China VW-5/1-45 Energy-Saving Motor Nitrogen Natural Gas Piston Compressor Air Booster air compressor portable

Solution Description

HangZhou CZPT Gasoline Gear Co.,Ltd, exporting diaphragm compressor, piston compressor, oxygen generator, gas cylinder and nitrogen generators with good high quality and reduced price tag.

Piston compressor is a variety of piston reciprocating movement to make gasoline pressurization and gas shipping and delivery compressor mostly is made up of operating chamber, transmission parts, physique and auxiliary areas. The working chamber is right utilised to compress the fuel, the piston is pushed by the piston rod in the cylinder for reciprocating movement, the volume of the working chamber on both sides of the piston adjustments in switch, the volume decreases on 1 aspect of the gas due to the force improve by means of the valve discharge, the volume raises on 1 facet thanks to the reduction of air force via the valve to absorb the gas.

All-natural gasoline compressor
product description
This series of compressor units are primarily utilised in the pressurized transportation of pipeline all-natural fuel, oil and gasoline treatment method plants and other occasions.  
Characteristics
one. Trustworthy operation and effortless servicing.  
2. Flexible load adjustment, wide range of air consumption, and extensive adaptability.  
3. The general skid-mounted structure has minimal sound, straightforward to set up in city places, and will save investment decision.  
4. Siemens PLC control system has a substantial degree of automation and is convenient for distant manage.
Technical parameters and specs

No Model Fuel circulation
(Nm3/h)
Inlet strain
(Mpa)
Outlet stress
(Mpa)
Power
(kw)
Dimensions
(mm)
one ZW-.4/ 2-250 sixty .2 25 18.5 2800*2200*1600
two ZW-.eighty one/ (1~3)-25 one hundred twenty .1~.3 2.five 22 a thousand*580*870
three DW-5.8/.5-5 four hundred~500 .05 .five 37 2000*1600*1200
4 DW-10/2 510 Atmospheric strain .2 37 2000*1600*1200
5 DW-6./5 300 Atmospheric pressure .five 37 2000*1600*1200
six DW-.21/(20~30)-250 270 two~3 twenty five 45 3200*2200*1600
7 ZW-.16/sixty-250 480 six 25 forty five 3000*2200*1600
eight ZW-.forty six /(5~10)-250 200 .5~1. twenty five 45 3000*2200*1600
9 DW-1.34/2-250 208 .two twenty five 55 3400*2200*1600
10 DW-.6/24-eighty five 720 two.4 8.five 55 2200*1600*1200
eleven ZW-2.9/14.2-twenty 220 one.42 two fifty five 2200*1600*1200
twelve VW-2./(2~4)-25 410 .2~.4 two.5 55 3400*2200*1600
13 DW-.85/(3~4)-250 a hundred and eighty .3~.four 25 fifty five 2400*1800*1500
fourteen DW-twenty five-(.2~.3)-1.5 1620 .02~.03 .15 75 2400*1800*1500
fifteen VW-8./.3-twenty five 540 .03 two.five ninety 2400*1800*1500
16 DW-6.8/.05-40 200~four hundred .005 four 90 2400*1800*1500
seventeen DW-1.2 /6-250 420 .6 twenty five ninety 3400*2200*1600
18 DW-3.45/3.5-28 800 .35 2.8 ninety 2400*1800*1500
19 DW-8.3/.6-15 660 .06 fifteen ninety 2400*1800*1500
20 DW-.forty eight/forty-250 900 four 25 a hundred and ten 3400*2200*1600
21 DW-2.7/2-two hundred 420 .two twenty one hundred ten 3400*2200*1600
22 VW-3.22/2-250 500 .2 25 132 3400*2200*1600
23 DW-6./(1~3)-twenty five 840 .1~.3 2.5 132 3400*2200*1300
24 DW-.92/sixteen-220 800 one.six 22 132 3400*2200*1600
25 VW-3.5/2.5-250 600 .25 25 one hundred sixty 4000*2000*1600
26 DW-6.7/2-25 1571 .two two.five one hundred sixty 4000*2000*1300
27 DW-3./3-250 five hundred .three 25 a hundred and sixty 4800*2200*1600
28 DW-30.50/.05-4.three 1620 .005 .43 160 4800*2200*1300
29 DW-1.1/ten-250 600 one 25 160 4800*2200*1600
thirty DW-3.35/(2~3)-250 600 .2~.3 25 one hundred sixty 4800*2200*1600
31 DW-7.7/.5-one hundred fifty 600 .05 15 a hundred and sixty 4800*2200*1600
32 VW-2.6/5-250 800 .5 twenty five 185 4800*3900*1850
33 DW-.9/40-250 1860 4 25 220 5500*3900*1700
34 DW-19.35/(4~6)-twelve 6000 .4~.six one.2 280 5500*3900*1700
35 DW-34/1.04-8.5 3540 .104 .85 315 6500*4000*1800
36 DW-7.5/thirty-48 17400 3 four.eight 350 6800*4000*1800

