Product Description
| REFRIGERATION CAPACITY AT 50 Hz Rated @54.5 P/130 F Cond.Temp(Watts) 50Hz cooling capacity, tested at 54.5°C/130°F condensing temperature Evaporating Temperature | VOLTAGE | |||||||||||
| Compressor Models | Refrigerant | |||||||||||
| Displacement (cm3) | ||||||||||||
| Oil charge(cm3) | ||||||||||||
| (D Expansion Device | ||||||||||||
| Cooling | ||||||||||||
| -10°C +14°F | -5°C +23 °F | 0°C + 32°F | +7.2°C +45 °F | +10°C +50 °F | +15°C +59 °F | |||||||
| AJ 5510F | 22 | 18.6 | 887 | C | F | 920 | 1300 | 1730 | 2443 | 2760 | 3399 | 208-220V/1/50Hz |
| AJ 5512E | 22 | 21.8 | 887 | C | F | 1250 | 1670 | 2130 | 2904 | 3250 | 3898 | 208-220V /1 / 50Hz |
| AJ 5513E | 22 | 24.2 | 887 | C | F | 1460 | 1910 | 2385 | 3203 | 3580 | 4263 | 208-220V /1/ 50Hz |
| AJ 5515E | 22 | 26 | 887 | C | F | 1680 | 2170 | 2720 | 3632 | 4571 | 4770 | 208-220V /1/ 50Hz |
| TAJ 5515E | 22 | 26 | 887 | C,V | F | 1680 | 2170 | 2720 | 3632 | 4571 | 4770 | 400V/3/ 50Hz |
| AJ 5518E | 22 | 32.7 | 887 | C | F | 2210 | 2760 | 3435 | 4572 | 5050 | 6007 | 208-220V /1/ 50Hz |
| AJ 5519E | 22 | 34.5 | 887 | C | F | 2320 | 2880 | 3590 | 4785 | 5300 | 6327 | 208-220V /1/ 50Hz |
| TAJ 5519E | 22 | 34.5 | 887 | C,V | F | 2320 | 2880 | 3590 | 4785 | 5300 | 6327 | 400V/3/ 50Hz |
| FH 5522F | 22 | 40.8 | 1330 | C | F | 2298 | 3059 | 3955 | 5483 | 6153 | 208-220V /1/ 50Hz | |
| TFH5522F | 22 | 40.8 | 1330 | C,V | F | 2298 | 3059 | 3955 | 5483 | 6153 | 400V/3/ 50Hz | |
| FH 5524F | 22 | 43.9 | 1330 | C | F | 2484 | 3309 | 4279 | 5929 | 6652 | 208-220V /1/ 50Hz | |
| TFH 5524F | 22 | 43.9 | 1330 | C,V | F | 2484 | 3309 | 4279 | 5929 | 6652 | 400V/3/ 50Hz | |
| FH 5528F | 22 | 49.0 | 1330 | C | F | 2914 | 3852 | 4950 | 6811 | 7625 | 208-220V /1/ 50Hz | |
| TFH5528F | 22 | 49.0 | 1330 | C,V | F | 2914 | 3852 | 4950 | 3811 | 7625 | 400V/3/ 50Hz | |
| FH 5532F | 22 | 53.1 | 1625 | C | F | 3303 | 4327 | 5540 | 7619 | 8534 | 208-220V /1/ 50Hz | |
| TFH 5532F | 22 | 53.1 | 1625 | C,V | F | 3303 | 4327 | 5540 | 7619 | 8534 | 400V/3/ 50Hz | |
| FH 5538F | 22 | 67.5 | 1625 | C | F | 4146 | 5384 | 6848 | 9353 | 1571 | 208-220V /1/ 50Hz | |
| TFH5538F | 22 | 57.5 | 1625 | C,V | F | 4146 | 5384 | 6848 | 9353 | 1571 | 400V/3/ 50Hz | |
| FH 5542F | 22 | 74.2 | 1625 | C | F | 4343 | 5645 | 7215 | 9951 | 11166 | 208-220V /1/ 50Hz | |
| TFH5542F | 22 | 74.2 | 1625 | C,V | F | 4343 | 5645 | 7215 | 9951 | 11166 | 400V/3/ 50Hz | |
| TAG5546E | 22 | 90.2 | 1960 | C,V | F | 4368 | 5934 | 7839 | 11253 | 12815 | 15961 | 400V/3/ 50Hz |
| TAG 5553E | 22 | 101 | 1960 | C,V | F | 5306 | 7571 | 9105 | 12922 | 14713 | 18406 | 400V/3/ 50Hz |
| TAG 5561E | 22 | 113 | 1960 | C,V | F | 6133 | 8164 | 1571 | 14870 | 16802 | 20658 | 400V/3/ 50Hz |
| TAG5568E | 22 | 124 | 1960 | C,V | F | 6967 | 9180 | 11862 | 16676 | 18887 | 23359 | 400V/3/ 50Hz |
| TAG5573E | 22 | 135 | 1960 | C,V | F | 7501 | 9804 | 12632 | 17816 | 25718 | 25204 | 400V/3/ 50Hz |
| COMPRESSOR MODEL | R134A | REFRIGERATION CAPACITY AT 50 Hz Rated @54.5 P/130 F Cond.Temp(Watts) 50Hz cooling capacity, tested at 54.5°C/130°F condensing temperature Evaporating Temperature | VOLTAGE | |||||||||||
| Nominal Power(H.P) | ||||||||||||||
| Refrigerant | ||||||||||||||
| Displacement (cm3) | ||||||||||||||
| Oil charge(cm3) | ||||||||||||||
| Expansion device | Cooling | |||||||||||||
| -25°C -13°F | -15°C -5°F | -10°C +14°F | -5°C +23°F | -0°C +32°F | +7.2°C -+4°F | +15°C +59°F | ||||||||
| AEZ 3425Y | 1/5 | 134a | 7.55 | 450 | C | F | 116 | 185 | 260 | 350 | 455 | 635 | 866 | 208-220V/ 1/50Hz |
| AEZ4425Y | 1/5 | 134a | 7.55 | 450 | C, V | F | 116 | 185 | 260 | 350 | 455 | 635 | 866 | 220-240V/ 1/50Hz |
| AEZ 3430Y | 1/4 | 134a | 8.85 | 450 | C | F | 195 | 245 | 328 | 432 | 558 | 777 | 1065 | 220-240V/1/50Hz |
| AEZ4430Y | 1/4 | 1 34a | 8.85 | 450 | C, V | F | 195 | 245 | 328 | 432 | 558 | 777 | 1065 | 208-220V/ 1/50Hz |
| AE 3440Y | 1/3 | 134a | 12.05 | 450 | C | F | 236 | 310 | 421 | 561 | 731 | 1026 | 1413 | 220-240V/ 1/50Hz |
| CAE 3440Y | 1/3 | 134a | 12.5 | 450 | C, V | F | 236 | 310 | 421 | 561 | 731 | 1026 | 1413 | 208-220V/1/50Hz |
| CAE 4448Y | 1/3 | 1 34a | 14.15 | 450 | C, V | F | 344 | 403 | 530 | 693 | 892 | 1242 | 1705 | 208-220V/ 1/50Hz |
| CAE 4456Y | 7/16 | 134a | 16 | 450 | C, V | F | 381 | 458 | 604 | 787 | 1009 | 1396 | 1904 | 208-220V/ 1/50Hz |
| CAJ 4452Y | 3/7 | 134a | 15.2 | 887 | C, V | F | 226 | 370 | 528 | 724 | 957 | 1358 | 1879 | 208-220V/1/50Hz |
| CAJ 4461Y TAJ 4461 Y | 1/2 | 134a | 18.3 | 887 | C, V | F | 370 | 475 | 642 | 856 | 1115 | 1569 | 2168 | 220-240V/1/50Hz 400V/3/50Hz |
| CAJ 4476Y | 5/8 | 134a | 21.75 | 887 | C, V | F | 352 | 538 | 756 | 1030 | 1358 | 1926 | 2668 | 220-240V/ 1/50Hz |
| CAJ 4492Y TAJ 4492Y | 3/4 | 134a | 25.95 | 887 | C, V | F | 255 | 584 | 871 | 1215 | 1617 | 2295 | 3164 | 220-240V/ 1/50Hz 400V/3/50Hz |
| CAJ 4511Y TAJ 4511 Y | 1 | 1 34a | 32.7 | 887 | C, V | F | 569 | 878 | 1227 | 1654 | 2160 | 3026 | 4148 | 220-240V/ 1 /50Hz 400V/3/50Hz |
| CAH 4518Y TFG 4518Y | 1-1/2 | 134a | 53.2 | 1330 | C, V | F | 208 | 1036 | 1650 | 2371 | 3200 | 4583 | 6333 | 220-240V/ 1/50Hz 400V/3/50Hz |
| CAH 4525Y TFG 4525Y | 2 | 134a | 74.25 | 1330 | C, V | F | 1155 | 1667 | 2343 | 3201 | 4239 | 6053 | 8442 | 220-240V/1/50Hz 400V/3/50Hz |
| TAG 4528Y | 2-1/2 | 134a | 90.2 | 1960 | C, V | F | 637 | 1368 | 2166 | 3208 | 4492 | 6766 | 9799 | 400V/3/50Hz |
| TAG 4534Y | 3 | 134a | 100.7 | 1960 | C, V | F | 1177 | 1946 | 2871 | 4061 | 5514 | 8071 | 11460 | 400V/3/50Hz |
| TAG 4537Y | 3-1/4 | 134a | 112.5 | 1960 | C, V | F | 1490 | 2281 | 3308 | 4634 | 6258 | 9123 | 12926 | 400V/3/50Hz |
| TAG 4543Y | 3-1/2 | 134a | 124.4 | 1960 | C, V | F | 1836 | 2400 | 3442 | 4848 | 6620 | 9812 | 14124 | 400V/3/50Hz |
| TAGD 4556Y | 5 | 134a | 180.4 | 3920 | C, V | F | 1274 | 2735 | 4333 | 6415 | 6983 | 13533 | 19597 | 400V/3/50Hz |
| TAGD 4574Y | 6-1/2 | 134a | 225 | 3920 | C, V | F | 2980 | 4562 | 6616 | 9267 | 12517 | 18246 | 25852 | 400V/3/50Hz |
| COMPRESSOR MODEL | REFRIGERATION CAPACITY AT 50 Hz Rated @54.5 P/130 F Cond.Temp(Watts) 50Hz cooling capacity, tested at 54.5°C/130°F condensing temperature Evaporating Temperature | VOLTAGE | |||||||||||
| Nominal Power(H.P) | |||||||||||||
| Refrigerant | |||||||||||||
| Displacement (cm3) | |||||||||||||
| Oil charge(cm3) | |||||||||||||
| Expansion device | Cooling | ||||||||||||
| -10°C -13°F | -15°C +5°F | -10°C +14°F | -0°C +32°F | +7.2°C +45°F | +15°C +59°F | ||||||||
| AE 3440A | 1/3 | 12 | 12.05 | 450 | C,V | F | 287 | 373 | 488 | 765 | 1571 | 1372 | 208-220V/1/50HZ |
| CAE 4440A | 1/3 | 12 | 12.05 | 450 | C,V | F | 287 | 373 | 488 | 765 | 1571 | 1372 | 208V/1/50Hz |
| CAE4448A | 3/7 | 12 | 14.00 | 450 | C,V | F | 337 | 443 | 567 | 894 | 1198 | 1590 | 208V/1/50HZ |
| CAE4456A | 7/16 | 12 | 16.00 | 450 | C,V | F | 363 | 496 | 638 | 1005 | 1339 | 1766 | 208V/1/50HZ |
| CAJ4452A | 3/7 | 12 | 15.20 | 887 | C,V | F | 175 | 435 | 595 | 970 | 1283 | 1650 | 208-220V/1/50Hz |
| CAJ4461A TAJ 4461A | 1/2 | 12 | 18.20 | 887 | C,V | F | 240 | 540 | 725 | 1165 | 1508 | 1905 | 208-220V/1/50Hz 400V/3/50HZ |
| CAJ4492A TAJ4492A | 3/4 | 12 | 25.95 | 887 | C,V | F | 385 | 810 | 1080 | 1740 | 2295 | 3000 | 208-220V/1/50HZ 400V/3/50HZ |
| CAJ4511A TAJ 4511A | 1 | 12 | 32.70 | 887 | C,V | F | 595 | 1140 | 1495 | 2320 | 3032 | 4000 | 208-220V/1/50Hz 400V/3/50Hz |
| CAH4518A TAH4518A | 1-1/2 | 12 | 53.20 | 1330 | C,V | F | 1055 | 1520 | 1990 | 3300 | 4527 | 6090 | 208-220V/1/50HZ 400V/3/50HZ |
| CAH4525A | 2 | 12 | 74.25 | 1320 | C,V | F | 1607 | 2120 | 2760 | 4540 | 6216 | 8420 | 400V/3/50HZ |
| R22 Rerigerant | |||||||||||||
| AE Z4425E | 1/5 | 22 | 4.50 | 450 | C,V | F | 138 | 192 | 256 | 413 | 553 | 728 | 220-240V/1/50HZ |
| AEZ4430E | 1/4 | 22 | 5.70 | 450 | C,V | F | 192 | 255 | 336 | 538 | 718 | 945 | 208-220V/1/50HZ |
| AEZ4440E | 1/3 | 22 | 7.55 | 450 | C | F | 308 | 362 | 464 | 733 | 980 | 1298 | 208-220V/1/50Hz |
| AE Z4440E | 1/3 | 22 | 7.55 | 450 | C,V | F | 308 | 362 | 464 | 733 | 980 | 1298 | 208-220V/1/50HZ |
| AEZ9440E | 1/3 | 22 | 7.55 | 450 | C,V | F | 222 | 362 | 464 | 733 | 975 | 1302 | 220-240V/1/50HZ |
| AE3450E | 3/7 | 22 | 9.40 | 450 | C | F | 355 | 426 | 554 | 896 | 1212 | 1623 | 220-240V/1/50HZ |
| CAE4450E | 3/7 | 22 | 9.40 | 450 | C,V | F | 355 | 426 | 554 | 896 | 1212 | 1623 | 208-220V/1/50HZ |
| CAE9450T | 3/7 | 22 | 9.40 | 450 | C,V | F | 256 | 426 | 554 | 896 | 1212 | 1623 | 208-220V/1/50HZ |
| CAE9460T | 1/2 | 22 | 11.30 | 450 | C,V | F | 324 | 553 | 715 | 1134 | 1514 | 2000 | 208-220V/1/50HZ |
| CAJ 9480T TAJ9480T | 5/8 | 22 | 15.20 | 887 | C,V | F | 461 | 786 | 1011 | 1586 | 2103 | 2761 | 208-220V/1/50HZ 400V/3/50HZ |
| CAJ9510T TAJ9510T | 1 | 22 | 18.30 | 887 | C,V | F | 545 | 956 | 1229 | 1909 | 2510 | 3266 | 208-220V/1/50Hz 400V/3/50Hz |
| CAJ9513T TAJ9513T | 1-1/8 | 22 | 24.20 | 887 | C,V | F | 526 | 1074 | 1451 | 2411 | 3272 | 4366 | 208-220V/1/50Hz 400V/3/50Hz |
| CAJ9513T | 1-1/4 | 22 | 25.95 | 887 | C,V | F | 771 | 1233 | 1673 | 2727 | 3629 | 4743 | 208-220V/1/50HZ |
| TAJ4517T | 1-1/4 | 22 | 25.95 | 887 | C,V | F | 771 | 1230 | 1680 | 2720 | 3621 | 4740 | 400V/3/50HZ |
| CAJ4519T | 1-3/4 | 22 | 34.45 | 887 | C,V | F | 1382 | 1780 | 2304 | 3601 | 4738 | 6162 | 208-220V/1/50Hz |
| TAJ4519T | 1-3/4 | 22 | 34.45 | 887 | C,V | F | 1385 | 1780 | 2304 | 3601 | 4738 | 6162 | 400V/3/50HZ |
| FH4522F TFH4522F | 2 | 22 | 39.95 | 1480 | C,V | F | 1068 | 1598 | 2202 | 3774 | 5206 | 7042 | 208-220V/1/50HZ 400V/3/50HZ |
| FH4524F TFH4524F | 2 | 22 | 43.50 | 1480 | C,V | F | 1463 | 1841 | 2456 | 4131 | 5706 | 7759 | 208-220V/1/50HZ 400V/3/50HZ |
| FH4531F TFH4531F | 2-3/4 | 22 | 56.65 | 1480 | C,V | F | 1780 | 2620 | 3504 | 5659 | 7528 | 9854 | 208-220V/1/50HZ 400V/3/50HZ |
| TFH4538F | 3 | 22 | 67.50 | 1625 | C,V | F | 3100 | 4169 | 7041 | 96959 | 13400 | 400V/3/50Hz | |
| TFH4540F | 3-1/2 | 22 | 74.25 | 1480 | C,V | F | 1299 | 3000 | 4301 | 7330 | 9863 | 12938 | 400V/3/50HZ |
| TAG4536T | 4 | 22 | 90.20 | 1960 | C,V | F | 1328 | 3103 | 4368 | 7839 | 11253 | 15961 | 400V/3/50Hz |
| TAG4553T | 4-1/2 | 22 | 100.70 | 1960 | C,V | F | 1528 | 3875 | 5306 | 9105 | 12927 | 18406 | 400V/3/50Hz |
| TAG4568T | 5 | 22 | 112.50 | 1960 | C,V | F | 2059 | 4465 | 6133 | 1571 | 14870 | 20658 | 400V/3/50HZ |
| TAG4568T | 6 | 22 | 124.40 | 1960 | C,V | F | 2493 | 5157 | 6967 | 11862 | 16676 | 23359 | 400V/3/50HZ |
| TAG4576T | 6 | 22 | 134.80 | 1960 | C,V | F | 2803 | 5629 | 7501 | 12632 | 17816 | 25204 | 400V/3/50HZ |
| TAGD4590T | 7-1/2 | 22 | 180.40 | 3920 | C,V | F | 2656 | 6206 | 8735 | 15678 | 22506 | 31922 | 400V/3/50Hz |
| TAGD4610T | 9 | 22 | 201.40 | 3920 | C,V | F | 3055 | 7750 | 10613 | 18211 | 25844 | 36811 | 400V/3/50HZ |
| TAGD4612T | 10 | 22 | 225.00 | 3920 | C,V | F | 4117 | 8929 | 12267 | 21186 | 29739 | 41315 | 400V/3/50HZ |
| TAGD4614T | 12 | 22 | 248.80 | 3920 | C,V | F | 4987 | 1571 | 13933 | 23724 | 33352 | 46718 | 400V/3/50HZ |
| MEDIUM/HIGH BACK PRESSURE COMPRESSORS -R404A | |||||||||||||
| Nominal Power(H.P.) | REFRIGERATION CAPACITY AT 50 Hz Rated @54.5 P/130 F Cond.Temp(Watts) 50Hz cooling capacity, tested at 54.5°C/130°F condensing temperature Evaporating Temperature | VOLTAGE | |||||||||||
| Refrigerant | |||||||||||||
| Displacement (cm3) | |||||||||||||
| Oil charge(cm3) | |||||||||||||
| (D Expansion Device | |||||||||||||
| Cooling | |||||||||||||
| -25°C -13°F | -15°C +5 °F | -10°C + 14°F | 0°C +32 °F | +7.2°C +45 °F | + 15°C +59 °F | ||||||||
