China Professional Sm148t4vc Sm160t4cc Sm160t4RC Sm161t4vc Sm161t9vc Sm161t3vc Air CHINAMFG Conditioning Freezer Scroll Compressor 12HP 13HP manufacturer

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.

 

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Installation Type: Movable Type
Lubrication Style: Lubricated
Cylinder Position: Vertical
Model: Vzh088bgcna
Samples:
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air compressor

What is the impact of humidity on compressed air quality?

Humidity can have a significant impact on the quality of compressed air. Compressed air systems often draw in ambient air, which contains moisture in the form of water vapor. When this air is compressed, the moisture becomes concentrated, leading to potential issues in the compressed air. Here’s an overview of the impact of humidity on compressed air quality:

1. Corrosion:

High humidity in compressed air can contribute to corrosion within the compressed air system. The moisture in the air can react with metal surfaces, leading to rust and corrosion in pipes, tanks, valves, and other components. Corrosion not only weakens the structural integrity of the system but also introduces contaminants into the compressed air, compromising its quality and potentially damaging downstream equipment.

2. Contaminant Carryover:

Humidity in compressed air can cause carryover of contaminants. Water droplets formed due to condensation can carry particulates, oil, and other impurities present in the air. These contaminants can then be transported along with the compressed air, leading to fouling of filters, clogging of pipelines, and potential damage to pneumatic tools, machinery, and processes.

3. Decreased Efficiency of Pneumatic Systems:

Excessive moisture in compressed air can reduce the efficiency of pneumatic systems. Water droplets can obstruct or block the flow of air, leading to decreased performance of pneumatic tools and equipment. Moisture can also cause problems in control valves, actuators, and other pneumatic devices, affecting their responsiveness and accuracy.

4. Product Contamination:

In industries where compressed air comes into direct contact with products or processes, high humidity can result in product contamination. Moisture in compressed air can mix with sensitive products, leading to quality issues, spoilage, or even health hazards in industries such as food and beverage, pharmaceuticals, and electronics manufacturing.

5. Increased Maintenance Requirements:

Humidity in compressed air can increase the maintenance requirements of a compressed air system. Moisture can accumulate in filters, separators, and other air treatment components, necessitating frequent replacement or cleaning. Excessive moisture can also lead to the growth of bacteria, fungus, and mold within the system, requiring additional cleaning and maintenance efforts.

6. Adverse Effects on Instrumentation:

Humidity can adversely affect instrumentation and control systems that rely on compressed air. Moisture can disrupt the accuracy and reliability of pressure sensors, flow meters, and other pneumatic instruments, leading to incorrect measurements and control signals.

To mitigate the impact of humidity on compressed air quality, various air treatment equipment is employed, including air dryers, moisture separators, and filters. These devices help remove moisture from the compressed air, ensuring that the air supplied is dry and of high quality for the intended applications.

air compressor

How are air compressors utilized in pneumatic tools?

Air compressors play a crucial role in powering and operating pneumatic tools. Here’s a detailed explanation of how air compressors are utilized in pneumatic tools:

Power Source:

Pneumatic tools rely on compressed air as their power source. The air compressor generates and stores compressed air, which is then delivered to the pneumatic tool through a hose or piping system. The compressed air provides the force necessary for the tool to perform various tasks.

Air Pressure Regulation:

Air compressors are equipped with pressure regulation systems to control the output pressure of the compressed air. Different pneumatic tools require different air pressure levels to operate optimally. The air compressor’s pressure regulator allows users to adjust the output pressure according to the specific requirements of the pneumatic tool being used.

Air Volume and Flow:

Air compressors provide a continuous supply of compressed air, ensuring a consistent air volume and flow rate for pneumatic tools. The air volume is typically measured in cubic feet per minute (CFM) and determines the tool’s performance capabilities. Higher CFM ratings indicate that the pneumatic tool can deliver more power and operate at a faster rate.

Tool Actuation:

Pneumatic tools utilize compressed air to actuate their mechanical components. For example, an air-powered impact wrench uses compressed air to drive the tool’s internal hammer mechanism, generating high torque for fastening or loosening bolts and nuts. Similarly, air-powered drills, sanders, nail guns, and spray guns rely on compressed air to power their respective operations.

Versatility:

One of the significant advantages of pneumatic tools is their versatility, and air compressors enable this flexibility. A single air compressor can power a wide range of pneumatic tools, eliminating the need for separate power sources for each tool. This makes pneumatic tools a popular choice in various industries, such as automotive, construction, manufacturing, and woodworking.

Portability:

Air compressors come in different sizes and configurations, offering varying degrees of portability. Smaller portable air compressors are commonly used in applications where mobility is essential, such as construction sites or remote locations. The portability of air compressors allows pneumatic tools to be used in various work environments without the constraints of being tethered to a fixed power source.

Overall, air compressors are integral to the functionality and operation of pneumatic tools. They provide the necessary power, air pressure regulation, and continuous airflow required for pneumatic tools to perform a wide range of tasks efficiently and effectively.

air compressor

What is the impact of tank size on air compressor performance?

The tank size of an air compressor plays a significant role in its performance and functionality. Here are the key impacts of tank size:

1. Air Storage Capacity: The primary function of the air compressor tank is to store compressed air. A larger tank size allows for greater air storage capacity. This means the compressor can build up a reserve of compressed air, which can be useful for applications that require intermittent or fluctuating air demand. Having a larger tank ensures a steady supply of compressed air during peak usage periods.

2. Run Time: The tank size affects the run time of the air compressor. A larger tank can provide longer continuous operation before the compressor motor needs to restart. This is because the compressed air in the tank can be used to meet the demand without the need for the compressor to run continuously. It reduces the frequency of motor cycling, which can improve energy efficiency and prolong the motor’s lifespan.

3. Pressure Stability: A larger tank helps maintain stable pressure during usage. When the compressor is running, it fills the tank until it reaches a specified pressure level, known as the cut-out pressure. As the air is consumed from the tank, the pressure drops to a certain level, known as the cut-in pressure, at which point the compressor restarts to refill the tank. A larger tank size results in a slower pressure drop during usage, ensuring more consistent and stable pressure for the connected tools or equipment.

4. Duty Cycle: The duty cycle refers to the amount of time an air compressor can operate within a given time period. A larger tank size can increase the duty cycle of the compressor. The compressor can run for longer periods before reaching its duty cycle limit, reducing the risk of overheating and improving overall performance.

5. Tool Compatibility: The tank size can also impact the compatibility with certain tools or equipment. Some tools, such as high-demand pneumatic tools or spray guns, require a continuous and adequate supply of compressed air. A larger tank size ensures that the compressor can meet the air demands of such tools without causing pressure drops or affecting performance.

It is important to note that while a larger tank size offers advantages in terms of air storage and performance, it also results in a larger and heavier compressor unit. Consider the intended application, available space, and portability requirements when selecting an air compressor with the appropriate tank size.

Ultimately, the optimal tank size for an air compressor depends on the specific needs of the user and the intended application. Assess the air requirements, duty cycle, and desired performance to determine the most suitable tank size for your air compressor.

China Professional Sm148t4vc Sm160t4cc Sm160t4RC Sm161t4vc Sm161t9vc Sm161t3vc Air CHINAMFG Conditioning Freezer Scroll Compressor 12HP 13HP   manufacturer China Professional Sm148t4vc Sm160t4cc Sm160t4RC Sm161t4vc Sm161t9vc Sm161t3vc Air CHINAMFG Conditioning Freezer Scroll Compressor 12HP 13HP   manufacturer
editor by CX 2024-04-27