Casing Gas Recovery Compressor
Casing gas refers to the organic fuel in the casing when the oil creation well is producing oil. If its pressure is high, it will have an effect on the oil manufacturing. Initially, it was right vented. 1 is to pollute the setting, and the other is to waste energy. Now the use of compressor booster restoration is not only helpful to oil creation and environmental security, but also a good evaluate to improve financial positive aspects. The main factors of its fuel are methane, ethane, carbon 3, carbon 4 and other gases, and hydrogen sulfide and water are blended in it, and the parts are comparatively combined. Ahead of getting into the compressor, it typically requirements to be purified to remove the acrobatics and liquid cost-free water. And then in accordance to the various wants of customers to increase to diverse stress amounts.
one. For immediate recovery through the oil pipeline, the force wants to be improved to about fifteen~twenty kg, relying on the stress of the oil pipeline.
2. Push it to about forty five kg and transportation it by medium stress tanker.
three. Press to 250 kg and transportation by higher stress tanker.

The latter 2 approaches are appropriate for use in collecting and transportation stations. Most of the solitary wells have a small gas quantity and are reasonably scattered, which is not conducive to the rapid loading and transportation of tankers.
The casing gasoline restoration compressor is also suitable for oilfield linked fuel, wellhead gas and other similar situations.

Pipeline normal fuel booster
During the use of pipeline all-natural fuel, due to factors these kinds of as the length of the pipeline, pipe diameter, elbow and other aspects, certain pipe losses are triggered, and it is simple to lead to insufficient stress when using fuel. At this time, it is required to use booster products to increase the stress of organic gasoline to fulfill the requirements of use.