| R404A New Refrigerant | |||||||||||||
| AEZ 4425Z | 1/5 | R404A | 4.50 | 450 | C,V | F | 142 | 198 | 263 | 432 | 587 | 787 | 208-220V/l/50Hz |
| AEZ 3430Z | 1/4 | R404A | 5.70 | 450 | C | F | 192 | 258 | 346 | 550 | 741 | 1571 | 220-240V/1/50HZ |
| AEZ 4430Z | 1/4 | R404A | 5.70 | 450 | C,V | F | 192 | 258 | 346 | 550 | 741 | 1571 | 208-220V/l/50Hz |
| AEZ 3440Z | 1/3 | R404A | 7.55 | 450 | C | F | 287 | 357 | 462 | 743 | 1004 | 1342 | 208-220V/l/50Hz |
| AEZ 4440Z | 1/3 | R404A | 7.55 | 450 | C,V | F | 287 | 357 | 462 | 743 | 1004 | 1342 | 208-220V/l/50Hz |
| AEZ 9440Z | 1/3 | R404A | 7.55 | 450 | C,V | F/RH | 214 | 357 | 462 | 743 | 1004 | 1342 | 220-240V/l/50Hz |
| AE 3450Z | 3/7 | R404A | 9.40 | 450 | C | F | 345 | 434 | 567 | 927 | 1270 | 1729 | 220-240V/l/50Hz |
| CAE 4450Z | 3/7 | R404A | 9.40 | 450 | C,V | F | 355 | 434 | 567 | 927 | 1270 | 1729 | 208-220V/l/50Hz |
| CAE 9450Z | 3/7 | R404A | 9.40 | 450 | C,V | F | 250 | 434 | 567 | 927 | 1270 | 1729 | 208-220V/l/50Hz |
| CAE 9460Z | 1/2 | R404A | 11.30 | 450 | C,V | F | 297 | 546 | 711 | 1141 | 1545 | 2086 | 208-220V/l/50Hz |
| CAE 9470Z | 9/16 | R404A | 13.30 | 450 | C,V | F | 383 | 669 | 869 | 1392 | 1878 | 2514 | 208-220V/l/50Hz |
| CAJ 9480Z TAJ9480Z | 5/8 | R404A | 15.20 | 887 | C,V | F | 393 | 747 | 1009 | 1607 | 2172 | 2943 | 208-220V/l/50Hz 400V/3/50Hz |
| CAJ 9510Z TAJ9510Z | 1 | R404A | 18.30 | 887 | C,V | F | 527 | 970 | 1252 | 1972 | 2650 | 3563 | 208-220V/l/50Hz 400V/3/50Hz |
| CAJ9513Z TAJ9513Z | 1-1/8 | R404A | 24.20 | 887 | C,V | F | 497 | 1114 | 1501 | 2485 | 3406 | 4646 | 208-220V/l/50Hz 400V/3/50Hz |
| CAJ 4517Z TAJ4517Z | 1-1/4 | R404A | 25.95 | 887 | C,V | F | 1072 | 1364 | 1776 | 2857 | 3860 | 5173 | 208-220V/l/50Hz 400V/3/50Hz |
| CAJ 4519Z TAJ4519Z | 1-3/4 | R404A | 34.45 | 887 | C,V | F | 1260 | 1769 | 2353 | 3756 | 5030 | 6735 | 208-220V/l/50Hz 400V/3/50Hz |
| FH 4522Z TFH4522Z | 2 | R404A | 39.95 | 1480 | C,V | F | 966 | 1541 | 2240 | 3947 | 5475 | 7459 | 208-220V/l/50Hz 400V/3/50Hz |
| FH 4524Z TFH4524Z | 2 | R404A | 43.50 | 1480 | C,V | F | 1379 | 1835 | 2570 | 4361 | 5977 | 8101 | 208-220V/l/50Hz 400V/3/50Hz |
| FH 4531Z TFH4531Z | 2-3/4 | R404A | 56.65 | 1480 | C,V | F | 1623 | 2382 | 3300 | 5706 | 7782 | 15712 | 208-220V/l/50Hz 400V/3/50Hz |
| FH 4540Z TFH 4540Z | 3-1/2 | R404A | 74.25 | 1480 | C,V | F | 3078 | 3388 | 4425 | 7276 | 9814 | 13056 | 208-220V/l/50Hz 400V/3/50Hz |
| TAG 4546Z | 4 | R404A | 90.20 | 1960 | C,V | F | 1438 | 2806 | 4292 | 7956 | 11297 | 15719 | 400V/ 3 /50Hz |
| TAG4553Z | 4-1/2 | R404A | 100.70 | 1960 | C,V | F | 2774 | 3461 | 4922 | 8958 | 12805 | 17880 | 400V/ 3 /50Hz |
| TAG 4561Z | 5 | R404A | 112.50 | 1960 | C,V | F | 3965 | 4363 | 5895 | 1571 | 14772 | 25717 | 400V/ 3 /50Hz |
| TAG 4568Z | 6 | R404A | 124.40 | 1960 | C,V | F | 5146 | 5322 | 7077 | 11973 | 16636 | 22760 | 400V/ 3 /50Hz |
| TAG 4573Z | 6 | R404A | 134.80 | 1960 | C,V | F | 5453 | 5788 | 7710 | 13123 | 18228 | 24806 | 400V/ 3 /50Hz |
| TAGD4590Z | 7-1/2 | R404A | 180.40 | 3920 | C,V | F | 2876 | 5612 | 8584 | 15912 | 22594 | 31438 | 400V/ 3 /50Hz |
| TAGD4610Z | 9 | R404A | 201.40 | 3920 | C,V | F | 5548 | 6922 | 9844 | 17916 | 25610 | 35760 | 400V/ 3 /50Hz |
| TAGD4512Z | 10 | R404A | 225.00 | 3920 | C,V | F | 7930 | 8726 | 11790 | 20904 | 29544 | 4571 | 400V/ 3 /50Hz |
| TAGD4514Z | 12 | R404A | 248.80 | 3920 | C,V | F | 15712 | 10644 | 14154 | 23946 | 33272 | 45520 | 400V/ 3 /50Hz |
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: | Tag5546e |
| Transport Package: | Wooden/Cartoon Box |
| Specification: | 26*26*58CM |
| Samples: |
US$ 100/Piece
1 Piece(Min.Order) | |
|---|
| Customization: |
Available
|
|
|---|
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Can air compressors be used for painting and sandblasting?
Yes, air compressors can be used for both painting and sandblasting applications. Here’s a closer look at how air compressors are utilized for painting and sandblasting:
Painting:
Air compressors are commonly used in painting processes, especially in automotive, industrial, and construction applications. Here’s how they are involved:
- Spray Guns: Air compressors power spray guns used for applying paint coatings. The compressed air atomizes the paint, creating a fine mist that can be evenly sprayed onto surfaces. The pressure and volume of the compressed air impact the spray pattern, coverage, and overall finish quality.
- Paint Mixers and Agitators: Compressed air is often used to power mixers and agitators that ensure proper blending of paint components. These devices use the compressed air to stir or circulate the paint, preventing settling and maintaining a consistent mixture.
- Airbrushing: Air compressors are essential for airbrushing techniques, which require precise control over airflow and pressure. Airbrushes are commonly used in artistic applications, such as illustrations, murals, and fine detailing work.
Sandblasting:
Air compressors play a crucial role in sandblasting operations, which involve propelling abrasive materials at high velocity to clean, etch, or prepare surfaces. Here’s how air compressors are used in sandblasting:
- Blasting Cabinets: Air compressors power blasting cabinets or booths, which are enclosed spaces where the sandblasting process takes place. The compressed air propels the abrasive media, such as sand or grit, through a nozzle or gun, creating a forceful stream that impacts the surface being treated.
- Abrasive Blasting Pots: Air compressors supply air to abrasive blasting pots or tanks that store and pressurize the abrasive media. The compressed air from the compressor enters the pot, pressurizing it and allowing for a controlled release of the abrasive material during the sandblasting process.
- Air Dryers and Filters: In sandblasting applications, it is crucial to have clean, dry air to prevent moisture and contaminants from affecting the abrasive blasting process and the quality of the surface being treated. Air compressors may be equipped with air dryers and filters to remove moisture, oil, and impurities from the compressed air.
When using air compressors for painting or sandblasting, it is important to consider factors such as the compressor’s pressure and volume output, the specific requirements of the application, and the type of tools or equipment being used. Consult the manufacturer’s guidelines and recommendations to ensure the air compressor is suitable for the intended painting or sandblasting tasks.
Proper safety measures, such as wearing protective gear and following established protocols, should always be followed when working with air compressors for painting and sandblasting applications.
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How are air compressors employed in the mining industry?
Air compressors play a crucial role in the mining industry, providing reliable and efficient power for various mining operations. Here are some common applications of air compressors in mining:
1. Exploration and Drilling:
Air compressors are used during exploration and drilling activities in the mining industry. Compressed air is used to power drilling rigs, pneumatic hammers, and other drilling equipment. The high-pressure air generated by the compressor helps in drilling boreholes, extracting core samples, and exploring potential mineral deposits.
2. Ventilation and Air Quality Control:
Air compressors are employed in underground mining to provide ventilation and control air quality. Compressed air is used to operate ventilation fans and air circulation systems, ensuring adequate airflow and removing harmful gases, dust, and fumes from the mining tunnels and work areas.
3. Material Conveyance:
In mining operations, air compressors are used for material conveyance. Pneumatic systems powered by air compressors are utilized to transport materials such as coal, ore, and other minerals. Compressed air is used to operate pneumatic conveyors, pumps, and material handling equipment, allowing for efficient and controlled movement of bulk materials.
4. Dust Suppression:
Air compressors are employed for dust suppression in mining areas. Compressed air is used to spray water or other suppressants to control dust generated during mining activities. This helps in maintaining a safe and healthy work environment, reducing the risks associated with dust inhalation and improving visibility.
5. Instrumentation and Control:
Air compressors are used for instrumentation and control purposes in mining operations. Compressed air is utilized to power pneumatic control systems, control valves, and actuators. These systems regulate the flow of fluids, control equipment movements, and ensure the proper functioning of various mining processes.
6. Explosive Applications:
In mining, air compressors are used for explosive applications. Compressed air is employed to power pneumatic tools used for rock fragmentation, such as rock drills and pneumatic breakers. The controlled power of compressed air enables safe and efficient rock breaking without the need for traditional explosives.
7. Maintenance and Repair:
Air compressors are essential for maintenance and repair activities in the mining industry. Compressed air is used for cleaning machinery, removing debris, and powering pneumatic tools for equipment maintenance and repair tasks. The versatility and portability of air compressors make them valuable assets in maintaining mining equipment.
It is important to note that different mining operations may have specific requirements and considerations when selecting and using air compressors. The size, capacity, and features of air compressors can vary based on the specific mining application and environmental conditions.
By utilizing air compressors effectively, the mining industry can benefit from increased productivity, improved safety, and efficient operation of various mining processes.
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How do you choose the right size of air compressor for your needs?
Choosing the right size of air compressor is essential to ensure optimal performance and efficiency for your specific needs. Here are some factors to consider when selecting the appropriate size:
1. Air Demand: Determine the air demand requirements of your applications. Calculate the total CFM (Cubic Feet per Minute) needed by considering the air consumption of all the pneumatic tools and equipment that will be operated simultaneously. Choose an air compressor with a CFM rating that meets or exceeds this total demand.
2. Pressure Requirements: Consider the required operating pressure for your applications. Check the PSI (Pounds per Square Inch) rating of the tools and equipment you will be using. Ensure that the air compressor you choose can deliver the necessary pressure consistently.
3. Duty Cycle: Evaluate the duty cycle of the air compressor. The duty cycle represents the percentage of time the compressor can operate within a given time period without overheating or experiencing performance issues. If you require continuous or heavy-duty operation, choose a compressor with a higher duty cycle.
4. Power Source: Determine the available power source at your location. Air compressors can be powered by electricity or gasoline engines. Ensure that the chosen compressor matches the available power supply and consider factors such as voltage, phase, and fuel requirements.
