-stage counterparts. Single-stage air compressors are also more portable, which is a plus for small projects. While two-stage compressors offer higher CFM, they are more powerful and bulky, making them unsuitable for small or home use. So it is essential to determine what you will use the air compressor for and decide on a model based on your needs.
A single-stage air compressor is made of a piston and a tank. The piston moves rapidly inside the cylinder and exerts pressure on the cylinder. This means that the piston can’t move any faster than the air pressure outside the cylinder. The piston is designed to operate in the same way for each stage. This is a great choice for home shops and one-man automotive shops, as it allows you to control the pressure without sacrificing the pump’s life.
Single-stage air compressors are often cheaper than two-stage versions, but they are not the best choice for every application. If you are only using your air compressor occasionally, you’ll find a one-stage model to be much more reliable than a two-stage model. The main difference between the two types of compressors is in the amount of air that each stage compresses. A two-stage air compressor will have more air storage capacity, but it will still produce more pressure.
Rotary vane compressors
Rotary vane compressors use a centrifugal pump to compress air. The rotor is set eccentrically in the housing, which almost touches the vane. As the rotor turns, the air that enters the pump is trapped between the vanes. This compressed air undergoes compression as the rotor rotates. Vanes are small pieces of carbon fiber or graphite composite. Vanes may be made of different materials depending on the application.
While rotary vane pumps are not commonly used to produce compressed air, they are widely used in automotive and hydraulic applications. Chances are, you have used a rotary vane pump at some point in your life. These pumps are also common in the vacuum and compressed air industries. As a result, many people don’t realize that they’re still around. They feature slots that allow the vanes to slide in and out of the rotor.
A rotary vane compressor has a drum and rotor inside. The rotor is eccentrically positioned and has slots and grooves on its surface. Its inlet and outlet ports are situated off-center, allowing the vanes to be pushed out by centrifugal force. Because the rotor rotates so quickly, air is trapped between the vanes. This air then becomes pressurized by the rotating rotor.
Rotating vane compressors can be easily serviced and repaired. A simple replacement of carbon vanes requires just 15 minutes and common tools. The carbon vanes typically last nine to eighteen months, depending on system operating pressure. Before purchasing a rotary vane compressor, make sure to check whether it has been properly performance-tested and has a warranty. Generally, warranties cover the rotor/stator chambers but do not cover the vanes or air filters. You should also check if the unit is covered by a lightning or water damage warranty.
Rotary vane compressors are an integral part of manufacturing industries. Many pharmaceutical manufacturing facilities depend on rotary vane compressors to control their equipment. Other industries that use rotary vane compressors include the plastics, woodworking, natural gas, and medical & dental fields. Their benefits are numerous and far outweigh any disadvantages of rotary screw compressors. For example, a rotary vane compressor can double the life of a conventional compressor.
Rotary vane compressors with low-noise models
If you are looking for a rotary vane air compressor, you have come to the right place. CZPT’s LV Series rotary vane compressors offer low-noise models, compact size, and robust integration. In addition to their low-noise features, they feature large filter systems to deliver high-quality compressed air. The LV Series models also feature CZPT’s reputation for reliability and quality.
This type of compressor uses centrifugal force to operate and is limited in its top and minimum operating speeds. They are only a third as powerful as screw compressors, and their top speed limits are much lower. Furthermore, the vanes wear out easily at high speeds because there is not enough centrifugal force to seal them against the cylinder’s edges. Even at half their full capacity, they consume as much as 80% of their total energy rating.
Because piston compressors produce a lot of noise, factory owners and shop owners have begun to install noise-dampening cabinets and other solutions. But, rotary vane compressors produce far less noise than a traditional vacuum, and the maintenance costs are also low. Rotary vane compressors are also extremely helpful in several industries. They are used in the automotive and auto finishing industries, as well as in dairy industries and milking machines.