The reference product

Approach Medium Flow(Nm3/h) Inlet strain
(MPaG)
Outlet ressure
(MPaG)
ZW-.2/1-18 Casing normal gasoline 20 .1 1.8
ZW-.4/1-eighteen Casing organic fuel forty .one 1.8
ZW-.fifty five/1-eighteen Casing normal gasoline 55 .one one.eight
ZW-1./1-18 Casing normal gas a hundred .one 1.eight
ZW-.2/3 Organic gasoline 10 Normal stress .3
ZW-.25/.5-2 Organic gasoline 20 .05 .2
ZW-.twenty five/40-60 Natural fuel 520 4. 6.
ZW-.3/18-19 Natural gas three hundred 1.8 one.9
ZW-.5/three Organic fuel 25 Regular force .3
ZW-.fifty five/6-a hundred and twenty Normal gasoline two hundred .six 12.
ZW-.6/(ten-16)-forty All-natural fuel 350~530 one.~1.six four.
ZW-.6/2-25 All-natural gas ninety .two two.5
ZW-.sixty five/.12-.five Normal fuel 35 .012 .05
ZW-.seventy five/5.7 Organic gas forty Normal force .57
ZW-.8/2-210 All-natural fuel 125 .2 21.
ZW-.eighty five/.8-three Natural gasoline 80 .08 .three
ZW-.85/1-22 All-natural gas eighty five .one 2.2
ZW-1./(1-2)-25 All-natural gasoline one hundred~a hundred and fifty .1~.two 2.5
ZW-1./5-15 All-natural gasoline 310 .5 1.5
ZW-1.2/1.5-22 Natural gas one hundred fifty .fifteen 2.two
ZW-1.2/twenty-24 Normal gas 1300 2. 2.four
ZW-1.3/4-twenty five Organic fuel 340 .four 2.5
ZW-1.9/14.5-20 Natural gas 1540 1.forty five 2.
ZW-2./(1-2)-10 Organic gas 210~310 .1~.two one.
ZW-2./.005-three All-natural gasoline one zero five .0005 .3
ZW-2.5/(1-2)-sixteen Natural gas 260~390 .1~.two 1.6
ZW-2.5/1.seventy two-4.5 Normal gasoline 350 .172 .45
ZW-2.5/fourteen.5-20 All-natural fuel 2000 1.forty five 2.
ZW-2.5/2-ten Normal fuel 390 .2 1.
ZW-3.15/2.9 All-natural fuel one hundred sixty Regular force .29
ZW-5.5/.1-1.two Normal gasoline 315 .01 .12
ZW-7/.5-3 Organic fuel 550 .05 .3
ZW-8.5/.5-1.five All-natural fuel 660 .05 .15
VW-9./7 Normal gasoline 470 Regular pressure .seven
VW-7/.3-45 All-natural fuel 470 .03 four.five
VW-6/ten-16 Normal gasoline 3400 one. 1.6
VW-6/3-8.5 Natural fuel 1250 .3 .eighty five
VW-5/2-9 All-natural gasoline 780 .two .9
VW-5./2-forty two All-natural fuel 780 .two four.2
VW-4/1-twenty Natural fuel 415 .one 2.
VW-4/5-16 All-natural fuel 1250 .five 1.six
VW-4.2/3-35 Natural gas 880 .3 3.5
VW-3/1-45 All-natural fuel 310 .1 4.5
VW-3.8/2-42 All-natural fuel 600 .two 4.two
VW-20/2-5 All-natural fuel 3100 .2 .five
VW-2/1-forty two Natural gasoline 210 .one 4.two
VW-2.5/.5-eighteen All-natural gas 195 .05 1.8
VW-2.5/2-forty Organic gasoline 390 .2 4.
VW-2.4/.04-14 Normal gasoline 130 .004 one.four
VW-15/.5-3 Natural gasoline two hundred .05 .3
VW-fourteen/3-4 All-natural fuel 2900 .three .four
VW-14.5/.5-2 Normal fuel 1100 .05 .2
VW-ten/2-6.5 Organic fuel 1500 .2 .sixty five
VW-1.9/fifteen-24 Natural fuel 1550 one.5 2.four
VW/7/.3-45 Organic gasoline 470 .03 four.5
VW/-fifteen/one Natural fuel 800 Regular stress .one
DW-7/four Normal gas 350 Regular strain .four
DW-4/.2-twelve Organic gasoline 250 .02 1.two
DW-ten/1-45 Natural gasoline 1050 .one 4.5

 

 

 

 

 

 

 

 

 

 

 

 

US $5,800-42,900
/ set
|
1 set

(Min. Order)

###

Lubrication Style: Lubricated
Cooling System: Water Cooling
Cylinder Arrangement: Balanced Opposed Arrangement
Cylinder Position: Angular
Structure Type: Closed Type
Compress Level: Double-Stage

###

Customization:

###

No Model Gas flow
(Nm3/h)
Inlet pressure
(Mpa)
Outlet pressure
(Mpa)
Power
(kw)
Dimensions
(mm)
1 ZW-0.4/ 2-250 60 0.2 25 18.5 2800*2200*1600
2 ZW-0.81/ (1~3)-25 120 0.1~0.3 2.5 22 1000*580*870
3 DW-5.8/0.5-5 400~500 0.05 0.5 37 2000*1600*1200
4 DW-10/2 510 Atmospheric pressure 0.2 37 2000*1600*1200
5 DW-6.0/5 300 Atmospheric pressure 0.5 37 2000*1600*1200
6 DW-0.21/(20~30)-250 270 2~3 25 45 3200*2200*1600
7 ZW-0.16/60-250 480 6 25 45 3000*2200*1600
8 ZW-0.46 /(5~10)-250 200 0.5~1.0 25 45 3000*2200*1600
9 DW-1.34/2-250 208 0.2 25 55 3400*2200*1600
10 DW-0.6/24-85 720 2.4 8.5 55 2200*1600*1200
11 ZW-2.9/14.2-20 220 1.42 2 55 2200*1600*1200
12 VW-2.0/(2~4)-25 410 0.2~0.4 2.5 55 3400*2200*1600
13 DW-0.85/(3~4)-250 180 0.3~0.4 25 55 2400*1800*1500
14 DW-25-(0.2~0.3)-1.5 1620 0.02~0.03 0.15 75 2400*1800*1500
15 VW-8.0/0.3-25 540 0.03 2.5 90 2400*1800*1500
16 DW-6.8/0.05-40 200~400 0.005 4 90 2400*1800*1500
17 DW-1.2 /6-250 420 0.6 25 90 3400*2200*1600
18 DW-3.45/3.5-28 800 0.35 2.8 90 2400*1800*1500
19 DW-8.3/0.6-15 660 0.06 15 90 2400*1800*1500
20 DW-0.48/40-250 900 4 25 110 3400*2200*1600
21 DW-2.7/2-200 420 0.2 20 110 3400*2200*1600
22 VW-3.22/2-250 500 0.2 25 132 3400*2200*1600
23 DW-6.0/(1~3)-25 840 0.1~0.3 2.5 132 3400*2200*1300
24 DW-0.92/16-220 800 1.6 22 132 3400*2200*1600
25 VW-3.5/2.5-250 600 0.25 25 160 4000*2000*1600
26 DW-6.7/2-25 1020 0.2 2.5 160 4000*2000*1300
27 DW-3.0/3-250 500 0.3 25 160 4800*2200*1600
28 DW-30.50/0.05-4.3 1620 0.005 0.43 160 4800*2200*1300
29 DW-1.1/10-250 600 1 25 160 4800*2200*1600
30 DW-3.35/(2~3)-250 600 0.2~0.3 25 160 4800*2200*1600
31 DW-7.7/0.5-150 600 0.05 15 160 4800*2200*1600
32 VW-2.6/5-250 800 0.5 25 185 4800*3900*1850
33 DW-0.9/40-250 1860 4 25 220 5500*3900*1700
34 DW-19.35/(4~6)-12 6000 0.4~0.6 1.2 280 5500*3900*1700
35 DW-34/1.04-8.5 3540 0.104 0.85 315 6500*4000*1800
36 DW-7.5/30-48 17400 3 4.8 350 6800*4000*1800

###

Method Medium Flow(Nm3/h) Inlet pressure
(MPaG)
Outlet ressure
(MPaG)
ZW-0.2/1-18 Casing natural gas 20 0.1 1.8
ZW-0.4/1-18 Casing natural gas 40 0.1 1.8
ZW-0.55/1-18 Casing natural gas 55 0.1 1.8
ZW-1.0/1-18 Casing natural gas 100 0.1 1.8
ZW-0.2/3 Natural gas 10 Normal pressure 0.3
ZW-0.25/0.5-2 Natural gas 20 0.05 0.2
ZW-0.25/40-60 Natural gas 520 4.0 6.0
ZW-0.3/18-19 Natural gas 300 1.8 1.9
ZW-0.5/3 Natural gas 25 Normal pressure 0.3
ZW-0.55/6-120 Natural gas 200 0.6 12.0
ZW-0.6/(10-16)-40 Natural gas 350~530 1.0~1.6 4.0
ZW-0.6/2-25 Natural gas 90 0.2 2.5
ZW-0.65/0.12-0.5 Natural gas 35 0.012 0.05
ZW-0.75/5.7 Natural gas 40 Normal pressure 0.57
ZW-0.8/2-210 Natural gas 125 0.2 21.0
ZW-0.85/0.8-3 Natural gas 80 0.08 0.3
ZW-0.85/1-22 Natural gas 85 0.1 2.2
ZW-1.0/(1-2)-25 Natural gas 100~150 0.1~0.2 2.5
ZW-1.0/5-15 Natural gas 310 0.5 1.5
ZW-1.2/1.5-22 Natural gas 150 0.15 2.2
ZW-1.2/20-24 Natural gas 1300 2.0 2.4
ZW-1.3/4-25 Natural gas 340 0.4 2.5
ZW-1.9/14.5-20 Natural gas 1540 1.45 2.0
ZW-2.0/(1-2)-10 Natural gas 210~310 0.1~0.2 1.0
ZW-2.0/0.005-3 Natural gas 105 0.0005 0.3
ZW-2.5/(1-2)-16 Natural gas 260~390 0.1~0.2 1.6
ZW-2.5/1.72-4.5 Natural gas 350 0.172 0.45
ZW-2.5/14.5-20 Natural gas 2000 1.45 2.0
ZW-2.5/2-10 Natural gas 390 0.2 1.0
ZW-3.15/2.9 Natural gas 160 Normal pressure 0.29
ZW-5.5/0.1-1.2 Natural gas 315 0.01 0.12
ZW-7/0.5-3 Natural gas 550 0.05 0.3
ZW-8.5/0.5-1.5 Natural gas 660 0.05 0.15
VW-9.0/7 Natural gas 470 Normal pressure 0.7
VW-7/0.3-45 Natural gas 470 0.03 4.5
VW-6/10-16 Natural gas 3400 1.0 1.6
VW-6/3-8.5 Natural gas 1250 0.3 0.85
VW-5/2-9 Natural gas 780 0.2 0.9
VW-5.0/2-42 Natural gas 780 0.2 4.2
VW-4/1-20 Natural gas 415 0.1 2.0
VW-4/5-16 Natural gas 1250 0.5 1.6
VW-4.2/3-35 Natural gas 880 0.3 3.5
VW-3/1-45 Natural gas 310 0.1 4.5
VW-3.8/2-42 Natural gas 600 0.2 4.2
VW-20/2-5 Natural gas 3100 0.2 0.5
VW-2/1-42 Natural gas 210 0.1 4.2
VW-2.5/0.5-18 Natural gas 195 0.05 1.8
VW-2.5/2-40 Natural gas 390 0.2 4.0
VW-2.4/0.04-14 Natural gas 130 0.004 1.4
VW-15/0.5-3 Natural gas 200 0.05 0.3
VW-14/3-4 Natural gas 2900 0.3 0.4
VW-14.5/0.5-2 Natural gas 1100 0.05 0.2
VW-10/2-6.5 Natural gas 1500 0.2 0.65
VW-1.9/15-24 Natural gas 1550 1.5 2.4
VW/7/0.3-45 Natural gas 470 0.03 4.5
VW/-15/1 Natural gas 800 Normal pressure 0.1
DW-7/4 Natural gas 350 Normal pressure 0.4
DW-4/0.2-12 Natural gas 250 0.02 1.2
DW-10/1-45 Natural gas 1050 0.1 4.5
US $5,800-42,900
/ set
|
1 set