5. Portability: Assess the portability requirements of your applications. If you need to move the air compressor frequently or use it in different locations, consider a portable or wheeled compressor that is easy to transport.
6. Space and Noise Constraints: Consider the available space for installation and the noise restrictions in your working environment. Choose an air compressor that fits within the allocated space and meets any noise regulations or requirements.
7. Future Expansion: Anticipate any potential future expansions or increases in air demand. If you expect your air demand to grow over time, it may be wise to choose a slightly larger compressor to accommodate future needs and avoid the need for premature replacement.
8. Budget: Consider your budgetary constraints. Compare the prices of different air compressor models while ensuring that the chosen compressor meets your specific requirements. Keep in mind that investing in a higher-quality compressor may result in better performance, durability, and long-term cost savings.
By considering these factors and evaluating your specific needs, you can choose the right size of air compressor that will meet your air demand, pressure requirements, and operational preferences, ultimately ensuring efficient and reliable performance.
editor by CX 2024-02-22
China supplier 22kw 380V Factory Direct Selling High Pressure Screw Air Compressor Oil Free for Rubber Products air compressor price
Product Description
OFAC oil-free screw air compressor used Japanese Mitsui’s original technology, who is the only maintenance service provider in China.
| TECHNICAL DATA |
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| Model | Power | Pressure (bar) | Air Flow (m3/min) | Noise Level dBA | Outlet Size | Weight (kgs) | Lubricating Water(L) | Filter Element (B)-(Z) | Dimension LxWxH (mm) | |
| OF-7.5F | 7.5kw | 10hp | 8 | 1.0 | 60 | RP 3/4 | 400 | 22 | (25cm) 1 | 1000*720*1050 |
| OF-11F | 11kw | 15hp | 8 | 1.6 | 63 | 460 | 1156*845*1250 | |||
| OF-15F | 15kw | 20hp | 8 | 2.5 | 65 | RP 1 | 620 | 28 | (50cm) 1 | 1306*945*1260 |
| OF-18F | 18.5kw | 25hp | 8 | 3.0 | 67 | 750 | 33 | 1520*1060*1390 | ||
| OF-22F | 22kw | 30hp | 8 | 3.6 | 68 | 840 | 33 | 1520*1060*1390 | ||
| OF-30F | 30kw | 40hp | 8 | 5.0 | 69 | RP 11/4 | 1050 | 66 | (25cm) 5 | 1760*1160*1490 |
| OF-37F | 37kw | 50hp | 8 | 6.2 | 71 | 1100 | 1760*1160*1490 | |||
| OF-45S | 45kw | 60hp | 8 | 7.3 | 74 | RP 11/2 | 1050 | 88 | 1760*1160*1490 | |
| OF-45F | 45kw | 60hp | 8 | 7.3 | 74 | 1200 | 1760*1160*1490 | |||
| OF-55S | 55kw | 75hp | 8 | 10 | 74 | RP 2 | 1250 | 110 | (50cm) 5 | 1900*1250*1361 |
| OF-55F | 55kw | 75hp | 8 | 10 | 74 | 2200 | (50cm) 7 | 2350*1250*1880 | ||
| OF-75S | 75kw | 100hp | 8 | 13 | 75 | 1650 | (50cm) 5 | 1900*1250*1361 | ||
| OF-75F | 75kw | 100hp | 8 | 13 | 75 | 2500 | (50cm) 7 | 2550*1620*1880 | ||
| OF-90S | 90kw | 125hp | 8 | 15 | 76 | 2050 | (50cm) 5 | 1900*1250*1361 | ||
| OF-90F | 90kw | 125hp | 8 | 15 | 76 | 2650 | (50cm) 7 | 2550*1620*1880 | ||
| OF-110S | 110kw | 150hp | 8 | 20 | 78 | DN 65 | 2550 | 130 | (50cm) 12 | 2200*1600*1735 |
| OF-110F | 110kw | 150hp | 8 | 20 | 78 | 3500 | 130 | 3000*1700*2250 | ||
| OF-132S | 132kw | 175hp | 8 | 23 | 80 | 2700 | 130 | 2200*1600*2250 | ||
| OF-160S | 160kw | 220hp | 8 | 26 | 82 | 2900 | 165 | 2200*1600*2250 | ||
| OF-185S | 185kw | 250hp | 8 | 30 | 83 | DN 100 | 3300 | 180 | (50cm) 22 | 2860*1800*1945 |
| OF-200S | 200kw | 270hp | 8 | 33 | 83 | 3500 | 2860*1800*1945 | |||
| OF-220S | 220kw | 300hp | 8 | 36 | 85 | 4500 | 2860*2000*2300 | |||
| OF-250S | 250kw | 340hp | 8 | 40 | 85 | 4700 | 2860*2000*2300 | |||
| OF-315S | 315kw | 480hp | 8 | 50 | 90 | 5000 | 2860*2000*2300 | |||
F– air cooling method S– water cooling method
The brand “OFAC, OFC” specializes in the R&D, manufacturing, sales and service of compressors, oil-free compressors and air end, special gas compressors, various air compressors and post-processing equipment, providing customers with High-quality, environmentally friendly and efficient air system solutions and fast and stable technical services.
FAQ
Q1: Warranty terms of your machine?
A1: Two year warranty for the machine and technical support according to your needs.
Q2: Will you provide some spare parts of the machines?
A2: Yes, of course.
Q3: What about product package?
A3: We pack our products strictly with standard seaworthy case. Rcommend wooden box.
Q4: Can you use our brand?
A4: Yes, OEM is available.
Q5: How long will you take to arrange production?
A5: Immediate delivery for stock products. 380V 50HZ we can delivery the goods within 3-15 days. Other voltage or other color we will delivery within 30-45 days.
Q6: How Many Staff Are There In your Factory?
A6: About 100.
Q7: What’s your factory’s production capacity?
A7: About 550-650 units per month.
Q8: What the exactly address of your factory?
A8: Our first workshop located in HangZhou, ZheJiang , second workshop located in HangZhou, ZheJiang , China.
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| After-sales Service: | 2 Years |
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| Warranty: | 2 Years |
| Lubrication Style: | Oil-free |
| 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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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.
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Are there differences between single-stage and two-stage air compressors?
Yes, there are differences between single-stage and two-stage air compressors. Here’s an in-depth explanation of their distinctions:
Compression Stages:
The primary difference between single-stage and two-stage air compressors lies in the number of compression stages they have. A single-stage compressor has only one compression stage, while a two-stage compressor has two sequential compression stages.
Compression Process:
In a single-stage compressor, the entire compression process occurs in a single cylinder. The air is drawn into the cylinder, compressed in a single stroke, and then discharged. On the other hand, a two-stage compressor utilizes two cylinders or chambers. In the first stage, air is compressed to an intermediate pressure in the first cylinder. Then, the partially compressed air is sent to the second cylinder where it undergoes further compression to reach the desired final pressure.
Pressure Output:
The number of compression stages directly affects the pressure output of the air compressor. Single-stage compressors typically provide lower maximum pressure levels compared to two-stage compressors. Single-stage compressors are suitable for applications that require moderate to low air pressure, while two-stage compressors are capable of delivering higher pressures, making them suitable for demanding applications that require greater air pressure.
Efficiency:
Two-stage compressors generally offer higher efficiency compared to single-stage compressors. The two-stage compression process allows for better heat dissipation between stages, reducing the chances of overheating and improving overall efficiency. Additionally, the two-stage design allows the compressor to achieve higher compression ratios while minimizing the work done by each stage, resulting in improved energy efficiency.
Intercooling:
Intercooling is a feature specific to two-stage compressors. Intercoolers are heat exchangers placed between the first and second compression stages. They cool down the partially compressed air before it enters the second stage, reducing the temperature and improving compression efficiency. The intercooling process helps to minimize heat buildup and reduces the potential for moisture condensation within the compressor system.
Applications:
The choice between a single-stage and two-stage compressor depends on the intended application. Single-stage compressors are commonly used for light-duty applications such as powering pneumatic tools, small-scale workshops, and DIY projects. Two-stage compressors are more suitable for heavy-duty applications that require higher pressures, such as industrial manufacturing, automotive service, and large-scale construction.
It is important to consider the specific requirements of the application, including required pressure levels, duty cycle, and anticipated air demand, when selecting between a single-stage and two-stage air compressor.
In summary, the main differences between single-stage and two-stage air compressors lie in the number of compression stages, pressure output, efficiency, intercooling capability, and application suitability.
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What are the key components of an air compressor system?
An air compressor system consists of several key components that work together to generate and deliver compressed air. Here are the essential components:
1. Compressor Pump: The compressor pump is the heart of the air compressor system. It draws in ambient air and compresses it to a higher pressure. The pump can be reciprocating (piston-driven) or rotary (screw, vane, or scroll-driven) based on the compressor type.
2. Electric Motor or Engine: The electric motor or engine is responsible for driving the compressor pump. It provides the power necessary to operate the pump and compress the air. The motor or engine’s size and power rating depend on the compressor’s capacity and intended application.
3. Air Intake: The air intake is the opening or inlet through which ambient air enters the compressor system. It is equipped with filters to remove dust, debris, and contaminants from the incoming air, ensuring clean air supply and protecting the compressor components.
4. Compression Chamber: The compression chamber is where the actual compression of air takes place. In reciprocating compressors, it consists of cylinders, pistons, valves, and connecting rods. In rotary compressors, it comprises intermeshing screws, vanes, or scrolls that compress the air as they rotate.
5. Receiver Tank: The receiver tank, also known as an air tank, is a storage vessel that holds the compressed air. It acts as a buffer, allowing for a steady supply of compressed air during peak demand periods and reducing pressure fluctuations. The tank also helps separate moisture from the compressed air, allowing it to condense and be drained out.
6. Pressure Relief Valve: The pressure relief valve is a safety device that protects the compressor system from over-pressurization. It automatically releases excess pressure if it exceeds a predetermined limit, preventing damage to the system and ensuring safe operation.
7. Pressure Switch: The pressure switch is an electrical component that controls the operation of the compressor motor. It monitors the pressure in the system and automatically starts or stops the motor based on pre-set pressure levels. This helps maintain the desired pressure range in the receiver tank.
8. Regulator: The regulator is a device used to control and adjust the output pressure of the compressed air. It allows users to set the desired pressure level for specific applications, ensuring a consistent and safe supply of compressed air.
9. Air Outlet and Distribution System: The air outlet is the point where the compressed air is delivered from the compressor system. It is connected to a distribution system comprising pipes, hoses, fittings, and valves that carry the compressed air to the desired application points or tools.
10. Filters, Dryers, and Lubricators: Depending on the application and air quality requirements, additional components such as filters, dryers, and lubricators may be included in the system. Filters remove contaminants, dryers remove moisture from the compressed air, and lubricators provide lubrication to pneumatic tools and equipment.
These are the key components of an air compressor system. Each component plays a crucial role in the generation, storage, and delivery of compressed air for various industrial, commercial, and personal applications.
editor by CX 2024-02-20
China supplier Air Compressor 2HP La50-0400 Semi-Hermetic Compressor Refrigeration supplier
Product Description
Compressor LA50-0400 Semi-hermetic Compressor refrigeration compressor
Compressor Cooling Compressor motors must always be cooled, and cylinder head cooling may also be needed at certain operating conditions. Refer to the Performance Data tables for relevant compressors. 2S, 3S, 4S & 6S Compressors are suction gas-cooled – the motor is cooled by refrigerant gas that passes over the motor. An additional fan and discharge temperature control valve (DTC for short) may be required depending CHINAMFG the operating conditions. Please refer to the respective Performance Data tables.
Product Features:
Technical data:
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| After-sales Service: | 1 Year |
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| Warranty: | 1 Year |
| Refrigerant: | R404A / R507 |
| Certification: | Ce |
| HP: | HP |
| Color: | Grey |
| Customization: |
Available
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Can air compressors be used for shipbuilding and maritime applications?
Air compressors are widely used in shipbuilding and maritime applications for a variety of tasks and operations. The maritime industry relies on compressed air for numerous essential functions. Here’s an overview of how air compressors are employed in shipbuilding and maritime applications:
1. Pneumatic Tools and Equipment:
Air compressors are extensively used to power pneumatic tools and equipment in shipbuilding and maritime operations. Pneumatic tools such as impact wrenches, drills, grinders, sanders, and chipping hammers require compressed air to function. The versatility and power provided by compressed air make it an ideal energy source for heavy-duty tasks, maintenance, and construction activities in shipyards and onboard vessels.
2. Painting and Surface Preparation:
Air compressors play a crucial role in painting and surface preparation during shipbuilding and maintenance. Compressed air is used to power air spray guns, sandblasting equipment, and other surface preparation tools. Compressed air provides the force necessary for efficient and uniform application of paints, coatings, and protective finishes, ensuring the durability and aesthetics of ship surfaces.
3. Pneumatic Actuation and Controls:
Air compressors are employed in pneumatic actuation and control systems onboard ships. Compressed air is used to operate pneumatic valves, actuators, and control devices that regulate the flow of fluids, control propulsion systems, and manage various shipboard processes. Pneumatic control systems offer reliability and safety advantages in maritime applications.
4. Air Start Systems:
In large marine engines, air compressors are used in air start systems. Compressed air is utilized to initiate the combustion process in the engine cylinders. The compressed air is injected into the cylinders to turn the engine’s crankshaft, enabling the ignition of fuel and starting the engine. Air start systems are commonly found in ship propulsion systems and power generation plants onboard vessels.
5. Pneumatic Conveying and Material Handling:
In shipbuilding and maritime operations, compressed air is used for pneumatic conveying and material handling. Compressed air is utilized to transport bulk materials, such as cement, sand, and grain, through pipelines or hoses. Pneumatic conveying systems enable efficient and controlled transfer of materials, facilitating construction, cargo loading, and unloading processes.
6. Air Conditioning and Ventilation:
Air compressors are involved in air conditioning and ventilation systems onboard ships. Compressed air powers air conditioning units, ventilation fans, and blowers, ensuring proper air circulation, cooling, and temperature control in various ship compartments, cabins, and machinery spaces. Compressed air-driven systems contribute to the comfort, safety, and operational efficiency of maritime environments.
These are just a few examples of how air compressors are utilized in shipbuilding and maritime applications. Compressed air’s versatility, reliability, and convenience make it an indispensable energy source for various tasks and systems in the maritime industry.
Can air compressors be integrated into automated systems?
Yes, air compressors can be integrated into automated systems, providing a reliable and versatile source of compressed air for various applications. Here’s a detailed explanation of how air compressors can be integrated into automated systems:
Pneumatic Automation:
Air compressors are commonly used in pneumatic automation systems, where compressed air is utilized to power and control automated machinery and equipment. Pneumatic systems rely on the controlled release of compressed air to generate linear or rotational motion, actuating valves, cylinders, and other pneumatic components. By integrating an air compressor into the system, a continuous supply of compressed air is available to power the automation process.
Control and Regulation:
In automated systems, air compressors are often connected to a control and regulation system to manage the compressed air supply. This system includes components such as pressure regulators, valves, and sensors to monitor and adjust the air pressure, flow, and distribution. The control system ensures that the air compressor operates within the desired parameters and provides the appropriate amount of compressed air to different parts of the automated system as needed.
Sequential Operations:
Integration of air compressors into automated systems enables sequential operations to be carried out efficiently. Compressed air can be used to control the timing and sequencing of different pneumatic components, ensuring that the automated system performs tasks in the desired order and with precise timing. This is particularly useful in manufacturing and assembly processes where precise coordination of pneumatic actuators is required.