If you have a deep pond, a rotary vane air compressor kit can pump up to 20 feet of water. This is more than enough airflow for two to five diffusers. A 1/4 HP rotary vane kit pumps around 4.2 CFM. It also helps to increase circulation and oxygen levels in the pond. Finally, a 1/4 HP kit offers the necessary power to clean up the bottom of a pond.
The rotary vane and rotary screw are the most popular air compressors today. While they are similar in many ways, they are more versatile and durable than their counterparts. They use fewer angular contact ball bearings and require less frequent maintenance than piston air compressors. Compared to piston air compressors, rotary vane and rotary screw compressors are quieter and are less expensive.
Rotary vane compressors with two pistons
The rotary vane and rotary screw compressors are similar in application, but both have different advantages and disadvantages. This article will compare the benefits of each and highlight the differences between them. While both are commonly used in industrial applications, rotary vane compressors are preferred by many industries. These compressors also have a wide range of uses, ranging from automotive air tool operation to milking machines. These compressors also have the advantage of being quieter than piston-powered ones.
The current common rail position may not be suitable for pressure swirl injectors, but new positions have been tested and show improvements in specific energy values. Moreover, the current position is not required for external oil pumps. However, mass induction and expulsion have to be performed with utmost care. This article focuses on the design and efficiency of rotary vane compressors. You can find more information about this new design in the references mentioned below.
The advantages of this type of compressor are its low cost, compact size, and easy maintenance. Hence, they are preferred in low capacity applications. Moreover, they feature integrated vanes. The rotating vanes close the air gap and compress air towards the outlet. Compared to piston-powered compressors, these units are cheaper and more reliable. Therefore, you should choose one with the lowest price tag. You can also opt for rotary vane compressors that are oil-free.
Sliding vane compressors are another popular variant. They have a single cylinder connected to the compressor and are capable of operating at low speeds. This design also reduces the amount of friction and maintains volumetric efficiency. However, the sliding vane compressors suffer from high frictional losses. If you are looking for a more efficient rotary compressor, this is the best option. While sliding vane compressors have been in the spotlight for over a century, they are still quite young.
These compressors are easy to install and maintain. They are also quieter than piston compressors. They are also cheaper than piston-driven compressors. The energy efficiency and low price make them the perfect choice for any commercial or industrial application. If you’re looking for a small, compact compressor, the rotary vane has been proven to be the best choice for your needs. You should know that it has a long service life.
editor by czh 2022-11-26
China Custom Cheap Price Mobile Diesel Kaishan 15KW Mining Air Compressor without diesel engine for sale air compressor for car
Applicable Industries: Producing Plant, Development works , Vitality & Mining, Other
Showroom Area: Viet Nam, Philippines, Indonesia, India
Problem: New
Variety: PISTON
Configuration: Transportable
Energy Resource: Diesel/AC Energy
Lubrication Fashion: Lubricated
Mute: NO
Product Amount: W-2.6/five
Voltage: 12V
Guarantee: 1 12 months
Operating Stress: 5bar
Air capability: 2.6m3/min
Machinery Test Report: Supplied
Video outgoing-inspection: Offered
Advertising and marketing Sort: New Solution 2571
Guarantee of main components: 1 Year
Main Elements: Engine, Motor, Pump
Gasoline Type: Air
Product identify: W-2.6/5 mining piston air compressor
Cooling strategy: Air Cooling
Pressure: 5bar,73psi
Potential: 2.6m3/min
Complete compressor bodyweight: 480kg
Dimension: 1780*870*1235mm
Diesel engine: S1110 diesel motor
Rated velocity: 1571 r/min
Piston stroke: 100mm
Pushed approach: Belt driven
Packaging Particulars: CZPT 15kw 20hp reciprocating mining air compressor for sale packing particulars: 1.plywood situations suitable for sea transportation 2.Fumigation-free of charge wood circumstances 3.simple bundle and as customer’s necessity customer’s needs.