(Min. Order)

###

Lubrication Style: Lubricated
Cooling System: Water Cooling
Cylinder Arrangement: Balanced Opposed Arrangement
Cylinder Position: Angular
Structure Type: Closed Type
Compress Level: Double-Stage

###

Customization:

###

No Model Gas flow
(Nm3/h)
Inlet pressure
(Mpa)
Outlet pressure
(Mpa)
Power
(kw)
Dimensions
(mm)
1 ZW-0.4/ 2-250 60 0.2 25 18.5 2800*2200*1600
2 ZW-0.81/ (1~3)-25 120 0.1~0.3 2.5 22 1000*580*870
3 DW-5.8/0.5-5 400~500 0.05 0.5 37 2000*1600*1200
4 DW-10/2 510 Atmospheric pressure 0.2 37 2000*1600*1200
5 DW-6.0/5 300 Atmospheric pressure 0.5 37 2000*1600*1200
6 DW-0.21/(20~30)-250 270 2~3 25 45 3200*2200*1600
7 ZW-0.16/60-250 480 6 25 45 3000*2200*1600
8 ZW-0.46 /(5~10)-250 200 0.5~1.0 25 45 3000*2200*1600
9 DW-1.34/2-250 208 0.2 25 55 3400*2200*1600
10 DW-0.6/24-85 720 2.4 8.5 55 2200*1600*1200
11 ZW-2.9/14.2-20 220 1.42 2 55 2200*1600*1200
12 VW-2.0/(2~4)-25 410 0.2~0.4 2.5 55 3400*2200*1600
13 DW-0.85/(3~4)-250 180 0.3~0.4 25 55 2400*1800*1500
14 DW-25-(0.2~0.3)-1.5 1620 0.02~0.03 0.15 75 2400*1800*1500
15 VW-8.0/0.3-25 540 0.03 2.5 90 2400*1800*1500
16 DW-6.8/0.05-40 200~400 0.005 4 90 2400*1800*1500
17 DW-1.2 /6-250 420 0.6 25 90 3400*2200*1600
18 DW-3.45/3.5-28 800 0.35 2.8 90 2400*1800*1500
19 DW-8.3/0.6-15 660 0.06 15 90 2400*1800*1500
20 DW-0.48/40-250 900 4 25 110 3400*2200*1600
21 DW-2.7/2-200 420 0.2 20 110 3400*2200*1600
22 VW-3.22/2-250 500 0.2 25 132 3400*2200*1600
23 DW-6.0/(1~3)-25 840 0.1~0.3 2.5 132 3400*2200*1300
24 DW-0.92/16-220 800 1.6 22 132 3400*2200*1600
25 VW-3.5/2.5-250 600 0.25 25 160 4000*2000*1600
26 DW-6.7/2-25 1020 0.2 2.5 160 4000*2000*1300
27 DW-3.0/3-250 500 0.3 25 160 4800*2200*1600
28 DW-30.50/0.05-4.3 1620 0.005 0.43 160 4800*2200*1300
29 DW-1.1/10-250 600 1 25 160 4800*2200*1600
30 DW-3.35/(2~3)-250 600 0.2~0.3 25 160 4800*2200*1600
31 DW-7.7/0.5-150 600 0.05 15 160 4800*2200*1600
32 VW-2.6/5-250 800 0.5 25 185 4800*3900*1850
33 DW-0.9/40-250 1860 4 25 220 5500*3900*1700
34 DW-19.35/(4~6)-12 6000 0.4~0.6 1.2 280 5500*3900*1700
35 DW-34/1.04-8.5 3540 0.104 0.85 315 6500*4000*1800
36 DW-7.5/30-48 17400 3 4.8 350 6800*4000*1800