Energy Efficiency:
Air compressors can contribute to energy-efficient automation systems. By incorporating energy-saving features such as Variable Speed Drive (VSD) technology, air compressors can adjust their power output according to the demand, reducing energy consumption during periods of low activity. Additionally, efficient control and regulation systems help optimize the use of compressed air, minimizing waste and improving overall energy efficiency.
Monitoring and Diagnostics:
Integration of air compressors into automated systems often includes monitoring and diagnostic capabilities. Sensors and monitoring devices can be installed to collect data on parameters such as air pressure, temperature, and system performance. This information can be used for real-time monitoring, preventive maintenance, and troubleshooting, ensuring the reliable operation of the automated system.
When integrating air compressors into automated systems, it is crucial to consider factors such as the specific requirements of the automation process, the desired air pressure and volume, and the compatibility of the compressor with the control and regulation system. Consulting with experts in automation and compressed air systems can help in designing an efficient and reliable integration.
In summary, air compressors can be seamlessly integrated into automated systems, providing the necessary compressed air to power and control pneumatic components, enabling sequential operations, and contributing to energy-efficient automation processes.
How is air pressure measured in air compressors?
Air pressure in air compressors is typically measured using one of two common units: pounds per square inch (PSI) or bar. Here’s a brief explanation of how air pressure is measured in air compressors:
1. Pounds per Square Inch (PSI): PSI is the most widely used unit of pressure measurement in air compressors, especially in North America. It represents the force exerted by one pound of force over an area of one square inch. Air pressure gauges on air compressors often display pressure readings in PSI, allowing users to monitor and adjust the pressure accordingly.
2. Bar: Bar is another unit of pressure commonly used in air compressors, particularly in Europe and many other parts of the world. It is a metric unit of pressure equal to 100,000 pascals (Pa). Air compressors may have pressure gauges that display readings in bar, providing an alternative measurement option for users in those regions.
To measure air pressure in an air compressor, a pressure gauge is typically installed on the compressor’s outlet or receiver tank. The gauge is designed to measure the force exerted by the compressed air and display the reading in the specified unit, such as PSI or bar.
It’s important to note that the air pressure indicated on the gauge represents the pressure at a specific point in the air compressor system, typically at the outlet or tank. The actual pressure experienced at the point of use may vary due to factors such as pressure drop in the air lines or restrictions caused by fittings and tools.
When using an air compressor, it is essential to set the pressure to the appropriate level required for the specific application. Different tools and equipment have different pressure requirements, and exceeding the recommended pressure can lead to damage or unsafe operation. Most air compressors allow users to adjust the pressure output using a pressure regulator or similar control mechanism.
Regular monitoring of the air pressure in an air compressor is crucial to ensure optimal performance, efficiency, and safe operation. By understanding the units of measurement and using pressure gauges appropriately, users can maintain the desired air pressure levels in their air compressor systems.
editor by CX 2024-02-18
China high quality Diesel Engine Driven Heavy Duty Air Compressor For Water Well Drilling Rig supplier
Product Description
Screw type air compressor structure of a unique design, a compact, stylish appearance, high efficiency, small energy consumption, low noise characteristics and long life, is a smart environment-friendly products. Is widely applied in metallurgy, machinery, chemicals, and mining, and electric power industries of the ideal gas source equipment.
Advantage:
1.The third generation of advanced rotor and concise intake control system
2.Efficient centrifugal separator oil and gas, gas oil content is small,tube and core of long life .
3. Efficient, low noise suction fan of the full use of export dynamic pressure
increased effect of heat transfer (air-cooled)
4. Automatic water-cooling system for large air compressor to provide more
efficient
5.Fault diagnosis system, the control panel is easy to operate
6 Removable door, equipment maintenance, service convenient
7.Micro-electronic processing so that temperature, pressure and other parameters are closely monitored .
PRODUCT HIGHLIGHTS
1.The brand power,reliable quality, stable performance.The harsh thermal equilibrium serviceability can guarantee that the machine work effectively under high temperature environment (≤40ºC).
2.Unique patent design, light load startup system, the air control design is adapt to the drilling work with high stability.
3.Efficient cooling system, divided into 3 parts: water- cooled ,mid- cold, oil cold, which ensure the reliable operation of diesel engine, and it’s suitable for high temperature working environment.
4.Independent research and development of the opposite door design, rational layout, which is easy to do regular maintenace ,with advantages of the fixed and portable compressor.
5.A single point lifting, forklift hole device, equipped with drag ring.It is suitable for repair car transport, easy to transfer and installation of the unit.
6.Waterproof and dustproof design, which is suitable for outdoor hard working environment.
7.According to customer requirements, the heating boiler and remote components is available for cold starting.
BRAND CONFIGURATION
Highly Effective Two-stage Compression Screw Airend
High efficiency 2 stage compression engine, with super long bearing life, high reliable sealing performance, produced product quality and manufacturing precision.The long-term market test has established a good
reputation among the global users.
Long operating life Low maintenance cost
High efficiency, little leakage triangle, low specific power
Less wear parts Little vibration, low noise
Name Brand Power
International name brand diesel engine Low fuel consumption and good fuel economy
Compact structure is easy to be maintained Super power,green and enviromental protection
Xihu (West Lake) Dis.nized Control System
German brand VDO instrument Clear contact surface ,easy operation
High performance, brand guarantee Ultra strong sensitivity
Air System- Over Loading Air Filter
United States brand reloading air filtration, cyclone filtration and adsorption filtration, double filtration effect
Dust removal ≥99.9%,filtering fineness ≤3μm
Ensuring the airend to be effectively dustproof and the quality of the air.
Application fields
Comps two-stage compression diesel fixed screw air compressor is widely used in
Our Exhibition
1.Pre-sale service:
Act as a good adviser and assistant of clients enable them to get rich and generous returns on their investments . 1.Select equipment model. 2.Design and manufacture products according to client’s special requirement ; 3.Train technical personnel for clients .
2.Services during the sale:
1.Pre-check and accept products ahead of delivery .
2. Help clients to draft solving plans .
3.After-sale services:
Provide considerate services to minimize clients’ worries.
1.Complete After-sales service,professional engineers available to service machinery at home or oversea.
2. 24 hours technical support by e-mail.
3.Other essential technological service.
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| Lubrication Style: | Lubricated |
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| Cooling System: | Air Cooling |
| Power Source: | Diesel Engine |
| Cylinder Position: | Vertical |
| Structure Type: | Closed Type |
| Installation Type: | Stationary Type |
| Customization: |
Available
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How are air compressors utilized in the aerospace industry?
Air compressors play a crucial role in various applications within the aerospace industry. They are utilized for a wide range of tasks that require compressed air or gas. Here are some key uses of air compressors in the aerospace industry:
1. Aircraft Systems:
Air compressors are used in aircraft systems to provide compressed air for various functions. They supply compressed air for pneumatic systems, such as landing gear operation, braking systems, wing flap control, and flight control surfaces. Compressed air is also utilized for starting aircraft engines and for cabin pressurization and air conditioning systems.
2. Ground Support Equipment:
Air compressors are employed in ground support equipment used in the aerospace industry. They provide compressed air for tasks such as inflating aircraft tires, operating pneumatic tools for maintenance and repair, and powering air-driven systems for fueling, lubrication, and hydraulic operations.
3. Component Testing:
Air compressors are utilized in component testing within the aerospace industry. They supply compressed air for testing and calibrating various aircraft components, such as valves, actuators, pressure sensors, pneumatic switches, and control systems. Compressed air is used to simulate operating conditions and evaluate the performance and reliability of these components.
4. Airborne Systems:
In certain aircraft, air compressors are employed for specific airborne systems. For example, in military aircraft, air compressors are used for air-to-air refueling systems, where compressed air is utilized to transfer fuel between aircraft in mid-air. Compressed air is also employed in aircraft de-icing systems, where it is used to inflate inflatable de-icing boots on the wing surfaces to remove ice accumulation during flight.
5. Environmental Control Systems:
Air compressors play a critical role in the environmental control systems of aircraft. They supply compressed air for air conditioning, ventilation, and pressurization systems, ensuring a comfortable and controlled environment inside the aircraft cabin. Compressed air is used to cool and circulate air, maintain desired cabin pressure, and control humidity levels.
6. Engine Testing:
In the aerospace industry, air compressors are utilized for engine testing purposes. They provide compressed air for engine test cells, where aircraft engines are tested for performance, efficiency, and durability. Compressed air is used to simulate different operating conditions and loads on the engine, allowing engineers to assess its performance and make necessary adjustments or improvements.
7. Oxygen Systems:
In aircraft, air compressors are involved in the production of medical-grade oxygen for onboard oxygen systems. Compressed air is passed through molecular sieve beds or other oxygen concentrator systems to separate oxygen from other components of air. The generated oxygen is then supplied to the onboard oxygen systems, ensuring a sufficient and continuous supply of breathable oxygen for passengers and crew at high altitudes.
It is important to note that air compressors used in the aerospace industry must meet stringent quality and safety standards. They need to be reliable, efficient, and capable of operating under demanding conditions to ensure the safety and performance of aircraft systems.
Can air compressors be used for inflating tires and sporting equipment?
Yes, air compressors can be used for inflating tires and sporting equipment, providing a convenient and efficient method for achieving the desired air pressure. Here’s how air compressors are used for these purposes:
1. Tire Inflation:
Air compressors are commonly used for inflating vehicle tires, including car tires, motorcycle tires, bicycle tires, and even larger truck or trailer tires. Air compressors provide a continuous source of pressurized air, allowing for quick and accurate inflation. They are often used in automotive repair shops, gas stations, and by individuals who regularly need to inflate tires.
2. Sporting Equipment Inflation:
Air compressors are also useful for inflating various types of sporting equipment. This includes inflatable balls such as soccer balls, basketballs, footballs, and volleyballs. Additionally, air compressors can be used to inflate inflatable water toys, air mattresses, inflatable kayaks, and other recreational items that require air for proper inflation.
3. Air Tools for Inflation:
Air compressors can power air tools specifically designed for inflation purposes. These tools, known as inflators or air blow guns, provide controlled airflow for inflating tires and sporting equipment. They often have built-in pressure gauges and nozzles designed to fit different types of valves, making them versatile and suitable for various inflation tasks.
4. Adjustable Pressure:
One advantage of using air compressors for inflation is the ability to adjust the pressure. Most air compressors allow users to set the desired pressure level using a pressure regulator or control knob. This feature ensures that tires and sporting equipment are inflated to the recommended pressure, promoting optimal performance and safety.
5. Efficiency and Speed:
Air compressors provide a faster and more efficient inflation method compared to manual pumps. The continuous supply of compressed air allows for quick inflation, reducing the time and effort required to inflate tires and sporting equipment manually.
6. Portable Air Compressors:
For inflating tires and sporting equipment on the go, portable air compressors are available. These compact and lightweight compressors can be easily carried in vehicles or taken to sports events and outdoor activities, ensuring convenient access to a reliable air supply.
It is important to note that when using air compressors for inflating tires, it is recommended to follow manufacturer guidelines and proper inflation techniques to ensure safety and avoid overinflation.
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In which industries are air compressors widely used?
Air compressors find extensive usage across various industries due to their versatility and ability to generate compressed air. Here are some industries where air compressors are widely employed:
1. Manufacturing: Air compressors are essential in manufacturing processes for powering pneumatic tools and equipment. They are used for tasks such as operating assembly lines, powering robotic machinery, running paint sprayers, and driving pneumatic actuators.
2. Construction: Air compressors play a crucial role in the construction industry. They power pneumatic tools like jackhammers, nail guns, impact wrenches, and concrete breakers. Compressed air is also used for concrete spraying, sandblasting, and operating air-powered lifts and hoists.
3. Automotive: Air compressors are widely used in automotive manufacturing and repair. They power air tools used in auto body shops, tire inflation equipment, pneumatic lifts, and air-operated brake systems. Compressed air is also utilized in vehicle painting and drying processes.
4. Oil and Gas: The oil and gas industry extensively relies on air compressors for various applications. They are used for pneumatic drilling, powering pneumatic tools in refineries and petrochemical plants, operating pneumatic valves and actuators, and providing instrument air for control systems.
5. Food and Beverage: Air compressors are employed in the food and beverage industry for tasks such as packaging, bottling, and sealing. They power pneumatic conveying systems, control air pressure in food processing equipment, and provide clean compressed air for food handling and storage.
6. Pharmaceutical and Healthcare: Air compressors find application in pharmaceutical manufacturing and healthcare facilities. They are used for operating medical equipment, such as ventilators and dental tools. Compressed air is also utilized in pharmaceutical processes, including tablet coating, fluid bed drying, and aseptic packaging.
7. Aerospace: The aerospace industry relies on air compressors for various applications, including aircraft maintenance and assembly. They power pneumatic tools for aircraft repair, provide compressed air for cleaning and pressurizing systems, and support ground operations, such as tire inflation and aircraft de-icing.
8. Mining: Air compressors are extensively used in the mining industry. They power pneumatic tools for drilling, rock blasting, and excavation. Compressed air is also utilized for ventilation, conveying materials, and operating underground equipment.
9. Energy and Utilities: Air compressors play a vital role in the energy and utilities sector. They are used in power generation plants for pneumatic control systems, instrument air, and operating pneumatic valves. Compressed air is also employed for cleaning and maintenance purposes.
These are just a few examples of the industries where air compressors are widely utilized. The versatility and reliability of air compressors make them indispensable in numerous applications across diverse sectors.
editor by CX 2024-02-14
China best 132kw 180HP Chinese Supplier Big Power Fixed Speed Double Screw Air Compressors with Low Price (SCR180II) mini air compressor
Product Description
Product Technical Description
| Model : | Large Power Screw Air Compressor (II series) |
| Type: | Large Power Screw Air Compressor |
| Voltage: | 380V/50HZ/3P, 220V/60HZ/3P, 400V/50HZ/3P, 415V/50HZ/3P or Customer′s Requirements |
| Working Pressure: | 7~12.5 bar |
| Installed Motor Power: | 90KW~400KW |
| Capacity: | 12.5~74 m3/min |
| Color: | Blue |
| Driven Method: | Direct Driven |
| Trademark: | SCR |
| Transport Package: | Standard Wooden Packing |
| Available Certificate: | CE, ISO, UL, ASME, GHOST |
| Origin: | ZheJiang , China |
| application: | Casting , Metal , Plastic , Rubber |
Product Features
German high quality centrifugal fan
German ROSENBERG’s newest centrifugal fans, big cooling air volume, stable and uniform
air pressure , full use of the heat dissipation area, good cooling effect. Totally conquer the problem of big horse power air cooling type compressors poor cooling effect problems.
High quality air inlet valve
SCR use a high quality imported inlet valve. CHINAMFG have adopted this technology because when the machine unloads the device will automatically adjust the exhaust pressure. Compared with similar products this greatly reduces the unload power, also reduces the bearing load at the same time, and improving the bearing service life.
American High quality air filter system
The Donaldson air filter adopts a nano coating on the filter surface with an innovative filter construc-tion. The filter has a low pressure drop which reduc-es energy consumption. Compared with traditional filters it has a higher dust capacity and lower flow resistance.
