With the second generation of the GEA Grasso V series, GEA presented new piston compressor units for industrial cooling solutions at Chillventa 2024 in Nuremberg.
The GEA Grasso V 2nd generation is available as a single-stage and two-stage series with a delivery volume of 218 to 1,991 m³⁄ h.
The advantages of the 2nd generation compressors are their more robust design, smaller footprint and larger areas of application in the field of industrial cooling.
On the cost side, the up to 25 per cent lower maintenance costs combined with up to 25 per cent more capacity will seriously reduce the total cost of ownership are important plus points.
The single-stage piston compressor units of the GEA Grasso V series are each available in seven sizes with different V-belts and direct drives in a capacity range from 150 to 900 kW. The two-stage piston compressor units are also available in seven sizes each with different V-belts and direct drives in a capacity range from 50 to 300 kW.
Highly efficient and compact intercoolers are available for the two-stage reciprocating compressor units.
Also the GEA Grasso V HP reciprocating heat pump compressor, suitable for condensing temperatures up to 72°C, will be upgraded to the new Generation.
The new bearing technology has made this compressor suitable for the standard refrigeration oil used in cooling plants. This can simplify the oil return system of the complete refrigeration plant.
Up to 25 per cent lower maintenance costs without compromising on reliability - how is that possible? One reason is the electronically controlled, extended and flexible maintenance intervals.
The required maintenance intervals are automatically displayed via the GEA maintenance monitor and GEA Omni. Another reason for extended maintenance intervals are improved materials, an optimised design and fewer parts.
Due to the extremely low oil carryover, the oil separator is often omitted to save costs and space in the engine room.
V series features include unique welded compressor housing for outstanding temperature separation and low oil carry-over, heavy-duty axial rolling bearings and an overflow valve independent of back pressure.