TAH – TCH Series

TAH-TCH series refrigeration dryers from KAESER

As a leading compressed air systems provider, KAESER understands that each component plays an integral role in effi cient production of clean, quality compressed air. Therefore, all TAH-TCH series refrigeration dryers are manufactured in KAESER’s own dedicated production centre in Gera, Germany, to ensure the very highest standards in system reliability and performance. With KAESER knowledge and expertise, these units can then be seamlessly integrated into carefully designed compressed air systems to provide outstanding drying results.

Why is it necessary to dry compressed air?

The atmospheric air drawn into a compressor is a mixture of gases that always contains water vapour. The amount of water vapour air can carry varies and is mostly dependent on temperature.
As air temperature rises – which occurs during compression – the air’s capability to hold moisture increases also. When the air is cooled its capacity to hold moisture reduces, which causes the water vapour to condense.
This condensate is then removed in the downstream centrifugal separator or the air receiver. Even then, the air is often still totally saturated with water vapour. This is why signifi cant amounts of condensate can accumulate in the air distribution piping and at take-off points as the air
cools further. Therefore, additional drying is essential to avoid production downtime and interruptions, as well as reduce costly maintenance and repair work. Refrigeration drying is usually the most effi cient solution for the majority of compressed air applications.

  • Manufacturer:

    TAH 4

    • Flow capacity in m3/min at 7 bar* working pressure – 0.35
    • Differential pressure bar – 0.05
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.22
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G3/4
    • Condensate outlet – G1/4
    • Condensate Drain – Pilot controlled, contamination proof, no air loss
    • Diamensions H x W x D mm – 639 x 381 x 484
    • Weight kg – 36

    TAH 6

    • Flow capacity in m3/min at 7 bar* working pressure – 0.60
    • Differential pressure bar – 0.05
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.28
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G3/4
    • Condensate outlet – G1/4
    • Condensate Drain – Pilot controlled, contamination proof, no air loss
    • Diamensions H x W x D mm – 639 x 381 x 484
    • Weight kg – 40

    TBH 9

    • Flow capacity in m3/min at 7 bar* working pressure – 0.80
    • Differential pressure bar – 0.22
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.28
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G3/4
    • Condensate outlet – G1/4
    • Condensate Drain – Pilot controlled, contamination proof, no air loss
    • Diamensions H x W x D mm – 750 x 360 x 522
    • Weight kg – 45

    TBH 13

    • Flow capacity in m3/min at 7 bar* working pressure – 1.20
    • Differential pressure bar – 0.22
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.28
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G3/4
    • Condensate outlet – G1/4
    • Condensate Drain – ECO DRAIN – no pressure loss
    • Diamensions H x W x D mm – 750 x 360 x 522
    • Weight kg – 47

    TCH 22

    • Flow capacity in m3/min at 7 bar* working pressure – 2.20
    • Differential pressure bar – 0.2
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.46
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G1
    • Condensate outlet – G1/4
    • Condensate Drain – ECO DRAIN – no pressure loss
    • Diamensions H x W x D mm – 879 x 427 x 608
    • Weight kg – 55

    TCH 26

    • Flow capacity in m3/min at 7 bar* working pressure – 2.60
    • Differential pressure bar – 0.25
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.48
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G1
    • Condensate outlet – G1/4
    • Condensate Drain – ECO DRAIN – no pressure loss
    • Diamensions H x W x D mm – 879 x 427 x 608
    • Weight kg – 56

    TCH 32

    • Flow capacity in m3/min at 7 bar* working pressure – 3.15
    • Differential pressure bar – 0.3
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.64
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G1
    • Condensate outlet – G1/4
    • Condensate Drain – ECO DRAIN – no pressure loss
    • Diamensions H x W x D mm – 879 x 427 x 608
    • Weight kg – 59

    TCH 35

    • Flow capacity in m3/min at 7 bar* working pressure – 3.50
    • Differential pressure bar – 0.3
    • Max. working pressure bar – 16
    • Effective power consumption kW – 0.66
    • Power supply – 230 V, 50 Hz, 1PH
    • Refrigerant – R 134a
    • Air connection (female thread) – G1
    • Condensate outlet – G1/4
    • Condensate Drain – ECO DRAIN – no pressure loss
    • Diamensions H x W x D mm – 879 x 427 x 608
    • Weight kg – 64

    *Performance data for reference conditions to ISO 7183, option A; ambient temperature +25 °C, air inlet temperature +35 °C, pressure dew point +3 °C. The flow rate changes for other operating conditions.

  • Refridgeration Dryers- TAH, TBH, TCH