###

Method Medium Flow(Nm3/h) Inlet pressure
(MPaG)
Outlet ressure
(MPaG)
ZW-0.2/1-18 Casing natural gas 20 0.1 1.8
ZW-0.4/1-18 Casing natural gas 40 0.1 1.8
ZW-0.55/1-18 Casing natural gas 55 0.1 1.8
ZW-1.0/1-18 Casing natural gas 100 0.1 1.8
ZW-0.2/3 Natural gas 10 Normal pressure 0.3
ZW-0.25/0.5-2 Natural gas 20 0.05 0.2
ZW-0.25/40-60 Natural gas 520 4.0 6.0
ZW-0.3/18-19 Natural gas 300 1.8 1.9
ZW-0.5/3 Natural gas 25 Normal pressure 0.3
ZW-0.55/6-120 Natural gas 200 0.6 12.0
ZW-0.6/(10-16)-40 Natural gas 350~530 1.0~1.6 4.0
ZW-0.6/2-25 Natural gas 90 0.2 2.5
ZW-0.65/0.12-0.5 Natural gas 35 0.012 0.05
ZW-0.75/5.7 Natural gas 40 Normal pressure 0.57
ZW-0.8/2-210 Natural gas 125 0.2 21.0
ZW-0.85/0.8-3 Natural gas 80 0.08 0.3
ZW-0.85/1-22 Natural gas 85 0.1 2.2
ZW-1.0/(1-2)-25 Natural gas 100~150 0.1~0.2 2.5
ZW-1.0/5-15 Natural gas 310 0.5 1.5
ZW-1.2/1.5-22 Natural gas 150 0.15 2.2
ZW-1.2/20-24 Natural gas 1300 2.0 2.4
ZW-1.3/4-25 Natural gas 340 0.4 2.5
ZW-1.9/14.5-20 Natural gas 1540 1.45 2.0
ZW-2.0/(1-2)-10 Natural gas 210~310 0.1~0.2 1.0
ZW-2.0/0.005-3 Natural gas 105 0.0005 0.3
ZW-2.5/(1-2)-16 Natural gas 260~390 0.1~0.2 1.6
ZW-2.5/1.72-4.5 Natural gas 350 0.172 0.45
ZW-2.5/14.5-20 Natural gas 2000 1.45 2.0
ZW-2.5/2-10 Natural gas 390 0.2 1.0
ZW-3.15/2.9 Natural gas 160 Normal pressure 0.29
ZW-5.5/0.1-1.2 Natural gas 315 0.01 0.12
ZW-7/0.5-3 Natural gas 550 0.05 0.3
ZW-8.5/0.5-1.5 Natural gas 660 0.05 0.15
VW-9.0/7 Natural gas 470 Normal pressure 0.7
VW-7/0.3-45 Natural gas 470 0.03 4.5
VW-6/10-16 Natural gas 3400 1.0 1.6
VW-6/3-8.5 Natural gas 1250 0.3 0.85
VW-5/2-9 Natural gas 780 0.2 0.9
VW-5.0/2-42 Natural gas 780 0.2 4.2
VW-4/1-20 Natural gas 415 0.1 2.0
VW-4/5-16 Natural gas 1250 0.5 1.6
VW-4.2/3-35 Natural gas 880 0.3 3.5
VW-3/1-45 Natural gas 310 0.1 4.5
VW-3.8/2-42 Natural gas 600 0.2 4.2
VW-20/2-5 Natural gas 3100 0.2 0.5
VW-2/1-42 Natural gas 210 0.1 4.2
VW-2.5/0.5-18 Natural gas 195 0.05 1.8
VW-2.5/2-40 Natural gas 390 0.2 4.0
VW-2.4/0.04-14 Natural gas 130 0.004 1.4
VW-15/0.5-3 Natural gas 200 0.05 0.3
VW-14/3-4 Natural gas 2900 0.3 0.4
VW-14.5/0.5-2 Natural gas 1100 0.05 0.2
VW-10/2-6.5 Natural gas 1500 0.2 0.65
VW-1.9/15-24 Natural gas 1550 1.5 2.4
VW/7/0.3-45 Natural gas 470 0.03 4.5
VW/-15/1 Natural gas 800 Normal pressure 0.1
DW-7/4 Natural gas 350 Normal pressure 0.4
DW-4/0.2-12 Natural gas 250 0.02 1.2
DW-10/1-45 Natural gas 1050 0.1 4.5