High quality high efficiency specialized motor
High Efficiency all closed air cooling air compressor specialized motor. Protection grade IP55 Optional , insulation grade F, class B temperature rise, can prevent dust and moisture into the motor. CHINAMFG bearing can ensure long-term continuous trouble-free operation.
| Model | SCR180II-7 | SCR180II-8 | SCR180II-10 | SCR180II-12.5 | |
| Capacity/Pressure(m3/min,/BAR) | 24.5/7 | 24/8 | 21.5/10 | 18/12.5 | |
| TEFC Motor | Power(KW) | 132KW(150H.P) | |||
| Speed(r/min) | 2975 | ||||
| Starting way | Y-starting | ||||
| Volt(V) | 380/400/415(220) | ||||
| Motor safety grade | IP54 | ||||
| Motor isolation grade | F | ||||
| Electrical Supply | 380(400,415)V/50Hz/3Phase, 220V/60HZ/3P | ||||
| Outlet Temperature(ºC) | ≤ Environment Temperature+10ºC | ||||
| Driven way | Direct Driven | ||||
| Noise level at 1 meter | 78±3dB(A) | ||||
| Cooling method | Air cooling | ||||
| Oil content | ≤3 ppm | ||||
| Outlet Connection | DN65 | ||||
| Dimension | Length(mm) | 2700 | |||
| Width(mm) | 1750 | ||||
| Height(mm) | 1850 | ||||
| Weight(KG) | 3100 | ||||
Product Categories
Advantages
Application
About SCR
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Lubrication Style: | Lubricated |
|---|---|
| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Structure Type: | Closed Type |
| Installation Type: | Stationary Type |
| Type: | Twin-Screw Compressor |
| Customization: |
Available
|
|
|---|
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How are air compressors employed in the petrochemical industry?
Air compressors play a vital role in the petrochemical industry, where they are employed for various applications that require compressed air. The petrochemical industry encompasses the production of chemicals and products derived from petroleum and natural gas. Here’s an overview of how air compressors are utilized in the petrochemical industry:
1. Instrumentation and Control Systems:
Air compressors are used to power pneumatic instrumentation and control systems in petrochemical plants. These systems rely on compressed air to operate control valves, actuators, and other pneumatic devices that regulate processes such as flow control, pressure control, and temperature control. Compressed air provides a reliable and clean source of energy for these critical control mechanisms.
2. Pneumatic Tools and Equipment:
Petrochemical plants often utilize pneumatic tools and equipment for various tasks such as maintenance, repair, and construction activities. Air compressors supply the necessary compressed air to power these tools, including pneumatic drills, impact wrenches, grinders, sanders, and painting equipment. The versatility and convenience of compressed air make it an ideal energy source for a wide range of pneumatic tools used in the industry.
3. Process Air and Gas Supply:
Petrochemical processes often require a supply of compressed air and gases for specific applications. Air compressors are employed to generate compressed air for processes such as oxidation, combustion, and aeration. They may also be used to compress gases like nitrogen, hydrogen, and oxygen, which are utilized in various petrochemical reactions and treatment processes.
4. Cooling and Ventilation:
Petrochemical plants require adequate cooling and ventilation systems to maintain optimal operating conditions and ensure the safety of personnel. Air compressors are used to power cooling fans, blowers, and air circulation systems that help maintain the desired temperature, remove heat generated by equipment, and provide ventilation in critical areas.
5. Nitrogen Generation:
Nitrogen is widely used in the petrochemical industry for applications such as blanketing, purging, and inerting. Air compressors are utilized in nitrogen generation systems, where they compress atmospheric air, which is then passed through a nitrogen separation process to produce high-purity nitrogen gas. This nitrogen is used for various purposes, including preventing the formation of explosive mixtures, protecting sensitive equipment, and maintaining the integrity of stored products.
6. Instrument Air:
Instrument air is essential for operating pneumatic instruments, analyzers, and control devices throughout the petrochemical plant. Air compressors supply compressed air that is treated and conditioned to meet the stringent requirements of instrument air quality standards. Instrument air is used for tasks such as pneumatic conveying, pneumatic actuators, and calibration of instruments.
By employing air compressors in the petrochemical industry, operators can ensure reliable and efficient operation of pneumatic systems, power various tools and equipment, support critical processes, and maintain safe and controlled environments.
How do you troubleshoot common air compressor problems?
Troubleshooting common air compressor problems can help identify and resolve issues that may affect the performance and functionality of the compressor. Here are some steps to troubleshoot common air compressor problems:
1. No Power:
- Check the power source and ensure the compressor is properly plugged in.
- Inspect the circuit breaker or fuse box to ensure it hasn’t tripped or blown.
- Verify that the compressor’s power switch or control panel is turned on.
2. Low Air Pressure:
- Check the air pressure gauge on the compressor. If the pressure is below the desired level, the compressor might not be building up enough pressure.
- Inspect for air leaks in the system. Leaks can cause a drop in pressure. Listen for hissing sounds or use a soapy water solution to identify the location of leaks.
- Ensure the compressor’s intake filter is clean and not clogged, as this can restrict airflow and reduce pressure.
3. Excessive Noise or Vibration:
- Inspect the compressor’s mounting and foundation to ensure it is secure and stable. Loose mounts can cause excessive noise and vibration.
- Check for loose or damaged components, such as belts, pulleys, or motor mounts. Tighten or replace as necessary.
- Verify that the compressor’s cooling system, such as the fan or fins, is clean and free from obstructions. Overheating can lead to increased noise and vibration.
4. Air Leaks:
- Inspect all connections, valves, fittings, and hoses for leaks. Tighten or replace any loose or damaged components.
- Apply a soapy water solution to suspected areas and look for bubbles. Bubbles indicate air leaks.
- Consider using thread sealant or Teflon tape on threaded connections to ensure a proper seal.
5. Excessive Moisture in Compressed Air:
- Check the compressor’s drain valve and ensure it is functioning properly. Open the valve to release any accumulated moisture.
- Inspect and clean the compressor’s moisture separator or air dryer, if equipped.
- Consider installing additional filtration or drying equipment to remove moisture from the compressed air system.
6. Motor Overheating:
- Ensure the compressor’s cooling system is clean and unobstructed.
- Check the motor’s air intake vents and clean any dust or debris that may be blocking airflow.
- Verify that the compressor is not being operated in an excessively hot environment.
- Check the motor’s lubrication levels and ensure they are within the manufacturer’s recommended range.
- Consider using a thermal overload protector to prevent the motor from overheating.
If troubleshooting these common problems does not resolve the issue, it may be necessary to consult the manufacturer’s manual or seek assistance from a qualified technician. Regular maintenance, such as cleaning, lubrication, and inspection, can also help prevent common problems and ensure the optimal performance of the air compressor.
How does an air compressor work?
An air compressor works by using mechanical energy to compress and pressurize air, which is then stored and used for various applications. Here’s a detailed explanation of how an air compressor operates:
1. Air Intake: The air compressor draws in ambient air through an intake valve or filter. The air may pass through a series of filters to remove contaminants such as dust, dirt, and moisture, ensuring the compressed air is clean and suitable for its intended use.
2. Compression: The intake air enters a compression chamber, typically consisting of one or more pistons or a rotating screw mechanism. As the piston moves or the screw rotates, the volume of the compression chamber decreases, causing the air to be compressed. This compression process increases the pressure and reduces the volume of the air.
3. Pressure Build-Up: The compressed air is discharged into a storage tank or receiver where it is held at a high pressure. The tank allows the compressed air to be stored for later use and helps to maintain a consistent supply of compressed air, even during periods of high demand.
4. Pressure Regulation: Air compressors often have a pressure regulator that controls the output pressure of the compressed air. This allows the user to adjust the pressure according to the requirements of the specific application. The pressure regulator ensures that the compressed air is delivered at the desired pressure level.
5. Release and Use: When compressed air is needed, it is released from the storage tank or receiver through an outlet valve or connection. The compressed air can then be directed to the desired application, such as pneumatic tools, air-operated machinery, or other pneumatic systems.
6. Continued Operation: The air compressor continues to operate as long as there is a demand for compressed air. When the pressure in the storage tank drops below a certain level, the compressor automatically starts again to replenish the compressed air supply.
Additionally, air compressors may include various components such as pressure gauges, safety valves, lubrication systems, and cooling mechanisms to ensure efficient and reliable operation.
In summary, an air compressor works by drawing in air, compressing it to increase its pressure, storing the compressed air, regulating the output pressure, and releasing it for use in various applications. This process allows for the generation of a continuous supply of compressed air for a wide range of industrial, commercial, and personal uses.
editor by CX 2024-02-13
China supplier 630 Cfm Portable Air Compressor for Mining Water Drilling mini air compressor
Product Description
Product Description
Product Display
Company Profile
CHINAMFG CHINAMFG Import And Export Trade Co.,Ltd. is a manufacturer,specialized in the production of blasting drilling rig,solar pile driver,water well drilling rig and accessories such as portable screw air compressor,drill pipe,drill hammer,drill bit,etc.Our company is a backbone enterprise in the industry. Our company is located at the foot of Mountain Tai which has the reputation of “Chief of the Five Sacred Mountains”, neighboring to ZheJiang -ZheJiang High-speed Way, with convenient transportation and excellent location. Your satisfaction is our promise. Our company covers an area of 35,000 square meters, and has more than 160 employees, including 20 engineering technicians, who all are specialized drilling rig mechanical design talents. Our company has more than 30 sets of advanced CNC machining equipment and more than 10 sets of special processing equipment. Our company has our own heat treatment production workshops and surface treatment equipment. On the basis of advanced production equipment and more than 10 years of experience, our company has developed and produced 3 series of products, including high, medium and low-grade air pressure equipment. 15 kinds of products sell well throughout China, Russia, Kenya, Brazil, India and some other countries in Europe.
FAQ
Q1: What’s your delivery time?
A: 15 days to produce, within 3 days if in stock.
Q2: What’s methods of payments are accepted?
A: We agree T/T ,L/C , West Union ,Money Gram ,Paypal.
Q3: What about the shipments and package?
A: 40′ container for 2 sets, 20′ container for 1 set,
Machine in nude packing, spare parts in standard export wooden box.
Q4: Have you got any certificate?
A:We have got ISO,CE certificate.
Q5: How to control the quality?
A: We will control the quality by ISO and CE requests.
Q6: Do you have after-sale service and warranty service ?
A: Yes, we have.We can supply instruction for operation and maintenance.If necessary, we can send our engineer to repair the machine in your company.
Warranty is 1 year for the machine.
Q7: Can I trust your company ?
A: Our company has been certificated by Chinese government ,and verified by SGS. Just order from US !
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Available |
|---|---|
| Warranty: | One Year |
| Lubrication Style: | Lubricated |
| Cooling System: | Water Cooling |
| Power Source: | Diesel Engine |
| Cylinder Position: | Horizontal |
How are air compressors utilized in pharmaceutical manufacturing?
Air compressors play a crucial role in pharmaceutical manufacturing, where they are utilized for various critical applications. The pharmaceutical industry requires a reliable source of clean and compressed air to ensure the safety, efficiency, and quality of its processes. Here’s an overview of how air compressors are utilized in pharmaceutical manufacturing:
1. Manufacturing Processes:
Air compressors are used in numerous manufacturing processes within the pharmaceutical industry. Compressed air is employed for tasks such as mixing and blending of ingredients, granulation, tablet compression, coating, and encapsulation of pharmaceutical products. The controlled delivery of compressed air facilitates precise and consistent manufacturing processes, ensuring the production of high-quality pharmaceuticals.
2. Instrumentation and Control Systems:
Pharmaceutical manufacturing facilities rely on compressed air for powering instrumentation and control systems. Compressed air is used to operate pneumatic valves, actuators, and control devices that regulate the flow of fluids, control temperature and pressure, and automate various processes. The clean and dry nature of compressed air makes it ideal for maintaining the integrity and accuracy of these critical control mechanisms.
3. Packaging and Filling:
Air compressors are employed in pharmaceutical packaging and filling processes. Compressed air is used to power machinery and equipment for bottle cleaning, labeling, capping, and sealing of pharmaceutical products. Compressed air provides the necessary force and precision for efficient and reliable packaging, ensuring product safety and compliance.
4. Cleanroom Environments:
Pharmaceutical manufacturing often takes place in controlled cleanroom environments to prevent contamination and maintain product quality. Air compressors are used to supply clean and filtered compressed air to these cleanrooms, ensuring a controlled and sterile environment for the production of pharmaceuticals. Compressed air is also utilized in cleanroom air showers and air curtains for personnel and material decontamination.
5. Laboratory Applications:
In pharmaceutical laboratories, air compressors are utilized for various applications. Compressed air is used in laboratory instruments, such as gas chromatographs, mass spectrometers, and other analytical equipment. It is also employed in clean air cabinets, fume hoods, and laminar flow benches, providing a controlled and clean environment for testing, analysis, and research.
6. HVAC Systems:
Air compressors are involved in heating, ventilation, and air conditioning (HVAC) systems in pharmaceutical manufacturing facilities. Compressed air powers the operation of HVAC controls, dampers, actuators, and air handling units, ensuring proper air circulation, temperature control, and environmental conditions in various manufacturing areas.
By utilizing air compressors in pharmaceutical manufacturing, the industry can maintain strict quality standards, enhance operational efficiency, and ensure the safety and efficacy of pharmaceutical products.
Can air compressors be integrated into automated systems?
Yes, air compressors can be integrated into automated systems, providing a reliable and versatile source of compressed air for various applications. Here’s a detailed explanation of how air compressors can be integrated into automated systems:
Pneumatic Automation:
Air compressors are commonly used in pneumatic automation systems, where compressed air is utilized to power and control automated machinery and equipment. Pneumatic systems rely on the controlled release of compressed air to generate linear or rotational motion, actuating valves, cylinders, and other pneumatic components. By integrating an air compressor into the system, a continuous supply of compressed air is available to power the automation process.
Control and Regulation:
In automated systems, air compressors are often connected to a control and regulation system to manage the compressed air supply. This system includes components such as pressure regulators, valves, and sensors to monitor and adjust the air pressure, flow, and distribution. The control system ensures that the air compressor operates within the desired parameters and provides the appropriate amount of compressed air to different parts of the automated system as needed.
Sequential Operations:
Integration of air compressors into automated systems enables sequential operations to be carried out efficiently. Compressed air can be used to control the timing and sequencing of different pneumatic components, ensuring that the automated system performs tasks in the desired order and with precise timing. This is particularly useful in manufacturing and assembly processes where precise coordination of pneumatic actuators is required.
Energy Efficiency:
Air compressors can contribute to energy-efficient automation systems. By incorporating energy-saving features such as Variable Speed Drive (VSD) technology, air compressors can adjust their power output according to the demand, reducing energy consumption during periods of low activity. Additionally, efficient control and regulation systems help optimize the use of compressed air, minimizing waste and improving overall energy efficiency.
Monitoring and Diagnostics:
Integration of air compressors into automated systems often includes monitoring and diagnostic capabilities. Sensors and monitoring devices can be installed to collect data on parameters such as air pressure, temperature, and system performance. This information can be used for real-time monitoring, preventive maintenance, and troubleshooting, ensuring the reliable operation of the automated system.
When integrating air compressors into automated systems, it is crucial to consider factors such as the specific requirements of the automation process, the desired air pressure and volume, and the compatibility of the compressor with the control and regulation system. Consulting with experts in automation and compressed air systems can help in designing an efficient and reliable integration.
In summary, air compressors can be seamlessly integrated into automated systems, providing the necessary compressed air to power and control pneumatic components, enabling sequential operations, and contributing to energy-efficient automation processes.
How is air pressure measured in air compressors?
Air pressure in air compressors is typically measured using one of two common units: pounds per square inch (PSI) or bar. Here’s a brief explanation of how air pressure is measured in air compressors:
1. Pounds per Square Inch (PSI): PSI is the most widely used unit of pressure measurement in air compressors, especially in North America. It represents the force exerted by one pound of force over an area of one square inch. Air pressure gauges on air compressors often display pressure readings in PSI, allowing users to monitor and adjust the pressure accordingly.
2. Bar: Bar is another unit of pressure commonly used in air compressors, particularly in Europe and many other parts of the world. It is a metric unit of pressure equal to 100,000 pascals (Pa). Air compressors may have pressure gauges that display readings in bar, providing an alternative measurement option for users in those regions.
To measure air pressure in an air compressor, a pressure gauge is typically installed on the compressor’s outlet or receiver tank. The gauge is designed to measure the force exerted by the compressed air and display the reading in the specified unit, such as PSI or bar.
