Oil Free Air Compressor

    Features :
    Why a 100% oil-free compressed air system?
    It is impossible to imagine present day production process sequences without compressed air. As modern day industries are increasingly imposing ever high quality demands, it is not, just a matter of producing a certain quantity of compressed air but also of conforming it with a defined purity criteria.

    Oil present in the compressed air mixes with the compressor condensate and other dirt to form an unwanted abrasive sludge. This abrasive sludge, often acidic in nature, rapidly wears pneumatic machinery, valves etc. causing frequent maintenance break-downs and costly air leaks.

    It corrodes piping systems and can bring your production process to an extremely expensive standstill. That is the reason why most of the applications demand nearly 100% oil free air, as can be seen in the chart.

    In an oil-free compressor the problem of oil is eliminated. Oil removal filtration system, as required in oil-flooded compressors results in system pressure drop hence energy loss. It also needs recurring costly replacements of filtration elements. And you are still not very sure about the filtration efficiency.

     

    Double deck System
    Double Deck System to segregate Rotating & Stationery equipments in the Packages. This along with the flexible hoses at appropriate points flexible hoses at appropriate points restricts vibration transmissions to sensitive equipments like Control Panel, PLC, Stater & Dryer etc.

     

     

     

    Anti vibration mounting
    Isolates vibrations between main and sub-deck

     

     

     

    CP- Tronic
    control protects your compressor. CP- Tronic continuously scans all vital functions, and shuts down the reciprocating air compressor automatically, with indication, if necessary.

     

     

    Models FAD m/min Min Working Pressure kg/cm2 Max FAD m/min Max Working Pressure kg/cm2 Min Motor Rating Overall Dimension (Meters)
    L W H
    Models for Normal Pressure Range
    Vertical Models
    HX1T-15N 1.19 10 1.7 7 15 2.2 1.5 2.3
    HX1T -20N 1.98 9 2.44 7 20 2.2 1.5 2.3
    HX1 T -25N-1 2.46 9 2.83 7 25 2.2 1.5 2.3
    HX1 T -25N-2 2.69 9 3.23 7 25 2.2 1.5 2.3
    HX1T -30N 3.17 9 3.85 7 30 2.2 1.5 2.3
    Horizontal, Two Cylinder, Balanced-Opposed Models
    HX2T-30N 3.45 10 4.47 7 30 3.2 1.9 2.1
    HX2T-40N 5.35 10 6.31 7 40 3.2 1.9 2.1
    HX2T-50N 6.06 10 7.73 7 50 3.5 1.9 2.35
    HX2T -60N 8.01 10 9.4 7 60 3.5 1.9 2.35
    HX2T -75N 9.17 10 11.67 7 75 3.5 1.9 2.35
    HX2T -100N 13.37 10 14.84 7 100 3.5 1.9 2.35
    HN2T-120N 16.31 10 18.24 7 120 3.7 2.5 2.7
    HN2T-150N 19.31 10 23.13 7 150 3.7 2.5 2.7
    HN2T-180N 23.19 10 26.11 7 180 3.7 2.5 2.7
    HN2T-215N 27.04 10 33.47 7 215 4.5 3 3
    Models for Low Pressure Range
    Vertical Models
    HX1 T -25L 4.59 4 5.21 2.5 25 2.2 1.5 2.3
    HX1 T -30L 5.1 4 6.63 2.5 30 2.2 1.5 2.3
    Horizontal, Two Cylinder, Balanced-Opposed Models
    HX2T -50L 9.4 4 11.92 2.5 50 3.5 1.9 2.6
    HX2T-75L 13.99 4 17.73 2.5 75 3.5 1.9 2.6
    HX2T -100L 18.69 4 22.12 2.5 100 3.5 1.9 2.2
    HN2T-120L 21.8 4 30.16 2.5 120 4.5 2.2 2.75
    HN2T -150L 28.94 4 37.07 2.5 150 4.5 2.2 2.75
    HN2T -180L 36.02 4 46.55 2.5 180 4.5 2.2 2.75
    HN2T -215L 40.46 4 45.59 3 215 4.5 2.2 2.75
    Models for High Pressure Range
    Horizontal Two Cylinder, Balanced-Opposed Models
    HX2T-75H 7.87 15 8.44 12 75 3.4 1.6 2.2
    HX2T -100 H 11.33 15 11.81 12 100 3 1.6 2.2
    HN2T-150H 14.64 15 17.24 12 150 3.7 2.5 2.7