Lowering pressure for energy saving
Why not lower the supply pressure of the compressor?
Lowering the supply pressure of the compressor can bring these energy-saving effects:
The power consumption of the compressor decreases.
●Energy-saving effect ②
The air consumption (including air leaks) decreases.
●Energy-saving effect ③
The load of the compressor decreases.
Lowering the supply pressure by 0.3 MPa leads to an energy saving of about 20%! |
CO2 emissions are cut by about 50tons annually! Three 37-kW compressors are used. Operation time: 4,000 hours/year Emission factor: 0.000555t-CO2/kWh Calculated using the above conditions. |
Introducing a booster to compensate for pressure insufficiency after lowering the pressure
Lower the pressure of the compressor
|
↓
|
Introduce a booster to compensate for pressure insufficiency
|
↓
|
↓
|
||||
Boost with air |
Boost electrically |
||||
|
|
||||
More than half of the energy is wasted during boosting. |
Compared to the air-driven type, power consumption is reduced to 1/3! |
||||
↓
|
|||||
|
Features
The world's first oil-free type
The compressor can be installed easily even in narrow spaces where it was formerly difficult to install.
Low noise and low vibration
Long life
A microcomputer board is included (EFBS15).
Compact structure with an internal pressurizing mechanism (*) (EFBS04/07)
Since the compressor can maintain gas purity, it is recommended for nitrogen gas boosting as well.
Delivery case