It’s important to note that the air pressure indicated on the gauge represents the pressure at a specific point in the air compressor system, typically at the outlet or tank. The actual pressure experienced at the point of use may vary due to factors such as pressure drop in the air lines or restrictions caused by fittings and tools.
When using an air compressor, it is essential to set the pressure to the appropriate level required for the specific application. Different tools and equipment have different pressure requirements, and exceeding the recommended pressure can lead to damage or unsafe operation. Most air compressors allow users to adjust the pressure output using a pressure regulator or similar control mechanism.
Regular monitoring of the air pressure in an air compressor is crucial to ensure optimal performance, efficiency, and safe operation. By understanding the units of measurement and using pressure gauges appropriately, users can maintain the desired air pressure levels in their air compressor systems.
editor by CX 2024-02-11
China supplier Piston Oil Less Free Oilless 8L Oxygen Concentrators Medical Air Compressor arb air compressor
Product Description
Piston Oil Less Free Oilless 8L Oxygen concentrators Medical Air Compressor
Advantages:
Oil-less Vacuum Pumps / Air Compressors
PRANSCH oil-less rocking piston pump and air compressor combines the best characteristics of traditional piston pumps(air compressor) and diaphragm pumps into small units with excellent features.
- Light weight and very portable
- Durable and near ZERO maintenance
- Thermal protection (130 deg C)
- Power cord with plug, 1m length
- Shock mount
- Silencer – muffler
- Stainless steel vacuum and pressure gauge, both with oil damping
- Two stainless steel needle valves each with lock nut.
- All nickel plated fittings
- Power supply 230V, 50/60 Hz
This series is ideal for use in applications where oil-mist is undesirable. For examples, pressure/vacuum filtration, air sampling, water aeration, flame photometer, etc.
Specification:
| Model | Frequency | Flow | Pressure | Power | Speed | Current | Voltage | Heat | Sound | Weight | Hole | Installation Dimensions |
| Hz | L/min | Kpa | Kw | Min-1 | A | V | 0 C | dB(A) | Kg | mm | mm | |
| PM200C | 50 | 50 | 200 | 0.12 | 1380 | 0.45 | 210/235 | 5-40 | 48 | 1.8 | M5 | L100xW74 |
| 60 | 58 | 200 | 0.13 | 1450 | 0.90 | 110/125 | 5-40 | 48 | 1.8 | M5 | ||
| PM300C | 50 | 75 | 300 | 0.15 | 1380 | 0.76 | 210/235 | 5-40 | 45 | 3.2 | M6 | L118xW70 |
| 60 | 90 | 300 | 0.16 | 1450 | 1.52 | 110/125 | 5-40 | 45 | 3.2 | M6 | ||
| PM550C | 50 | 105 | 600 | 0.32 | 1380 | 1.50 | 210/235 | 5-40 | 56 | 6.0 | M6 | L148xW83 |
| 60 | 115 | 600 | 0.35 | 1450 | 3.00 | 110/125 | 5-40 | 56 | 6.0 | M6 | ||
| PM1200C | 50 | 120 | 300 | 0.45 | 1380 | 1.70 | 210/235 | 5-40 | 58 | 7.6 | M6 | L203xW86 |
| 60 | 145 | 300 | 0.49 | 1450 | 3.50 | 110/125 | 5-40 | 58 | 7.6 | M6 | ||
| PM1400C | 50 | 160 | 700 | 0.45 | 1380 | 1.70 | 210/235 | 5-40 | 58 | 8.5 | M6 | L203xW86 |
| 60 | 180 | 700 | 0.49 | 1450 | 3.50 | 110/125 | 5-40 | 58 | 8.5 | M6 | ||
| PM2000C | 50 | 230 | 800 | 0.55 | 1380 | 2.50 | 210/235 | 5-40 | 60 | 10.0 | M6 | L203xW86 |
| 60 | 250 | 800 | 0.60 | 1450 | 5.20 | 110/125 | 5-40 | 60 | 10.0 | M6 | ||
| HP2400C | 50 | 240 | 900 | 0.90 | 1380 | 3.30 | 210/235 | 5-40 | 75 | 17.0 | M7 | L246xW127 |
| 60 | 258 | 900 | 1.00 | 1450 | 6.80 | 110/125 | 5-40 | 75 | 17.0 | M7 | ||
| PM3000C | 50 | 250 | 1000 | 1.50 | 1380 | 4.20 | 210/235 | 5-40 | 76 | 17.5 | M7 | L246xW127 |
| 60 | 270 | 1000 | 1.70 | 1450 | 9.00 | 110/125 | 5-40 | 76 | 17.5 | M7 |
Why use a Rocking Piston Product?
Variety
Pransch oilless Rocking Piston air compressors and vacuum pumps, available in single, twin, miniature, and tankmounted
Styles, are the perfect choice for hundreds of applications. Choose from dual frequency, shaded pole,
And permanent split capacitor (psc) electric motors with AC multi-voltage motors to match North American,
European, and CHINAMFG power supplies. A complete line of recommended accessories as well as 6, 12, and
24 volt DC models in brush and brushless types are also available.
Performance
The rocking piston combines the best characteristics of piston and diaphragm air compressors into a small unit
With exceptional performance. Air flow capabilities from 3.4 LPM to 5.5 CFM (9.35 m3/h), pressure to 175 psi
(12.0 bar) and vacuum capabilities up to 29 inHg (31 mbar). Horsepowers range from 1/20 to 1/2 HP
(0.04 to 0.37 kW).
Reliable
These pumps are made to stand up through years of use. The piston rod and bearing assembly are bonded
Together, not clamped; They will not slip, loosen, or misalign to cause trouble.
Clean Air
Because CHINAMFG pumps are oil-free, they are ideal for use in applications in laboratories, hospitals, and the
Food industry where oil mist contamination is undesirable.
Application:
- Transportation application include: Auto detailing Equipment, Braking Systems, Suspension Systems, Tire Inflators
- Food and Beverage application include: Beverage dispensing, coffee and Espresso equipment, Food processing and packaging, Nitrogen Generation
- Medical and laboratory application include: Body fluid Analysis equipment, Dental compressors and hand tools, dental vacuum ovens, Dermatology equipment, eye surgery equipment, lab automation, Liposuction equipment, Medical aspiration, Nitrogen Generation, Oxygen concentrators, Vacuum Centrifuge, vacuum filtering, ventilators
- General industrial application include: Cable pressurization, core drilling
- Environmental application include: Dry sprinkler systems, Pond Aeration, Refrigerant Reclamation, Water Purification Systems
- Printing and packaging application include: Vacuum frames
- Material Handling application include: Vacuum mixing
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Lubrication Style: | Oil-free |
|---|---|
| Cooling System: | Air Cooling |
| Structure Type: | Closed Type |
| Compress Level: | Single-Stage |
| Refrigerant Type: | Air |
| Material: | Steel |
| Customization: |
Available
|
|
|---|
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What is the role of air compressors in power generation?
Air compressors play a significant role in power generation, supporting various operations and equipment within the industry. Here are some key roles of air compressors in power generation:
1. Combustion Air Supply:
Air compressors are used to supply compressed air for the combustion process in power generation. In fossil fuel power plants, such as coal-fired or natural gas power plants, compressed air is required to deliver a steady flow of air to the burners. The compressed air helps in the efficient combustion of fuel, enhancing the overall performance and energy output of the power plant.
2. Instrumentation and Control:
Air compressors are utilized for instrumentation and control systems in power generation facilities. Compressed air is used to operate pneumatic control valves, actuators, and other pneumatic devices that regulate the flow of steam, water, and gases within the power plant. The reliable and precise control provided by compressed air ensures efficient and safe operation of various processes and equipment.
3. Cooling and Ventilation:
In power generation, air compressors are involved in cooling and ventilation applications. Compressed air is used to drive air-operated cooling fans and blowers, providing adequate airflow for cooling critical components such as generators, transformers, and power electronics. The compressed air also assists in maintaining proper ventilation in control rooms, substations, and other enclosed spaces, helping to dissipate heat and ensure a comfortable working environment.
4. Cleaning and Maintenance:
Air compressors are employed for cleaning and maintenance tasks in power generation facilities. Compressed air is utilized to blow away dust, dirt, and debris from equipment, machinery, and electrical panels. It helps in maintaining the cleanliness and optimal performance of various components, reducing the risk of equipment failure and improving overall reliability.
5. Pneumatic Tools and Equipment:
In power generation plants, air compressors provide the necessary compressed air for operating pneumatic tools and equipment. These tools include impact wrenches, pneumatic drills, grinders, and sandblasting equipment, which are utilized for installation, maintenance, and repair tasks. The high-pressure air generated by compressors enables efficient and reliable operation of these tools, enhancing productivity and reducing manual effort.
6. Nitrogen Generation:
Sometimes, air compressors are used in power generation for nitrogen generation. Compressed air is passed through a nitrogen generator system, which separates nitrogen from other components of air, producing a high-purity nitrogen gas stream. Nitrogen is commonly used in power plant applications, such as purging systems, blanketing in transformers, and generator cooling, due to its inert properties and low moisture content.
7. Start-up and Emergency Systems:
Air compressors are an integral part of start-up and emergency systems in power generation. Compressed air is utilized to power pneumatic starters for gas turbines, providing the initial rotation needed to start the turbine. In emergency situations, compressed air is also used to actuate emergency shutdown valves, safety systems, and fire suppression equipment, ensuring the safe operation and protection of the power plant.
Overall, air compressors contribute to the efficient and reliable operation of power generation facilities, supporting combustion processes, control systems, cooling, cleaning, and various other applications critical to the power generation industry.
How do you troubleshoot common air compressor problems?
Troubleshooting common air compressor problems can help identify and resolve issues that may affect the performance and functionality of the compressor. Here are some steps to troubleshoot common air compressor problems:
1. No Power:
- Check the power source and ensure the compressor is properly plugged in.
- Inspect the circuit breaker or fuse box to ensure it hasn’t tripped or blown.
- Verify that the compressor’s power switch or control panel is turned on.
2. Low Air Pressure:
- Check the air pressure gauge on the compressor. If the pressure is below the desired level, the compressor might not be building up enough pressure.
- Inspect for air leaks in the system. Leaks can cause a drop in pressure. Listen for hissing sounds or use a soapy water solution to identify the location of leaks.
- Ensure the compressor’s intake filter is clean and not clogged, as this can restrict airflow and reduce pressure.
3. Excessive Noise or Vibration:
- Inspect the compressor’s mounting and foundation to ensure it is secure and stable. Loose mounts can cause excessive noise and vibration.
- Check for loose or damaged components, such as belts, pulleys, or motor mounts. Tighten or replace as necessary.
- Verify that the compressor’s cooling system, such as the fan or fins, is clean and free from obstructions. Overheating can lead to increased noise and vibration.
4. Air Leaks:
- Inspect all connections, valves, fittings, and hoses for leaks. Tighten or replace any loose or damaged components.
- Apply a soapy water solution to suspected areas and look for bubbles. Bubbles indicate air leaks.
- Consider using thread sealant or Teflon tape on threaded connections to ensure a proper seal.
5. Excessive Moisture in Compressed Air:
- Check the compressor’s drain valve and ensure it is functioning properly. Open the valve to release any accumulated moisture.
- Inspect and clean the compressor’s moisture separator or air dryer, if equipped.
- Consider installing additional filtration or drying equipment to remove moisture from the compressed air system.
6. Motor Overheating:
- Ensure the compressor’s cooling system is clean and unobstructed.
- Check the motor’s air intake vents and clean any dust or debris that may be blocking airflow.
- Verify that the compressor is not being operated in an excessively hot environment.
- Check the motor’s lubrication levels and ensure they are within the manufacturer’s recommended range.
- Consider using a thermal overload protector to prevent the motor from overheating.
If troubleshooting these common problems does not resolve the issue, it may be necessary to consult the manufacturer’s manual or seek assistance from a qualified technician. Regular maintenance, such as cleaning, lubrication, and inspection, can also help prevent common problems and ensure the optimal performance of the air compressor.
What is the purpose of an air compressor?
An air compressor serves the purpose of converting power, typically from an electric motor or an engine, into potential energy stored in compressed air. It achieves this by compressing and pressurizing air, which can then be used for various applications. Here’s a detailed explanation of the purpose of an air compressor:
1. Powering Pneumatic Tools: One of the primary uses of an air compressor is to power pneumatic tools. Compressed air can be used to operate a wide range of tools, such as impact wrenches, nail guns, paint sprayers, sanders, and drills. The compressed air provides the necessary force and energy to drive these tools, making them efficient and versatile.
2. Supplying Clean and Dry Air: Air compressors are often used to supply clean and dry compressed air for various industrial processes. Many manufacturing and production operations require a reliable source of compressed air that is free from moisture, oil, and other contaminants. Air compressors equipped with appropriate filters and dryers can deliver high-quality compressed air for applications such as instrumentation, control systems, and pneumatic machinery.
3. Inflating Tires and Sports Equipment: Air compressors are commonly used for inflating tires, whether it’s for vehicles, bicycles, or sports equipment. They provide a convenient and efficient method for quickly filling tires with the required pressure. Air compressors are also used for inflating sports balls, inflatable toys, and other similar items.
4. Operating HVAC Systems: Air compressors play a crucial role in the operation of heating, ventilation, and air conditioning (HVAC) systems. They provide compressed air for controlling and actuating dampers, valves, and actuators in HVAC systems, enabling precise regulation of air flow and temperature.
5. Assisting in Industrial Processes: Compressed air is utilized in various industrial processes. It can be used for air blow-off applications, cleaning and drying parts, powering air-operated machinery, and controlling pneumatic systems. Air compressors provide a reliable and efficient source of compressed air that can be tailored to meet the specific requirements of different industrial applications.
6. Supporting Scuba Diving and Breathing Systems: In scuba diving and other breathing systems, air compressors are responsible for filling diving tanks and supplying breathable air to divers. These compressors are designed to meet strict safety standards and deliver compressed air that is free from contaminants.
Overall, the purpose of an air compressor is to provide a versatile source of compressed air for powering tools, supplying clean air for various applications, inflating tires and sports equipment, supporting industrial processes, and facilitating breathing systems in specific contexts.
editor by CX 2024-02-11
China Good quality 200HP 160kw Efficient Quiet Screw Air Compressor From Chinese Compressor Supplier air compressor repair near me
Product Description
200HP 160kw Efficient Quiet Screw Air Compressor from Chinese Compressor Supplier
TECHNICAL DATA:
|
Model |
WZS-200EVA |
|
Air Flow/Working pressure |
27.0m3/min @ 8bar |
|
24.5m3/min @ 10bar |
|
|
Cooling type of COMPRESSOR |
Air cooling |
|
Cooling type of MOTOR |
Oil cooling |
|
Driven method |
Integrated connection |
|
Start way |
Soft VSD Start |
|
VSD inverter |
INOVANCE / HOLIP / VEICHI |
|
Exhaust Temp. |
< ambient temp. +8 degrees |
|
Oil content |
<2ppm |
|
Noise |
75±2 dB(A) |
|
Power |
380VAC/3ph/0~200Hz |
|
Motor power |
160kW/200hp |
|
Dimension |
2950*1800*1850mm |
|
Weight |
3200kg |
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Lubrication Style: | Oil-less |
|---|---|
| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Cylinder Position: | Horizontal |
| Structure Type: | Closed Type |
| Installation Type: | Stationary Type |
| Customization: |
Available
|
|
|---|
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What are the energy-saving technologies available for air compressors?