What to Look For When Buying an Air Compressor

An air compressor is a very useful tool that can help you complete many different types of construction jobs. This handy machine makes many tasks much easier, but not all of them are created equally. Understanding what to look for when buying an air compressor will help you make an informed decision. Here are some of the things you should look for. These include price, size, and energy efficiency. Also, make sure to consider the air compressor’s type.
air-compressor

Single-stage air compressors are quieter

When it comes to noise level, single-stage air compressors are the way to go. These machines have fewer moving parts and are quieter than two-stage models. Single-stage air compressors use an axial flow design and can be quieter than their dual-stage counterparts. Single-stage air compressors can run longer and at lower pressures. Single-stage air compressors can be used for light industrial applications. They have a long life expectancy, with some models lasting for over three thousand hours.
While some single-stage air compressors are quieter than two-stage air compressors, both models have noise-reduction features. One type features rubber parts, which are designed to dampen noise. Another feature makes a compressor quieter: its location near the job site. Some models feature rubber base plugs and rubber mats to reduce floor vibrations. In addition to using these features, single-stage compressors are easier to transport.
Noise levels are important when choosing an air compressor. Some machines are too noisy for comfortable work, and some businesses don’t want to expose customers to noise-generating air compressors. Other noise levels can even endanger workers’ health. Single-stage air compressors are more affordable than dual-stage compressors. They are also quieter and more powerful. But be prepared for the noise. Some single-stage air compressors are still noisy.
Compared to their two-stage counterparts, single-stage compressors are quieter when running at full capacity. However, double-stage compressors are quieter on low capacities than single-stage units. Those with variable speed are quietest at lower capacities. The difference is about 10db. If you’re concerned about the noise level, you should consider a two-stage air compressor. But if you have a small workshop, it may not be suitable for you.
One-stage air compressors are generally more efficient than two-stage air compressors. The noise from a two-stage air compressor is lower because there’s no intermediate stage. Single-stage air compressors also use a piston that rotates in a single stage, while dual-stage air compressors, also known as duplex models, are more efficient. A single-stage air compressor is quieter, but double-stage compressors are louder.
air-compressor