Port: HangZhou or ZheJiang
Product Specifics
Product | W-2.6/5 |
Diesel motor | S1110 |
Cylinder(Diamm*Qty) | a hundred and fifteen*three |
Operating stress(mpa) | .five |
Air shipping and delivery(m3/min) | 2.six |
Our Organization R&D/Producing
Certifications Packing & Delivery Pre-Sales Solutions1.Inquiry and consulting assistance
2.Sample tests assist
3.Look at our Factory
Soon after -Revenue Serviceone.Education how to install the device,instruction how to use the device.
two.Engineers available to support machinery abroad.
FAQ Q1: What is the precisely tackle of your organization?A1: Area 102, Building 3, No. twelve, Bailing Middle Street, Xihu (West Lake) Dis. District, HangZhou, ZHangZhoug,China.Q2: Are you manufacturing unit or trading company?A2: Now, we are a investing company. But our enterprises are transforming and upgrading to a manufacturer.Q3: Do you source spare components of equipment?A3: Sure, we do. Not only air compressor spare components like filter factors, but only drilling equipment spare parts like drill bits, pipes and so on could be provided to you.Q4: How about payment terms?A4: Ordinary, our clients spend thirty%T/T 1st as deposit, then we prepare the items, the stability must be compensated ahead of delivery.Q5: How about trade terms?A5: EXW, FOB, CIF and CFR are the trade conditions we usually use, but other people are also offered. It’s up to our consumers.If you want to know more, feel free of charge to contact us!
How to Repair and Maintain an Air Compressor
A compressor is a device used to move air from one place to another. Air enters the air compressor through the intake valve. Inside the compressor, the vanes on the inner rotor rotate within an eccentric cavity. The self-adjusting length arm divides the space into multiple cavities of different sizes. As the rotor rotates, air fills the cavity. As air flows around the cavity, it builds pressure and is squeezed out of the compressor output.
Positive displacement
Positive displacement air compressors use reciprocating pistons to compress air. Gas is drawn in during the suction stroke and compressed by moving the piston in the opposite direction. It then discharges the compressed air by moving it in the opposite direction. This type of air compressor is most commonly found in automobiles, refrigerators, and other applications that require high pressure. However, it is not as efficient as a centrifugal compressor.
Most modern air compressors use positive displacement. Positive displacement models capture a volume of air in the compression chamber and distribute it when the pump is operating at maximum capacity. They are more economical than their negative displacement counterparts. Reciprocating screw air compressors are the most common positive displacement compressors. The reciprocating screw air compressor adopts a water jacket around the cylinder and is often used in processes such as oil drilling.
A bicycle pump is an example of positive displacement compression. Air is drawn into the cylinder and compressed by the moving piston. A piston compressor works on the same principle, but it uses a rotating crankshaft or connecting rod to complete the movement of the pistons. There are two types of positive displacement compressors: single-acting and double-acting. Both types work on the same principle, both are positive displacement compressors. The difference between the two types is the pressure ratio.
In air compression, positive displacement compression reduces the volume of the fluid and reduces its viscosity. This results in higher pressure ratios and is used in centrifugal, axial, and scroll compressors. Positive displacement is a common feature of most air compressors. Positive displacement compressors offer the same benefits and are more energy-efficient when applied to oil-free and gas applications. This type of compression is usually the best choice for low-pressure applications.
oil free
If you’re looking for an air compressor for your business, consider an oil-free air compressor. These models offer cleaner, quieter operation than traditional air compressors and require less maintenance. They also meet ISO Class 0 or Class 1 air purity requirements. Oil-free air compressors are also quieter, with fewer moving parts and less noise. These advantages make oil-free air compressors an ideal solution for many commercial applications.
Air purity is critical in many industries. Even the tiniest drop of oil can damage production equipment or damage products. The best way to find an oil-free air compressor for your business is to consider the process and end product. As air quality improves, more and more businesses are turning to oil-free compressors. Some of the advantages and disadvantages of these air compressors are:
When choosing an oil-free air compressor, it is important to understand the terminology used in the industry. Knowing these terms will make it easier for you to choose the right compressor for your needs. ACTFM, or actual cubic feet per minute, is an industry term for measuring the amount of air pumped in one minute under rated conditions. Although a simple number, it can be very useful in determining which type of air compressor is best for your application.