There are several energy-saving technologies available for air compressors that help improve their efficiency and reduce energy consumption. These technologies aim to optimize the operation of air compressors and minimize energy losses. Here are some common energy-saving technologies used:
1. Variable Speed Drive (VSD) Compressors:
VSD compressors are designed to adjust the motor speed according to the compressed air demand. By varying the motor speed, these compressors can match the output to the actual air requirement, resulting in energy savings. VSD compressors are particularly effective in applications with varying air demands, as they can operate at lower speeds during periods of lower demand, reducing energy consumption.
2. Energy-Efficient Motors:
The use of energy-efficient motors in air compressors can contribute to energy savings. High-efficiency motors, such as those with premium efficiency ratings, are designed to minimize energy losses and operate more efficiently than standard motors. By using energy-efficient motors, air compressors can reduce energy consumption and achieve higher overall system efficiency.
3. Heat Recovery Systems:
Air compressors generate a significant amount of heat during operation. Heat recovery systems capture and utilize this wasted heat for other purposes, such as space heating, water heating, or preheating process air or water. By recovering and utilizing the heat, air compressors can provide additional energy savings and improve overall system efficiency.
4. Air Receiver Tanks:
Air receiver tanks are used to store compressed air and provide a buffer during periods of fluctuating demand. By using appropriately sized air receiver tanks, the compressed air system can operate more efficiently. The tanks help reduce the number of starts and stops of the air compressor, allowing it to run at full load for longer periods, which is more energy-efficient than frequent cycling.
5. System Control and Automation:
Implementing advanced control and automation systems can optimize the operation of air compressors. These systems monitor and adjust the compressed air system based on demand, ensuring that only the required amount of air is produced. By maintaining optimal system pressure, minimizing leaks, and reducing unnecessary air production, control and automation systems help achieve energy savings.
6. Leak Detection and Repair:
Air leaks in compressed air systems can lead to significant energy losses. Regular leak detection and repair programs help identify and fix air leaks promptly. By minimizing air leakage, the demand on the air compressor is reduced, resulting in energy savings. Utilizing ultrasonic leak detection devices can help locate and repair leaks more efficiently.
7. System Optimization and Maintenance:
Proper system optimization and routine maintenance are essential for energy savings in air compressors. This includes regular cleaning and replacement of air filters, optimizing air pressure settings, ensuring proper lubrication, and conducting preventive maintenance to keep the system running at peak efficiency.
By implementing these energy-saving technologies and practices, air compressor systems can achieve significant energy efficiency improvements, reduce operational costs, and minimize environmental impact.
How are air compressors used in refrigeration and HVAC systems?
Air compressors play a vital role in refrigeration and HVAC (Heating, Ventilation, and Air Conditioning) systems, providing the necessary compression of refrigerant gases and facilitating the heat transfer process. Here are the key ways in which air compressors are used in refrigeration and HVAC systems:
1. Refrigerant Compression:
In refrigeration systems, air compressors are used to compress the refrigerant gas, raising its pressure and temperature. This compressed gas then moves through the system, where it undergoes phase changes and heat exchange to enable cooling or heating. The compressor is the heart of the refrigeration cycle, as it pressurizes and circulates the refrigerant.
2. Refrigeration Cycle:
The compression of refrigerant gas by the air compressor is an essential step in the refrigeration cycle. After compression, the high-pressure, high-temperature gas flows to the condenser, where it releases heat and condenses into a liquid. The liquid refrigerant then passes through an expansion valve or device, which reduces its pressure and temperature. This low-pressure, low-temperature refrigerant then enters the evaporator, absorbing heat from the surrounding environment and evaporating back into a gas. The cycle continues as the gas returns to the compressor for re-compression.
3. HVAC Cooling and Heating:
In HVAC systems, air compressors are used to facilitate cooling and heating processes. The compressor compresses the refrigerant gas, which allows it to absorb heat from the indoor environment in the cooling mode. The compressed gas releases heat in the outdoor condenser unit and then circulates back to the compressor to repeat the cycle. In the heating mode, the compressor reverses the refrigeration cycle, absorbing heat from the outdoor air or ground source and transferring it indoors.
4. Air Conditioning:
Air compressors are an integral part of air conditioning systems, which are a subset of HVAC systems. Compressed refrigerant gases are used to cool and dehumidify the air in residential, commercial, and industrial buildings. The compressor pressurizes the refrigerant, initiating the cooling cycle that removes heat from the indoor air and releases it outside.
5. Compressor Types:
Refrigeration and HVAC systems utilize different types of air compressors. Reciprocating compressors, rotary screw compressors, and scroll compressors are commonly used in these applications. The selection of the compressor type depends on factors such as system size, capacity requirements, efficiency, and application-specific considerations.
6. Energy Efficiency:
Efficient operation of air compressors is crucial for refrigeration and HVAC systems. Energy-efficient compressors help minimize power consumption and reduce operating costs. Additionally, proper compressor sizing and system design contribute to the overall energy efficiency of refrigeration and HVAC systems.
By effectively compressing refrigerant gases and facilitating the heat transfer process, air compressors enable the cooling and heating functions in refrigeration and HVAC systems, ensuring comfortable indoor environments and efficient temperature control.
Can you explain the basics of air compressor terminology?
Understanding the basic terminology related to air compressors can help in better comprehension of their operation and discussions related to them. Here are some essential terms related to air compressors:
1. CFM (Cubic Feet per Minute): CFM is a unit of measurement that denotes the volumetric flow rate of compressed air. It indicates the amount of air a compressor can deliver within a minute and is a crucial factor in determining the compressor’s capacity.
2. PSI (Pounds per Square Inch): PSI is a unit of measurement used to quantify pressure. It represents the force exerted by the compressed air on a specific area. PSI is a vital specification for understanding the pressure capabilities of an air compressor and determining its suitability for various applications.
3. Duty Cycle: Duty cycle refers to the percentage of time an air compressor can operate in a given time period. It indicates the compressor’s ability to handle continuous operation without overheating or experiencing performance issues. For instance, a compressor with a 50% duty cycle can run for half the time in a given hour or cycle.
4. Horsepower (HP): Horsepower is a unit used to measure the power output of a compressor motor. It indicates the motor’s capacity to drive the compressor pump and is often used as a reference for comparing different compressor models.
5. Receiver Tank: The receiver tank, also known as an air tank, is a storage vessel that holds the compressed air delivered by the compressor. It helps in stabilizing pressure fluctuations, allowing for a more consistent supply of compressed air during peak demand periods.
6. Single-Stage vs. Two-Stage: These terms refer to the number of compression stages in a reciprocating air compressor. In a single-stage compressor, air is compressed in a single stroke of the piston, while in a two-stage compressor, it undergoes initial compression in one stage and further compression in a second stage, resulting in higher pressures.
7. Oil-Free vs. Oil-Lubricated: These terms describe the lubrication method used in air compressors. Oil-free compressors have internal components that do not require oil lubrication, making them suitable for applications where oil contamination is a concern. Oil-lubricated compressors use oil for lubrication, enhancing durability and performance but requiring regular oil changes and maintenance.
8. Pressure Switch: A pressure switch is an electrical component that automatically starts and stops the compressor motor based on the pre-set pressure levels. It helps maintain the desired pressure range in the receiver tank and protects the compressor from over-pressurization.
9. Regulator: A regulator is a device used to control and adjust the output pressure of the compressed air. It allows users to set the desired pressure level for specific applications and ensures a consistent and safe supply of compressed air.
These are some of the fundamental terms associated with air compressors. Familiarizing yourself with these terms will aid in understanding and effectively communicating about air compressors and their functionality.
editor by CX 2024-02-10
China supplier CHINAMFG Rand Oil Free Screw Air Compressor IRN200H-OF manufacturer
Product Description
Ingersoll Rand Oil Free Screw Air Compressor
Model: IRN200H-OF
CHINAMFG Rand (NYSE:IR) advances the quality of life by creating comfortable, sustainable and efficient environments. Our people and our family of brands-including Club Car , CHINAMFG Rand , CHINAMFG King and Trane -work together to enhance the quality and comfort of air in homes and buildings; transport and protect food and perishables; and increase industrial productivity and efficiency. We are a $13 billion global business committed to a world of sustainable progress and enduring results.
CHINAMFG Rand, IR, the IR logo, PAC software, V-Shield and Ultra Coolant are trademarks of CHINAMFG Rand, its subsidiaries and/or affiliates. All other trademarks are the property of their respective owners. CHINAMFG Rand compressors are not designed, intended or approved for breathing air applications. CHINAMFG Rand does not approve specialised equipment for breathing air applications and assumes no responsibility or liability for compressors used for breathing air service. Nothing contained on these pages is intended to extend any warranty or representation, expressed or implied, regarding the product described herein. Any such warranties or other terms and conditions of sale of products shall be in accordance with CHINAMFG Rand’s standard terms and conditions of sale for such products, which are available CHINAMFG request. Product improvement is a continuing goal at CHINAMFG Rand. Any designs, diagrams, pictures, photographs and specifications contained within this document are for representative purposes only and may include optional scope and/or functionality and are subject to change without notice or obligation.
Our company’s purpose – to help make life better by relying on us – and the set of values that define us are the foundation of our company’s culture and success. We think and act like owners, taking responsibility for our own actions and always striving to care for our neighbors and create a brighter, healthier shared planet for everyone. We are committed to the success of our customers. Our goal is to operate with clarity and straightforwardness, building lifelong, ongoing and meaningful connections with our customers.
We are driven by a spirit of action and an entrepreneurial spirit of innovation and progress; we accept and embrace the many challenges that come with such responsibility. We speak honestly, admit mistakes, and always strive for openness and clarity. We have bold ambitions while moving CHINAMFG with humility and integrity, striving to earn trust every day. We have the expertise and experience to solve the toughest problems, but no matter how difficult the challenge, we are always sincere and humble. We are committed to fostering team innovation and cultivating and celebrating a culture that embraces diverse opinions, backgrounds and experiences. Employees who are driven by our purpose and values are an unstoppable force that strengthens our ability to deliver benefits to our stakeholders and ensure the long-term health and safety of our company. Bestrand is a leading supplier of compressed air system. Past 10 years, we established very good partnership with CHINAMFG Rand. We have provided all kinds of products from CHINAMFG Rand include air compressor, after treatment, spare parts to customers all over the world. Pls feel free to contact us for a quote.
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Lubrication Style: | Lubricated |
|---|---|
| Cooling System: | Air Cooling or Water Cooling |
| Power Source: | AC Power |
| Cylinder Position: | Vertical |
| Structure Type: | Closed Type |
| Installation Type: | Stationary Type |
| Customization: |
Available
|
|
|---|
How are air compressors utilized in pharmaceutical manufacturing?
Air compressors play a crucial role in pharmaceutical manufacturing, where they are utilized for various critical applications. The pharmaceutical industry requires a reliable source of clean and compressed air to ensure the safety, efficiency, and quality of its processes. Here’s an overview of how air compressors are utilized in pharmaceutical manufacturing:
1. Manufacturing Processes:
Air compressors are used in numerous manufacturing processes within the pharmaceutical industry. Compressed air is employed for tasks such as mixing and blending of ingredients, granulation, tablet compression, coating, and encapsulation of pharmaceutical products. The controlled delivery of compressed air facilitates precise and consistent manufacturing processes, ensuring the production of high-quality pharmaceuticals.
2. Instrumentation and Control Systems:
Pharmaceutical manufacturing facilities rely on compressed air for powering instrumentation and control systems. Compressed air is used to operate pneumatic valves, actuators, and control devices that regulate the flow of fluids, control temperature and pressure, and automate various processes. The clean and dry nature of compressed air makes it ideal for maintaining the integrity and accuracy of these critical control mechanisms.
3. Packaging and Filling:
Air compressors are employed in pharmaceutical packaging and filling processes. Compressed air is used to power machinery and equipment for bottle cleaning, labeling, capping, and sealing of pharmaceutical products. Compressed air provides the necessary force and precision for efficient and reliable packaging, ensuring product safety and compliance.
4. Cleanroom Environments:
Pharmaceutical manufacturing often takes place in controlled cleanroom environments to prevent contamination and maintain product quality. Air compressors are used to supply clean and filtered compressed air to these cleanrooms, ensuring a controlled and sterile environment for the production of pharmaceuticals. Compressed air is also utilized in cleanroom air showers and air curtains for personnel and material decontamination.
5. Laboratory Applications:
In pharmaceutical laboratories, air compressors are utilized for various applications. Compressed air is used in laboratory instruments, such as gas chromatographs, mass spectrometers, and other analytical equipment. It is also employed in clean air cabinets, fume hoods, and laminar flow benches, providing a controlled and clean environment for testing, analysis, and research.
6. HVAC Systems:
Air compressors are involved in heating, ventilation, and air conditioning (HVAC) systems in pharmaceutical manufacturing facilities. Compressed air powers the operation of HVAC controls, dampers, actuators, and air handling units, ensuring proper air circulation, temperature control, and environmental conditions in various manufacturing areas.
By utilizing air compressors in pharmaceutical manufacturing, the industry can maintain strict quality standards, enhance operational efficiency, and ensure the safety and efficacy of pharmaceutical products.
What is the energy efficiency of modern air compressors?
The energy efficiency of modern air compressors has significantly improved due to advancements in technology and design. Here’s an in-depth look at the energy efficiency features and factors that contribute to the efficiency of modern air compressors:
Variable Speed Drive (VSD) Technology:
Many modern air compressors utilize Variable Speed Drive (VSD) technology, also known as Variable Frequency Drive (VFD). This technology allows the compressor motor to adjust its speed according to the compressed air demand. By matching the motor speed to the required airflow, VSD compressors can avoid excessive energy consumption during periods of low demand, resulting in significant energy savings compared to fixed-speed compressors.
Air Leakage Reduction:
Air leakage is a common issue in compressed air systems and can lead to substantial energy waste. Modern air compressors often feature improved sealing and advanced control systems to minimize air leaks. By reducing air leakage, the compressor can maintain optimal pressure levels more efficiently, resulting in energy savings.
Efficient Motor Design:
The motor of an air compressor plays a crucial role in its energy efficiency. Modern compressors incorporate high-efficiency electric motors that meet or exceed established energy efficiency standards. These motors are designed to minimize energy losses and operate more efficiently, reducing overall power consumption.
Optimized Control Systems:
Advanced control systems are integrated into modern air compressors to optimize their performance and energy consumption. These control systems monitor various parameters, such as air pressure, temperature, and airflow, and adjust compressor operation accordingly. By precisely controlling the compressor’s output to match the demand, these systems ensure efficient and energy-saving operation.
Air Storage and Distribution:
Efficient air storage and distribution systems are essential for minimizing energy losses in compressed air systems. Modern air compressors often include properly sized and insulated air storage tanks and well-designed piping systems that reduce pressure drops and minimize heat transfer. These measures help to maintain a consistent and efficient supply of compressed air throughout the system, reducing energy waste.
Energy Management and Monitoring:
Some modern air compressors feature energy management and monitoring systems that provide real-time data on energy consumption and performance. These systems allow operators to identify energy inefficiencies, optimize compressor settings, and implement energy-saving practices.
It’s important to note that the energy efficiency of an air compressor also depends on factors such as the specific model, size, and application. Manufacturers often provide energy efficiency ratings or specifications for their compressors, which can help in comparing different models and selecting the most efficient option for a particular application.
Overall, modern air compressors incorporate various energy-saving technologies and design elements to enhance their efficiency. Investing in an energy-efficient air compressor not only reduces operational costs but also contributes to sustainability efforts by minimizing energy consumption and reducing carbon emissions.
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 2024-02-06
China supplier Industrial Dry Two Stage Air Compressor Used Zt110 CHINAMFG portable air compressor
Product Description
CHINAMFG is renowned for designing and manufacturing the most durable oil-free tooth compressors. The ZR/ZT rotary tooth compressor comes out of this strong tradition. Ideal for industries where high-quality oil-free air is key, the ZR/ZT offers the highest reliability and safety in combination with low energy costs.