Two-stage air compressors are more energy efficient

Two-stage air compressors are more energy-efficient than single-stage machines. The efficiency of two-stage air compressors is increased through a combination of improved efficiency and increased longevity. These machines can store more air and have higher compression ratios. One model of a two-stage compressor can hold approximately 83 cubic feet of air at 100 PSI and 120 cubic feet at 150 PSI. A two-stage compressor is also quieter.
Two-stage air compressors are more energy-efficient because they have two pistons instead of one. These air compressors achieve a higher pressure rating and recover more quickly. This type of compressor is perfect for jobs that require high air pressure for a prolonged period of time. In addition, they can operate multiple tools simultaneously. This makes them better for commercial and industrial use. Listed below are some benefits of two-stage air compressors.
Single-stage air compressors can power tools in the garage or kitchen, but they are not as reliable for industrial applications. Single-stage compressors have larger parts that tend to experience condensation. Furthermore, single-stage compressors do not last long in continuous use and are less energy-efficient than two-stage ones. Whether you’re using the compressor for a single tradesperson, a small crew, or a large construction crew, two-stage compressors are the best choice.
Single-stage air compressors are often used in small-scale food preparation and production. Single-stage air compressors are easy to transport between locations, and can be plugged into several electrical outlets. Single-stage compressors are also ideal for high-volume food processing. A dual-stage air compressor is ideal for industrial use. In some cases, you can even move the single-stage air compressor between two-stage air compressors.
Single-stage compressors often cycle too quickly, drawing more electricity than two-stage units. A variable speed unit stays on a low speed for hours at a time. Single-stage air conditioners force you to lower your thermostat settings while single-stage air conditioners run too often. Both units are energy-efficient but they are not as energy-efficient as variable-speed compressors. The main difference is that single-stage air conditioners tend to drain the power source quicker.

Piston-driven air compressors are quieter

A piston-driven air compressor is one of the quietest types of air compressors. It is less noisy than reciprocating air compressors. A piston-driven air compressor can reach 62 decibels, while a scroll compressor is around half that volume. The two main components of a scroll air compressor are the piston and the helical screw. These air compressors are both very efficient and quiet.
Older compressors are incredibly noisy. They produce a “wumpa” noise similar to a large engine. They are also capable of producing a high-pitched whine. These noises can be deafening, especially in a small workshop. That’s why it’s essential to look for a quiet compressor. But what makes a compressor quiet? Read on to learn more about this essential tool.
Another difference between piston-driven air compressors and electric-driven air compressors is the power source. Electric air compressors produce less noise than gas-powered compressors, which use an engine. Piston-driven air compressors are also more efficient. They also generate less heat, making them an ideal choice for offices and other settings where noise is a problem. The best way to decide between the two types of air compressors is to check the manufacturer’s warranty and read the ‘Description’.
Noise reduction is the first priority of a compressor’s owner, so make sure that you have the right model. If you’re working on something sensitive, don’t place the compressor too close to a building where people might be nearby. Noise can be very disruptive to the workspace and can cause health problems. To help combat noise, you’ll need to buy a quiet air compressor. And don’t forget to consider its location: Piston-driven air compressors are quieter than their reciprocating counterparts.
Piston-driven air compressors are quiet because the piston is made of thin metal and more rubber, which absorbs the sound. Unlike reciprocating air compressors, piston-driven air compressors are more efficient than their dual-piston cousins, which are quieter and more powerful. So which type is right for you? Take a look at some of the main differences between the two. If you want a quiet compressor, make sure it meets the specifications required by the job you’re working on.
air-compressor

Oil-lubricated air compressors are more cost-effective

There are several reasons why oil-lubricated air compressors are more expensive than dry-type air compressors. First of all, oil-lubricated air compressors tend to be more reliable and quiet. Additionally, oil-lubricated air compressors require fewer parts and can last longer than dry-type air compressors. These are just a few of the many benefits of using oil-lubricated air compressors.
Oil-free air compressors have some disadvantages. They are less durable and may not be as efficient as oil-lubricated models. Additionally, because oil-lubricated air compressors use oil, they can get very noisy. While they are less expensive, they are not the best option for heavy-duty work. However, modern oil-free air compressors have soundproofing and are suitable for industrial use.
When purchasing an oil-lubricated air compressor, make sure to choose one with a tank capacity that meets your needs and your space. Larger tanks can be more expensive than small tanks, but larger units are easier to move around. Also, be sure to consider the weight and size of the portable air compressors when making your choice. If the weight is too large, you may have trouble carrying it from place to place.
Another benefit of using oil-lubricated air compressors is their reduced need for oil. These models can last up to a decade longer than oil-free counterparts. Oil-free air compressors are more affordable and can achieve the same high performance as their oil-lubricated counterparts. Many industrial applications benefit from these air compressors. So, which one is right for you? We’ve listed a few of them below.
Another benefit of choosing an oil-lubricated air compressor is the reduced cost of maintenance. This type is more durable than its oil-lubricated counterparts, which require regular oil changes to keep them running smoothly. However, it is not feasible to transport an oil-lubricated compressor, which means that you must install it permanently to keep it working efficiently. In addition, these air compressors are difficult to move and are not portable, which can limit your ability to use it in a pinch.

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editor by czh 2023-01-04

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