BOGE compact module
An optimised screw profile and the compact design of the airend mean increased free air delivery with minimal power consumption. The C-2 guarantees the perfect airend for every performance class
All models boast the standard sound hood, which successfully keeps operating noise and vibrations to a minimum. Ideal conditions for flexible installation!
Maintenance friendly by principle
To ensure the most user-friendly maintenance possible, all of the components have been arranged to allow quick access. For example, all of the sound insulation panels can be effortlessly removed, and filters can be changed with minimal downtime.
Even the standard base control has everything to allow the compact compressors to be operated safely and efficiently. The main display clearly shows five parameters on one LC screen – with ergonomic layout on both the base and the receiver machine.
Compact BOGE screw compressors have been known in the industry for their reliability in the generation of compressed air for many years. Thanks to their integrated design, they have a small footprint and efficiently generate compressed air. In addition, the highly efficient, maintenance-free direct drive with elastic coupling guarantees maximum service life. The integrated refrigerant dryer allows for a complete compressed air station with minimal footprint and consistently high compressed air quality. “Plug & work” is the order of the day!
Compact screw compressor, oil-lubricated, directly coupled, with refrigerant dryer
- ergonomic control
- integrated design
- extremely quiet
- heat recovery can be integrated
- refrigerant dryer included
- directly coupled
- maximum efficiency
BOGE Max. Pressure Effective Delivery Volume
Motor Power Dimensions
W × D × H
Weight Type bar psig m3/min cfm kW hp mm kg C 12-2 LD 7.5 109 1.820 64.3 11 15 1610 x 915 x 1380 557 C 12-2 LD 10 145 1.740 61.4 11 15 1610 x 915 x 1380 557 C 15-2 LD 7.5 109 2.260 79.8 15 20 1610 x 915 x 1380 567 C 15-2 LD 10 145 2.220 78.4 15 20 1610 x 915 x 1380 567
C-2 SeriesPDF, 9 MB