Oil-free air is used in all kinds of industries where air quality is paramount for the end product and production process. These applications include food and beverage processing, pharmaceutical manufacturing, chemical and petrochemical processing, fermentation, wastewater treatment, pneumatic conveying, non-woven textile manufacturing and many more.
With the ZR/ZT, we provide an all-in-1 standard package incorporating the latest technology in a built-tolast design. To further optimize your ZR/ZT’s performance or to simply tailor it to your specific production environment, optional features are available.
| Model | Hz | FAD | Power | Noise | Weight | ||||||
| I/s | M³/min | cfm | kw | hp | db(A) | Standard | FF | ||||
| kg | Ibs | kg | Ibs | ||||||||
| ZR110-7.5 | 50 | 318.2 | 19.1 | 674 | 110 | 150 | 69 | 2709 | 5972 | 2954 | 6512 |
| ZR110-8.6 | 50 | 286.1 | 17.2 | 606 | 110 | 150 | 69 | 2709 | 5972 | 2954 | 6512 |
| ZR110-10 | 50 | 266.5 | 16 | 565 | 110 | 150 | 69 | 2709 | 5972 | 2954 | 6512 |
| ZR132-7.5 | 50 | 365.6 | 21.9 | 775 | 132 | 150 | 69 | 2900 | 6393 | 3145 | 6933 |
| ZR132-8.6 | 50 | 326.4 | 19.6 | 692 | 132 | 150 | 69 | 2900 | 6393 | 3145 | 6933 |
| ZR132-10 | 50 | 314.2 | 18.9 | 666 | 132 | 150 | 69 | 2900 | 6393 | 3145 | 6933 |
| ZR145-7.5 | 50 | 391.6 | 23.5 | 830 | 145 | 200 | 70 | 2895 | 6382 | 3145 | 6933 |
| ZR145-8.6 | 50 | 361.7 | 21.7 | 766 | 145 | 200 | 70 | 2895 | 6382 | 3145 | 6933 |
| ZR145-10 | 50 | 334.5 | 20.1 | 709 | 145 | 200 | 69 | 2895 | 6382 | 3145 | 6933 |
| ZR145-13 | 50 | 304 | 18.2 | 644 | 145 | 200 | 73 | 2895 | 6382 | 3145 | 6933 |
| ZR160-7.5 | 50 | 472.2 | 28.3 | 1001 | 160 | 200 | 69 | 3760 | 8289 | 4670 | 15715 |
| ZR160-8.6 | 50 | 435 | 26.1 | 922 | 160 | 200 | 69 | 3760 | 8289 | 4670 | 15715 |
| ZR160-10 | 50 | 402.6 | 24.2 | 853 | 160 | 200 | 69 | 3760 | 8289 | 4670 | 15715 |
| ZR200-7.5 | 50 | 602.1 | 36.1 | 1276 | 200 | 250 | 67 | 3860 | 8510 | 5230 | 11530 |
| ZR200-8.6 | 50 | 551.6 | 33.1 | 1169 | 200 | 250 | 67 | 3860 | 8510 | 5230 | 11530 |
| ZR200-10 | 50 | 506.2 | 30.4 | 1073 | 200 | 250 | 69 | 3860 | 8510 | 5230 | 11530 |
| ZR250-7.5 | 50 | 717.6 | 43.1 | 1521 | 250 | 300 | 67 | 4310 | 9502 | 5680 | 12522 |
| ZR250-8.6 | 50 | 683.8 | 41 | 1449 | 250 | 300 | 67 | 4310 | 9502 | 5680 | 12522 |
| ZR250-10 | 50 | 622.5 | 37.4 | 1319 | 250 | 300 | 67 | 4310 | 9502 | 5680 | 12522 |
| ZR250-13³ | 50 | 514.9 | 30.9 | 1091 | 250 | 300 | 70 | 4310 | 9502 | ||
| ZR275-7.5 | 50 | 774.1 | 46.4 | 1640 | 275 | 350 | 67 | 4640 | 15719 | 6571 | 13250 |
| ZR275-8.6 | 50 | 716.7 | 43 | 1518 | 275 | 350 | 67 | 4640 | 15719 | 6571 | 13250 |
| ZR275-10 | 50 | 683.5 | 41 | 1448 | 275 | 350 | 67 | 4640 | 15719 | 6571 | 13250 |
| ZR275-13³ | 50 | 561.8 | 33.7 | 1190 | 275 | 350 | 70 | 4640 | 15719 | ||
| ZT110-7.5 | 50 | 306.9 | 18.4 | 650 | 110 | 150 | 71 | 3654 | 8056 | 4146 | 9140 |
| ZT110-8.6 | 50 | 286.2 | 17.2 | 606 | 110 | 150 | 71 | 3654 | 8056 | 4146 | 9140 |
| ZT110-10 | 50 | 266.9 | 16 | 566 | 110 | 150 | 71 | 3654 | 8056 | 4146 | 9140 |
| ZT132-7.5 | 50 | 363.1 | 21.8 | 769 | 132 | 150 | 72 | 3845 | 8477 | 4355 | 9601 |
| ZT132-8.6 | 50 | 325.2 | 19.5 | 689 | 132 | 150 | 72 | 3845 | 8477 | 4355 | 9601 |
| ZT132-10 | 50 | 313.3 | 18.8 | 664 | 132 | 150 | 72 | 3845 | 8477 | 4355 | 9601 |
| ZT145-7.5 | 50 | 387.3 | 23.2 | 821 | 145 | 200 | 72 | 3840 | 8466 | 4350 | 9590 |
| ZT145-8.6 | 50 | 358.4 | 21.5 | 759 | 145 | 200 | 72 | 3840 | 8466 | 4350 | 9590 |
| ZT145-10 | 50 | 332.3 | 19.9 | 704 | 145 | 200 | 72 | 3840 | 8466 | 4350 | 9590 |
| ZT160-7.5 | 50 | 465.5 | 27.9 | 986 | 160 | 200 | 77 | 5150 | 11354 | 5590 | 12324 |
| ZT160-8.6 | 50 | 428.3 | 25.7 | 908 | 160 | 200 | 77 | 5150 | 11354 | 5590 | 12324 |
| ZT160-10 | 50 | 396.3 | 23.8 | 840 | 160 | 200 | 78 | 5150 | 11354 | 5590 | 12324 |
| ZT200-7.5 | 50 | 568.4 | 34.1 | 1204 | 200 | 250 | 78 | 5250 | 11574 | 6150 | 13558 |
| ZT200-8.6 | 50 | 521.7 | 31.3 | 1105 | 200 | 250 | 78 | 5250 | 11574 | 6150 | 13558 |
| ZT200-10 | 50 | 499.6 | 30 | 1059 | 200 | 250 | 78 | 5250 | 11574 | 6150 | 13558 |
| ZT250-7.5 | 50 | 706.3 | 42.4 | 1497 | 250 | 300 | 77 | 5700 | 12566 | 6600 | 14450 |
| ZT250-8.6 | 50 | 673.5 | 40.4 | 1427 | 250 | 300 | 78 | 5700 | 12566 | 6600 | 14550 |
| ZT250-10 | 50 | 613.9 | 36.8 | 1301 | 250 | 300 | 78 | 5700 | 12566 | 6600 | 14550 |
| ZT275-7.5 | 50 | 738.1 | 44.3 | 1564 | 275 | 350 | 77 | 6030 | 13294 | 7080 | 15609 |
| ZT275-8.6 | 50 | 706.3 | 42.4 | 1497 | 275 | 350 | 78 | 6030 | 13294 | 7080 | 15609 |
| ZT275-10 | 50 | 673.1 | 40.4 | 1426 | 275 | 350 | 78 | 6030 | 13294 | 7080 | 15609 |
/* March 10, 2571 17:59:20 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| After-sales Service: | Online Support |
|---|---|
| Warranty: | 12 Months |
| Lubrication Style: | Oil-free |
| Cooling System: | Air Cooling |
| Power Source: | AC Power |
| Cylinder Position: | Horizontal |
| Customization: |
Available
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How are air compressors used in the food and beverage industry?
Air compressors play a vital role in the food and beverage industry, providing a reliable source of compressed air for various applications. Here are some common uses of air compressors in this industry:
1. Packaging and Filling:
Air compressors are extensively used in packaging and filling operations in the food and beverage industry. Compressed air is utilized to power pneumatic systems that control the movement and operation of packaging machinery, such as filling machines, capping machines, labeling equipment, and sealing devices. The precise and controlled delivery of compressed air ensures accurate and efficient packaging of products.
2. Cleaning and Sanitization:
Air compressors are employed for cleaning and sanitization purposes in food and beverage processing facilities. Compressed air is used to operate air-powered cleaning equipment, such as air blowguns, air-operated vacuum systems, and air knives. It helps remove debris, dust, and contaminants from production lines, equipment, and hard-to-reach areas. Additionally, compressed air is used for drying surfaces after cleaning and for applying sanitizing agents.
3. Cooling and Refrigeration:
In the food and beverage industry, air compressors are utilized in cooling and refrigeration systems. Compressed air is used to drive air compressors in refrigeration units, enabling the circulation of refrigerants and maintaining optimal temperatures for food storage and preservation. The controlled airflow provided by the compressors facilitates efficient cooling and refrigeration processes.
4. Aeration and Mixing:
Air compressors are used for aeration and mixing applications in the food and beverage industry. Compressed air is introduced into processes such as fermentation, dough mixing, and wastewater treatment. It helps in promoting oxygen transfer, enhancing microbial activity, and facilitating proper mixing of ingredients or substances, contributing to the desired quality and consistency of food and beverage products.
5. Pneumatic Conveying:
In food processing plants, air compressors are employed for pneumatic conveying systems. Compressed air is used to transport bulk materials such as grains, powders, and ingredients through pipes or tubes. It enables the gentle and efficient movement of materials without the need for mechanical conveyors, reducing the risk of product damage or contamination.
6. Quality Control and Testing:
Air compressors are utilized in quality control and testing processes within the food and beverage industry. Compressed air is used for leak testing of packaging materials, containers, and seals to ensure product integrity. It is also employed for spraying air or gases during sensory analysis and flavor testing.
7. Air Agitation:
In certain food and beverage production processes, air compressors are used for air agitation. Compressed air is introduced into tanks, mixing vessels, or fermentation tanks to create turbulence and promote mixing or chemical reactions. It aids in achieving consistent product quality and uniform distribution of ingredients or additives.
It is important to note that air compressors used in the food and beverage industry must meet strict hygiene and safety standards. They may require specific filtration systems, oil-free operation, and compliance with food safety regulations to prevent contamination or product spoilage.
By utilizing air compressors effectively, the food and beverage industry can benefit from improved productivity, enhanced product quality, and efficient processing operations.
What is the energy efficiency of modern air compressors?
The energy efficiency of modern air compressors has significantly improved due to advancements in technology and design. Here’s an in-depth look at the energy efficiency features and factors that contribute to the efficiency of modern air compressors:
Variable Speed Drive (VSD) Technology:
Many modern air compressors utilize Variable Speed Drive (VSD) technology, also known as Variable Frequency Drive (VFD). This technology allows the compressor motor to adjust its speed according to the compressed air demand. By matching the motor speed to the required airflow, VSD compressors can avoid excessive energy consumption during periods of low demand, resulting in significant energy savings compared to fixed-speed compressors.
Air Leakage Reduction:
Air leakage is a common issue in compressed air systems and can lead to substantial energy waste. Modern air compressors often feature improved sealing and advanced control systems to minimize air leaks. By reducing air leakage, the compressor can maintain optimal pressure levels more efficiently, resulting in energy savings.
Efficient Motor Design:
The motor of an air compressor plays a crucial role in its energy efficiency. Modern compressors incorporate high-efficiency electric motors that meet or exceed established energy efficiency standards. These motors are designed to minimize energy losses and operate more efficiently, reducing overall power consumption.
Optimized Control Systems:
Advanced control systems are integrated into modern air compressors to optimize their performance and energy consumption. These control systems monitor various parameters, such as air pressure, temperature, and airflow, and adjust compressor operation accordingly. By precisely controlling the compressor’s output to match the demand, these systems ensure efficient and energy-saving operation.
Air Storage and Distribution:
Efficient air storage and distribution systems are essential for minimizing energy losses in compressed air systems. Modern air compressors often include properly sized and insulated air storage tanks and well-designed piping systems that reduce pressure drops and minimize heat transfer. These measures help to maintain a consistent and efficient supply of compressed air throughout the system, reducing energy waste.
Energy Management and Monitoring:
Some modern air compressors feature energy management and monitoring systems that provide real-time data on energy consumption and performance. These systems allow operators to identify energy inefficiencies, optimize compressor settings, and implement energy-saving practices.
It’s important to note that the energy efficiency of an air compressor also depends on factors such as the specific model, size, and application. Manufacturers often provide energy efficiency ratings or specifications for their compressors, which can help in comparing different models and selecting the most efficient option for a particular application.
Overall, modern air compressors incorporate various energy-saving technologies and design elements to enhance their efficiency. Investing in an energy-efficient air compressor not only reduces operational costs but also contributes to sustainability efforts by minimizing energy consumption and reducing carbon emissions.
What are the key components of an air compressor system?
An air compressor system consists of several key components that work together to generate and deliver compressed air. Here are the essential components:
1. Compressor Pump: The compressor pump is the heart of the air compressor system. It draws in ambient air and compresses it to a higher pressure. The pump can be reciprocating (piston-driven) or rotary (screw, vane, or scroll-driven) based on the compressor type.
2. Electric Motor or Engine: The electric motor or engine is responsible for driving the compressor pump. It provides the power necessary to operate the pump and compress the air. The motor or engine’s size and power rating depend on the compressor’s capacity and intended application.
3. Air Intake: The air intake is the opening or inlet through which ambient air enters the compressor system. It is equipped with filters to remove dust, debris, and contaminants from the incoming air, ensuring clean air supply and protecting the compressor components.
4. Compression Chamber: The compression chamber is where the actual compression of air takes place. In reciprocating compressors, it consists of cylinders, pistons, valves, and connecting rods. In rotary compressors, it comprises intermeshing screws, vanes, or scrolls that compress the air as they rotate.
5. Receiver Tank: The receiver tank, also known as an air tank, is a storage vessel that holds the compressed air. It acts as a buffer, allowing for a steady supply of compressed air during peak demand periods and reducing pressure fluctuations. The tank also helps separate moisture from the compressed air, allowing it to condense and be drained out.
6. Pressure Relief Valve: The pressure relief valve is a safety device that protects the compressor system from over-pressurization. It automatically releases excess pressure if it exceeds a predetermined limit, preventing damage to the system and ensuring safe operation.
7. Pressure Switch: The pressure switch is an electrical component that controls the operation of the compressor motor. It monitors the pressure in the system and automatically starts or stops the motor based on pre-set pressure levels. This helps maintain the desired pressure range in the receiver tank.
8. Regulator: The regulator is a device used to control and adjust the output pressure of the compressed air. It allows users to set the desired pressure level for specific applications, ensuring a consistent and safe supply of compressed air.
9. Air Outlet and Distribution System: The air outlet is the point where the compressed air is delivered from the compressor system. It is connected to a distribution system comprising pipes, hoses, fittings, and valves that carry the compressed air to the desired application points or tools.
10. Filters, Dryers, and Lubricators: Depending on the application and air quality requirements, additional components such as filters, dryers, and lubricators may be included in the system. Filters remove contaminants, dryers remove moisture from the compressed air, and lubricators provide lubrication to pneumatic tools and equipment.
These are the key components of an air compressor system. Each component plays a crucial role in the generation, storage, and delivery of compressed air for various industrial, commercial, and personal applications.
editor by CX 2024-02-06