The ISO 8573-1 international standard defines air quality and provides air purity classifications. The strictest classification is air purity class 0. Many manufacturers claim that oil-free air compressors meet this standard. However, a class 0 oil-free air compressor does not necessarily mean that the air is free of contaminants. In fact, Class 0 is the benchmark for air purity. While zero air quality is the highest level, that doesn’t mean it’s completely oil-free.
double acting
A double-acting air compressor is a device that uses compressed air to generate electricity. Its working principle is based on piston and connecting rod. The connecting rod connects the crankshaft to the piston through pins and caps. The piston moves as the piston moves. Rods are usually made of forged carbon steel. In terms of service and maintenance, double-acting compressors require regular vise maintenance and proper cleaning.
The displacement of the compressor is a measure of the displacement that the piston can produce in a certain period of time. Displacement is usually expressed in actual cubic feet per minute. The exact calculation depends on the type of cylinder and the configuration of the compressor. Single-acting cylinders can have head-end or crank-end displacement, both of which can be measured using the displacement equation. A double-acting air compressor will use this equation. 4 and 6 calculate the displacement.
Double-acting air compressors have multiple cylinders and are made of cast iron. They are water-cooled and have a mechanical connection between the piston and connecting rod. A double-acting compressor compresses air twice per revolution of the motor. One cylinder moves up, while the other cylinder moves down. The piston moves down, allowing air to enter through valve #1. During the operation of the compressor, the temperature of the air and gas increases.
Double-acting air compressors typically have high pressure and are considered workhorses. Double-acting compressors also feature intercooling and double compression. As a result, these machines tend to last longer than single-acting compressors. Its low speed and dual compression make it a workhorse in the compressor industry. Double-acting air compressors are workhorses and versatile devices.
fuel tank pressure switch
You can adjust the pressure in the air compressor tank by adjusting the differential pressure. You can turn the mainspring clockwise or counterclockwise to increase or decrease the pressure. This valve will open when the pressure is low enough to start the compressor. If the pressure is too low, the valve should be closed. The cut-in and cut-out pressures should be set to appropriate values. After adjusting the tank pressure, check the hysteresis of the tank pressure switch and set the desired shutoff pressure.
If the pressure in the tank falls below the cut-in level, the tank pressure switch must be replaced. You can test the switch with a multimeter. Make sure the switch is not damaged. If you can’t find the switch, you can look at the other sections. If you find any damaged or missing parts, you should replace them. Otherwise, it may be time to check the tank pressure switch. You may need to disassemble the compressor and remove the switch.
The fuel tank pressure switch is an important part of the air compressor. It keeps you informed of the amount of air delivered by the compressor. If your tank or tank is damaged, your readings will be wrong. If the pressure switch is damaged, it will not function properly and result in incorrect readings. Fortunately, there are some easy ways to fix this. To prevent this from happening, keep the tank pressure switch in good condition.
When the air pressure in the tank drops to the cut-in pressure setting, the switch allows power to flow through it. This will start the motor and pump of the air compressor. Then, if the pressure in the tank rises above the cut-off level, the switch will trip and stop the compressor. This will prevent it from being over-pressurized. Power flow will continue to flow to the motor. Depending on your compressor model, you can change the cut-in and cut-out pressures as needed.
energy source
The power supply of the air compressor is very important. Most air compressors run on 12 VDC, which is ideal for automotive use. Alternatively, you can buy a switching power supply for around $20. No matter which power supply you choose, you must ensure that it can support the maximum current of the compressor. You can find power supplies in all sizes, from quarter-horsepower to five-horsepower.
The voltage required for a three-phase air compressor will vary. Three-phase air compressors require three separate power cords and a three-phase electrical service panel. This is because a standard 120/240-volt electrical service panel is not sufficient to power a three-phase compressor. Additionally, three-phase compressors require three separate isolated wires for the engine and motor circuits. Three-phase compressors do not require a neutral wire.